TWI581759B - Symmetrical temperature difference acquisition method - Google Patents

Description

Symmetrical temperature difference acquisition method

The invention relates to a method for obtaining a symmetric temperature difference, in particular to a method for measuring body temperature in precise medical treatment.

There are no two identical green leaves in the world. There are differences in the genes between people. The same medicine is not necessarily effective for everyone. There is a difference in the response of each person to drugs. Therefore, in general, pharmaceutical companies develop drugs. When a doctor prescribes a prescription, it is usually only possible to treat the "average level" of most patients based on technical limitations, that is, standardized medical care.

However, with the introduction of high-throughput sequencing technology and the improvement of huge data processing capabilities, modern medicine is undergoing tremendous changes, from the traditional standardized medical model to the individualized medical model, and individualized medical care is also called “precise medical care”. The new direction of modern medicine.

Accurate medical care is based on the patient's greatest benefit and efficient allocation of social medical investment, combining modern epidemiology and preventive medicine, clinical diagnostics and therapeutics, molecular medicine, medical informatics technology, and health economics and medical society. Learning to modernize the traditional medical model, providing tailor-made disease prevention, screening, diagnosis, treatment and rehabilitation programs for everyone, with maximum resources to obtain maximum health protection, thereby improving the overall health of the population.

On the other hand, as far as Chinese medicine is concerned, in the theory of traditional Chinese medicine, there is a human body as a whole system, which has a natural operation and balance. If it loses balance, it will produce this kind of pathology, and in the treatment direction of Chinese medicine, it exists. "Different treatment of the same disease" is related to "precise medical care" The theory of echo is that because each body is different, different reactions and results will be produced for the same treatment, so it is necessary to diagnose the pathology and cause suitable for each patient to make the most suitable treatment.

How to combine "precise medical care" with traditional Chinese medicine, integrate modern scientific and technological means and traditional medical methods, scientifically recognize the human body function and the essence of disease, and achieve symmetrical precision medical treatment, which is a big problem.

In order to enable Chinese medicine practitioners to achieve the effect of "precise medical treatment", it is very important to choose the symmetrical life information performance, which is the key indicator of biology or physics. Because the symmetrical life information and information difference [balance condition] is due to people Different, depending on the disease, according to this medication and intervention, the so-called symmetric balance of medical treatment, in the personalized medical treatment is directional [up and down left and right].

Therefore, to choose the symmetrical temperature difference as a key marker, for the current better choice, there are five reasons, the first point: people are warm animals; the second point: temperature is the statistical performance of the average kinetic energy of the molecule; Three points: the greatest common denominator of all kinds of medicine; the fourth point: the most accurate, convenient and cheapest way of life measurement; the fifth point: according to the frontier of physics in the 21st century, the theory of symmetry and symmetry breaking.

Although symmetrical temperature differences have been recognized to help achieve symmetrical precision medicine, the biggest problem at present is how to obtain a symmetric temperature difference that can be applied.

In view of this, how to provide a body temperature measuring method capable of effectively obtaining symmetric temperature difference data and further applying it to precision medical treatment has become an object to be improved by the present invention.

The object of the present invention is to provide a method for obtaining a symmetric temperature difference which can be applied to a precise medical treatment by performing multi-point simultaneous operation and long-term monitoring of human body temperature.

In order to solve the above problems and achieve the object of the present invention, the technical means of the present invention, This is achieved by a method for obtaining a symmetric temperature difference, characterized in that the method comprises the following steps: preparing step (I): preparing a temperature sensing device (1), the temperature sensing device (1) comprising a first sensing The group (11) and the second sensing group (12), and the first sensing group (11) and the second sensing group (12) both include at least one temperature sensing patch (2) The measuring step (II): positioning the aforementioned temperature sensing device (1) correspondingly to the predetermined position (20) of the tested person (10) to collect the predetermined position of the tested person (10) (20) The body temperature change data (A) at the predetermined position (20) includes a first predetermined position group for each of the temperature sensing patches (2) in the first sensing group (11) a group (201), and a second predetermined position group (202) for respectively corresponding to each of the temperature sensing patches (2) in the second sensing group (12); and an extracting step (III) When the temperature sensing device (1) stops operating after a certain period of time (T) due to exhaustion of power, that is, the body temperature change data (A) is collected, and the temperature sensing device (1) is removed. even The reading device (3) is connected to take out the body temperature change data (A) stored in each of the temperature sensing patches (2), so that the medical staff can apply the body temperature change data (A) to the symmetric precision medical treatment. .

