CN107951471A - Axillaty temperature measuring device and use its body temperature measurement method - Google Patents
Axillaty temperature measuring device and use its body temperature measurement method Download PDFInfo
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- CN107951471A CN107951471A CN201610896399.5A CN201610896399A CN107951471A CN 107951471 A CN107951471 A CN 107951471A CN 201610896399 A CN201610896399 A CN 201610896399A CN 107951471 A CN107951471 A CN 107951471A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/01—Measuring temperature of body parts ; Diagnostic temperature sensing, e.g. for malignant or inflamed tissue
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/68—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient
- A61B5/6801—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient specially adapted to be attached to or worn on the body surface
- A61B5/6813—Specially adapted to be attached to a specific body part
- A61B5/6823—Trunk, e.g., chest, back, abdomen, hip
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/68—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient
- A61B5/6801—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient specially adapted to be attached to or worn on the body surface
- A61B5/6813—Specially adapted to be attached to a specific body part
- A61B5/6824—Arm or wrist
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/72—Signal processing specially adapted for physiological signals or for diagnostic purposes
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/72—Signal processing specially adapted for physiological signals or for diagnostic purposes
- A61B5/7221—Determining signal validity, reliability or quality
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Abstract
The present invention discloses a kind of axillaty temperature measuring device and uses its body temperature measurement method.Axillaty temperature measuring device is used to measure the human body temperature between an arm and a trunk for a human body, it includes a carrier module, a temperature-measuring module, a control module and a fixed structure.Temperature-measuring module includes first temperature measurement unit being arranged on carrier module and a second temperature measuring unit for being arranged on carrier module and being correspondingly arranged each other with the first temperature measurement unit.Control module is arranged on carrier module and is electrically connected at the first temperature measurement unit and second temperature measuring unit.Carrier module is arranged on fixed structure, and by fixed structure to be arranged on the arm of human body or on trunk.Whereby, invention achieves the effect that improves the accuracy of measured temperature and can monitor for a long time.
Description
Technical field
The present invention relates to a kind of temperature measuring equipment and its body temperature measurement method is used, is used to survey more particularly to one kind
Measure the axillaty temperature measuring device of auxillary temperature and use its body temperature measurement method.
Background technology
First, existing measurement of bldy temperature product is numerous, most such as electronic thermometers or infrared ear temp gun, for list
Secondary real-time temperature measurement.However, for the clinical thermometer for armpit use of existing real-time temperature measurement at present, user must be by arm
After clamping a period of time, just auxillary temperature can be made to reach stable, to obtain correct temperature information.
Although to wear for a long time with user, and reached with developing a kind of wearable clinical thermometer for armpit use at present
To the effect of long-time monitoring.But with wearable clinical thermometer for armpit use at present for, be whether attached on trunk
Sticking type clinical thermometer, or all only set by a bandage using single the clinical thermometer that is fixed on user's human body
Put and carry out the measurement of axillaty temperature in the temperature inductor of oxter.
Whereby, foregoing wearable clinical thermometer for armpit use is in use, correct auxillary temperature information in order to obtain, user must
It must all keep arm clamping just to access for a long time and stablize correct axillaty temperature.But in actual use, the hand of user
Arm can be still active mostly so that the clamping degree between arm and trunk has changed, and then causes measured
Axillaty temperature fluctuate, and fluctuate amplitude by be subject to arm clamping degree variation and arm open chronothermometer with
The influence of prevailing circumstances temperature.If the fluctuating range that can not differentiate axillaty temperature is to open arm or reality from user
The change of body temperature value (have a fever or bring down a fever), it will so that the purpose of monitoring has no effect for a long time.
In conclusion how to provide a kind of axillaty temperature measuring device and its body that can monitor user's body temperature for a long time
Temperature measurement method, to overcome the defects of above-mentioned, already as this technology important topic to be solved.
The content of the invention
The technical problems to be solved by the invention are, provide a kind of axillaty temperature measurement dress in view of the deficiencies of the prior art
Put and the body temperature measurement method using it, it can utilize the first temperature measurement unit and second temperature measuring unit compensation temperature
Difference, and the accuracy of measured temperature is improved, and reach the effect of monitoring for a long time.
In order to solve above-mentioned technical problem, one of which technical solution of the present invention is to provide a kind of oxter body
Temperature measurement device, it is used to measure the human body temperature between an arm and a trunk for a human body, and the axillaty temperature is surveyed
Amount device includes a carrier module, a temperature-measuring module, a control module and a fixed structure.The temperature-measuring module
Be arranged on including first temperature measurement unit being arranged on the carrier module and one on the carrier module and with institute
State the second temperature measuring unit that the first temperature measurement unit is correspondingly arranged each other.The control module is arranged on described hold
Carry in module, wherein the control module is electrically connected at first temperature measurement unit and second temperature measurement is single
Member.The carrier module is arranged on the fixed structure, wherein the carrier module by the fixed structure to be arranged on
On the arm of the human body or on the trunk.
Further, the fixed structure is an adhesion colloid, and the carrier module is by the adhesion colloid to set
Put on the arm or on the trunk.
Further, the fixed structure is a band body, and the carrier module is described to be arranged on by the band body
On arm or on the trunk.
Further, first temperature measurement unit by the fixed structure with fix the contact arm or
The trunk.
Another technical solution of the present invention is to provide a kind of body temperature using axillaty temperature measuring device and surveys
Amount method, it is used to measure the human body temperature between an arm and a trunk for a human body, the body temperature measurement method bag
Include:A temperature-measuring module is provided, the temperature-measuring module is electrically connected at a control module, wherein the temperature survey mould
Block includes one first temperature measurement unit and a second temperature measuring unit;Institute is measured by first temperature measurement unit
The temperature information of trunk or the arm is stated, to obtain one first temperature measurement information;Measured by the second temperature single
One space between the arm and the trunk of member measurement, to obtain a second temperature metrical information;And the control
Molding block is surveyed according to first temperature measurement information and the second temperature metrical information with the corresponding axillaty temperature that obtains
Measure information.
Further, after the step of obtaining the axillaty temperature metrical information, still further comprise:Export the armpit
Lower measurement of bldy