More preferably, the period of time (T) is in the range of at least 24 hours.

More preferably, the first predetermined position group (201) and the second predetermined position group (202) are symmetrically distributed on the body surface of the test subject (10).

More preferably, the temperature sensing patch (2) further includes a temperature sensing terminal (21) capable of contacting the surface of the human body for sensing temperature, at least one capable of storing the temperature change data. (A) Memory unit (22), and a battery (23).

More preferably, the temperature sensing patch (2) further includes an outer casing (24), a circuit board (25), and a processing chip (26) electrically connected to the circuit board (25). a light emitting unit (27), and at least one connecting unit (28); the outer casing (24) having a receiving space (241) therein; the circuit board (25) being disposed in the receiving space (241) electrically connected to the temperature sensing terminal (21), the memory unit (22), and the battery (23); the processing chip (26), which is The circuit board (25) is configured to process the digital information continuously transmitted from the temperature sensing terminal (21) within a set time to be converted into body temperature change data (A), and stored to the a memory unit (22); the light-emitting unit (27) is disposed in the receiving space (241) for external illumination for indicating an operating state; and the connecting unit (28) is provided at It is disposed in the accommodating space (241), and one end is located at the periphery of the outer casing (1), and can be connected to the reading device (3).

More preferably, the outer casing (24) corresponding to the temperature sensing terminal (21) is further provided with a through hole (242); the temperature sensing patch (2) further includes a setting On the periphery of the perforation (242), on the surface of the outer casing (24), the temperature sensing patch (2) can be attached to the glue unit (29) on the surface of the human body, the glue unit (9) The invention comprises a glue layer layer (291) and a release layer body (292) arranged in sequence.

More preferably, the outer casing (24) further includes a first casing (243) and a second casing (244) disposed correspondingly, the second casing (244) The side top surface is further provided with a receiving groove (245), and the receiving groove (245) further comprises an identification sticker (246) for identifying the temperature sensing patch (2).

More preferably, the light emitting unit (27) is an LED; the connecting unit (28) is one of the following: a type A USB slot, a type B USB slot, a type C USB slot , Micro-A type USB slot, Micro-B type USB slot, Mini-A type USB slot, Mini-B type USB slot.

More preferably, the reading device (3) further includes a housing (31), a connecting jaw set (32) disposed at a side of a top side of the housing (31), and a a display device (33) on the other side of the top side of the casing (31), an output unit (34) disposed on one side of the casing (31), and one disposed in the casing (31) and in front of a processing unit (35) electrically connected to each device; the connection port group (32) is provided with each temperature sensing patch (2) corresponding to the temperature sensing device (1), and can be charged And a plurality of ports (321) for transmitting the body temperature change data (A); the processing unit (35), The body temperature change data (A) transmitted from each temperature sensing patch (2) can be displayed on the display device (33) and/or output to the outside through the output unit (34).

Compared with the prior art, the functions and effects of the present invention are as follows:

The first point: the application of the method of the present invention can be easily implemented, and the body temperature change data (A) can be obtained without affecting the life of the test subject (10), so as to avoid affecting the correctness of the body temperature change data (A). It is beneficial to the correct judgment of the physical state of the tested person (10) to be effectively applied to symmetric precision medical treatment.

The second point: the application of the method of the present invention, because of the convenience of application and low cost, can facilitate the rapid establishment of big data, that is, huge amount of data, to be applied to precision medical treatment, and to help medical personnel to be tested. The judgment of the physical state of the person (10) achieves the true symptomatic medicine, improves the treatment probability of the disease, and advances toward the early prevention and early treatment.

Third point: In the present invention, by applying the miniaturization design of the temperature sensing patch (2), the burden on the measured person can be reduced, the discomfort can be reduced, and the user is more willing to cooperate, so that the application range of the present invention is further improved. Wide range, truly practical, in addition to being applied to general medical facilities, it can be applied to home care.

Fourth point: In the present invention, the applied temperature sensing patch (2) simplifies the manufacturing difficulty, reduces the manufacturing cost, can be more easily promoted and applied, and improves the data collection efficiency.

Fifth point: In the present invention, the applied temperature sensing patch (2) adopts a power-free switch design to solve the problem of error-free operation and false shutdown. When used, the operation time and the application are all handed over to the battery. (23) The amount of electricity is determined, it is very simple to use, and there is no need to worry about the problem that it will not be used, so that the method for obtaining the symmetric temperature difference of the present invention is easier to implement.

1‧‧‧Temperature sensing device

3‧‧‧Reading device

11‧‧‧First Sensing Group

31‧‧‧Shell

12‧‧‧Second Sensing Group

32‧‧‧Connecting group

2‧‧‧Temperature sensing patch

321‧‧‧Links

21‧‧‧Temperature sensing terminal

33‧‧‧Display device

22‧‧‧ memory unit

34‧‧‧Output unit

23‧‧‧Battery

35‧‧‧Processing unit

24‧‧‧Outer casing

10‧‧‧Measured personnel

241‧‧‧ accommodating space

20‧‧‧Predetermined location

25‧‧‧ boards

201‧‧‧First scheduled location group

26‧‧‧Processing wafer

202‧‧‧second predetermined location group

27‧‧‧Lighting unit

A‧‧‧ body temperature change data

28‧‧‧ Connection unit

T‧‧‧some time

29‧‧‧ glue unit

I‧‧‧Preparation steps

291‧‧‧Adhesive layer

II‧‧‧Measurement steps

292‧‧‧ Release layer

III‧‧‧ extraction steps

Figure 1: Schematic diagram of the flow of the present invention.

Fig. 2 is a schematic view showing the application of the preparation step and the measurement step in the present invention.

Fig. 3 is a schematic view showing the application of the extraction step in the present invention.

Figure 4 is a perspective view of a temperature sensing patch applied in the present invention.

Fig. 5 is an exploded perspective view of a temperature sensing patch applied in the present invention.

Fig. 6 is a perspective view showing another angle of the temperature sensing patch applied in the present invention.

Fig. 7 is an exploded perspective view showing the temperature sensing patch applied in the present invention at another angle.

Figure 8 is a perspective view of a reading device applied in the present invention.

The following is a detailed description of the following embodiments according to the drawings:

As shown in FIG. 1 to FIG. 3, the figure discloses a method for obtaining a symmetric temperature difference, characterized in that the method comprises the following steps: preparing step (I): preparing a temperature sensing device (1), the temperature sense The measuring device (1) includes a first sensing group (11) and a second sensing group (12), and the first sensing group (11) and the second sensing group (12) both include At least one temperature sensing patch (2); measuring step (II): positioning the aforementioned temperature sensing device (1) correspondingly to a predetermined position (20) of the person to be tested (10) to collect the Temperature change data (A) at a predetermined position (20) of the test subject (10), the predetermined position (20) including a temperature sensing patch (2) for each of the first sensing groups (11) a first predetermined position group (201) corresponding to the setting, and a second predetermined position for each of the temperature sensing patches (2) in the second sensing group (12) respectively corresponding to the setting Group (202); and extraction step (III): when the temperature sensing device (1) stops operating after a certain time (T) due to exhaustion of power, that is, the body temperature change data (A) is collected, The temperature The measuring device (1) is removed, and the reading device (3) is connected to take out the body temperature change data (A) stored in each of the temperature sensing patches (2), so that the medical staff can change the body temperature data (A) ), applied to symmetric precision medicine.

Among them, the application of this method, the most important goal is to reduce the burden on the use of the test personnel (10), in order to achieve the use of can be used as a key marker without affecting the life of the testee (10) Temperature change data (A), to avoid the test subject (10) because of psychological and / or raw The rational factors affect the correctness of the body temperature change data (A), which is beneficial to the judgment of the physical state of the testee (10), and can be effectively applied to symmetric precision medical treatment.

Secondly, through the application of this method, in addition to avoiding excessive interference with the physical state of the person being tested (10), the most important thing is that it is very convenient to apply, has no age limit, and is easier to apply, and Low cost, non-invasive measurement method, very suitable for popularization and application, is conducive to establishing a database with huge amount of data in a short time, so that precision medicine can be realized at a lower cost, so that everyone can Enjoy this benefit.

In the above, the certain time (T) is in the range of at least 24 hours.

Among them, the time range of at least 24 hours is used as a benchmark to meet the human life pattern and life law, which can facilitate the application of body temperature change data (A), and quickly determine the physical state of the person under test (10). The problem of physical problems, and the above-mentioned body temperature change data (A) can be put into the database and become a part of the huge amount of data to promote the development of precision medicine.

In the above, the first predetermined position group (201) and the second predetermined position group (202) are symmetrically distributed on the body surface of the test subject (10).

Wherein, by setting in a symmetrical manner, the temperature change data (A) obtained by the temperature sensing patch (2) is symmetrical, because the human body itself has symmetry characteristics, and thus, the data It is very obvious when there is a difference, which can facilitate the correct judgment of the physical condition of the tested person (10) by the medical staff.

Referring to FIG. 5 and FIG. 7, the temperature sensing patch (2) further includes a temperature sensing terminal (21) capable of contacting the surface of the human body for sensing temperature, at least A memory unit (22) for storing the body temperature change data (A), and a battery (23).

In order to facilitate the implementation of the symmetric temperature difference obtaining method of the present invention, the difficulty in application can be reduced by such an arrangement, and the temperature of the measured person (10) is sensed by the temperature sensing terminal (21), and the body temperature change data is obtained. A), stored in memory unit (22), and operated by battery (23) The energy, simple posture, can be easily applied in conjunction with the symmetric temperature difference acquisition method of the present invention to obtain more accurate data.

Secondly, in order to facilitate the limitation of time, the capacity of the battery (23) can be limited to replace the traditional timing method, which can be easily applied and reduce the use cost. It is not necessary to pay special attention to the length of use, and the battery (23) has no electricity, and it is time. It can be automatically stopped, and it is more convenient to use, so that the symmetric temperature difference obtaining method of the present invention can be more easily implemented.

Referring to FIG. 5 and FIG. 7, the temperature sensing patch (2) further includes an outer casing (24), a circuit board (25), and the circuit board (25). a processing chip (26), a light emitting unit (27), and at least one connecting unit (28); the outer casing (24) having a receiving space (241) therein; the circuit board (25) Provided in the accommodating space (241), and electrically connected to the temperature sensing terminal (21), the memory unit (22), and the battery (23); the processing chip (26), which is The circuit board (25) is configured to process the digital information continuously transmitted from the temperature sensing terminal (21) within a set time to be converted into body temperature change data (A), and stored to the a memory unit (22); the light-emitting unit (27) is disposed in the receiving space (241) for external illumination for indicating an operating state; and the connecting unit (28) is provided at It is disposed in the accommodating space (241), and one end is located at the periphery of the outer casing (1), and can be connected to the reading device (3).

The housing (24), the circuit board (25), the processing chip (26), and the light-emitting unit (27) are coupled by the temperature sensing terminal (21), the memory unit (22), and the battery (23). And the connecting unit (28), forming a temperature sensing patch (2), can facilitate long-term monitoring of the temperature change of the human body, and provide accurate data to achieve the goal of precise medical precision treatment, as a health, rehabilitation, treatment direction The important basis for such measures can of course be applied to precision prevention and accurate prediction.

Secondly, the temperature sensing patch (2) is different from the general thermometer and can be used at the same time to achieve the effect of measuring multiple temperatures at the same time, so that it can be avoided. Temperature error problems caused by measuring multiple temperatures at different times.

Furthermore, the miniaturization design of the temperature sensing patch (2) can reduce the burden on the person being measured, reduce the discomfort, and make it more suitable to use, so that the present invention can be used in addition to general medical facilities. Applied to home care.

In addition, the use of the processing chip (26) can not only process the digital information continuously transmitted from the temperature sensing terminal (21) within the set time, but also ensure that the battery (23) can be powered off before being powered off. It is properly stored in the memory unit (22), and can be informed by the light-emitting unit (27) of the current operating state, whether it is operable or about to be stopped, and more suitable for the connection unit (28) to be connected with the external device (3). ) Connect, output data and / or charge.

Referring to FIG. 6 and FIG. 7, the outer casing (24) corresponding to the temperature sensing terminal (21) is further provided with a through hole (242); the temperature sensing patch ( 2) further comprising a glue unit disposed on the periphery of the perforation (242) on the surface of the outer casing (24) for attaching the temperature sensing patch (2) to the surface of the human body (29) The glue unit (9) includes a glue layer (291) and a release layer body (292) stacked in sequence.

Wherein, through the setting of the perforation (242), the temperature sensing terminal (21) can directly contact the skin of the tested person (10) to avoid the occurrence of errors, so that the body temperature change data (A) can be more correct, so that Applied to the judgment of the physical state.

Secondly, through the application of the glue unit (29), the temperature sensing patch (2) can be quickly positioned and quickly fixed on the human body, and there is no need to worry about the patient's temperature during the change of the body temperature. The activity, while falling on its own body, affects the temperature data, or causes the temperature sensing patch (2) of the present invention to be broken.

Furthermore, the application of the adhesive layer body (291) and the release layer body (292) can facilitate rapid application, and can be preserved when not positioned on human skin. On the other hand, the glue unit (29) is in compliance with medical treatment. Related specifications, can use a replaceable one-time adhesive unit (29), but if It is applied to general households, and in order to reduce the trouble of use, it is also possible to use a glue unit (29) that can be reused many times.

Referring to FIG. 4 and FIG. 5 again, the outer casing (24) further includes a first casing (243) and a second casing (244) disposed correspondingly. The top surface of the second casing (244) is further provided with a receiving groove (245), and the receiving groove (245) further comprises an identification sticker (246) for identifying the temperature sensing patch (2).

In addition, by the cooperation of the first casing (243) and the second casing (244), in addition to reducing the cost, the assembly of the internal device can be facilitated, and the internal device can be effectively protected, which is more advantageous for overall maintenance. The difficulty in maintenance is low.

Secondly, through the application of the pocket (245), in addition to facilitating the identification of the sticker (246), it is possible to avoid the separation from the second housing (244) due to friction during long-term use, which facilitates application and maintenance of temperature. Sensing patch (2).

Referring to FIG. 5 and FIG. 7, the light emitting unit (27) is an LED; the connecting unit (28) is one of the following: a type A USB slot, a type B USB Slot, C-type USB slot, Micro-A type USB slot, Micro-B type USB slot, Mini-A type USB slot, Mini-B type USB slot.

Among them, the light-emitting unit (7) uses LED, which not only saves electricity, but also is not easy to malfunction, and in addition to applying a single-color LED, it can also apply multi-color LEDs, so that the user can quickly know the temperature sensing patch (2) The state of operation.

Secondly, the slot selection of the connection unit (28) can be changed according to the needs of the user, so that the user can easily apply the application without worrying about problems in the application, and using the USB slot, in addition to being easy to obtain, It can reduce the cost, avoid the overall thickening and affect the use. More importantly, it can also transfer the temperature data while charging, so that the temperature sensing patch (2) is more convenient to apply, without spending extra thoughts. Go extra attention and or learn temperature sensing patches (2) The maintenance and other related information can focus on the patient.

Referring to FIG. 8 again, the reading device (3) further includes a casing (31), a connecting jaw set (32) disposed at a side of a top side of the casing (31), a display device (33) disposed on the other side of the top side of the casing (31), an output unit (34) disposed on one side of the casing (31), and a casing (31) disposed on the casing (31) a processing unit (35) electrically connected to each of the foregoing devices; the connection port group (32) provided with respective temperature sensing patches (2) respectively corresponding to the temperature sensing device (1) a plurality of ports (321) for charging and transmitting the body temperature change data (A); the processing unit (35) capable of transmitting the body temperature of each temperature sensing patch (2) The change data (A) is displayed on the display device (33) and/or output to the outside through the output unit (34).

The temperature sensing patch (2) is connected to the temperature sensing patch (2) through the housing (31) to effectively protect other internal devices to connect the connection ports (321) of the group (32), and output body temperature change data (A) And charging at the same time, facilitating the application of the temperature sensing patch (2), displaying whether the reading device (3) is operating normally by the display device (33), and facilitating the body temperature change data (A) by the output unit (34) The output is integrated, and the processing unit (35) is used to initially organize the body temperature change data (A) for medical personnel to apply.

Secondly, through the application of the reading device (3), it can be easily used without worrying that it will be difficult to use, just like the general electronic sphygmomanometer is easy to use, without long-term training, the scope of application and the place can be wider, and can be applied at home. Or in the clinic, or in a hospital.

The embodiments, features, and effects of the present invention are described in detail above with reference to the embodiments shown in the drawings. However, the above description is only a preferred embodiment of the present invention, but the present invention is not limited to the scope of the present invention. Modifications that are consistent with the intent of the present invention are intended to fall within the scope of the invention as long as they are within the scope of the invention.

I‧‧‧Preparation steps

II‧‧‧Measurement steps

III‧‧‧ extraction steps

Claims (5)

A method for obtaining a symmetric temperature difference, characterized in that the method comprises the following steps: preparing step (I): preparing a temperature sensing device (1), the temperature sensing device (1) comprising a first sensing group (11), and a second sensing group (12), wherein the first sensing group (11) and the second sensing group (12) both include at least one temperature sensing patch (2); measuring step (II) ): positioning the aforementioned temperature sensing device (1) correspondingly to a predetermined position (20) of the test subject (10) to collect body temperature change data at the predetermined position (20) of the test subject (10) (A), the predetermined position (20) includes a first predetermined position group (201) for each of the temperature sensing patches (2) in the first sensing group (11), and a second predetermined position group (202) for each of the temperature sensing patches (2) in the second sensing group (12); and an extracting step (III): when the temperature sense After a certain period of time (T), the measuring device (1) stops operating when the power is exhausted, that is, the body temperature change data (A) is collected, the temperature sensing device (1) is removed, and the reading device is connected (3). ) will The body temperature change data (A) stored in each of the temperature sensing patches (2) is taken out, so that the medical staff can apply the body temperature change data (A) to the symmetric precision medical treatment; the certain time (T), The range is at least 24 hours; the first predetermined position group (201) and the second predetermined position group (202) are symmetrically distributed on the body surface of the test subject (10); The temperature sensing patch (2) further includes a temperature sensing terminal (21) capable of contacting the surface of the human body for sensing temperature, and at least one memory unit for storing the body temperature change data (A) (22), and a battery (23); the temperature sensing patch (2) further comprising an outer casing (24), a circuit board (25), and an electrical connection with the circuit board (25) a processing chip (26), a light emitting unit (27), and at least one connecting unit (28); The outer casing (24) is provided with a receiving space (241); the circuit board (25) is disposed in the receiving space (241), and the temperature sensing terminal (21), the The memory unit (22) and the battery (23) are electrically connected; the processing chip (26) is disposed on the circuit board (25) and can be processed from the temperature sensing terminal (21) at a set time The digital information continuously transmitted is converted into body temperature change data (A) and stored at the memory unit (22); the light emitting unit (27) is disposed in the receiving space (241) And the connecting unit (28) is disposed in the receiving space (241), and one end is located at a periphery of the outer casing (1), and is capable of being supplied thereto The reading device (3) is used for connection. The symmetrical temperature difference obtaining method according to claim 1, wherein: the outer casing (24) corresponding to the temperature sensing terminal (21) is further provided with a through hole (242); the temperature sensing patch (2) further comprising a glue unit disposed on the periphery of the perforation (242) on the surface of the outer casing (24) for attaching the temperature sensing patch (2) to the surface of the human body ( 29) The glue unit (9) comprises a glue layer layer (291) and a release layer body (292) arranged in sequence. The symmetrical temperature difference obtaining method according to claim 2, wherein the outer casing (24) further includes a first casing (243) and a second casing (244) disposed correspondingly. The top surface of the second casing (244) is further provided with a receiving groove (245), and the receiving groove (245) further comprises an identification sticker (246) for identifying the temperature sensing patch (2). . The symmetric temperature difference obtaining method according to claim 3, wherein: the light emitting unit (27) is an LED; and the connecting unit (28) is one of the following: a type A USB slot, a type B USB slot, C-type USB slot, Micro-A type USB slot, Micro-B type USB slot, Mini-A Type USB slot, Mini-B type USB slot. The method for obtaining a symmetric temperature difference according to claim 4, wherein the reading device (3) further includes a casing (31) and a port disposed at a side of a top side of the casing (31). a display device (33) disposed on the other side of the top side of the casing (31), an output unit (34) disposed on one side of the casing (31), and a a processing unit (35) in the housing (31) and electrically connected to the foregoing devices; the connection group (32) provided with temperature sensing patches respectively corresponding to the temperature sensing device (1) (2) provided, a plurality of ports (321) for charging and transmitting the body temperature change data (A); the processing unit (35) capable of transmitting the temperature sensing patches (2) The body temperature change data (A) is displayed on the display device (33) and/or output to the outside through the output unit (34).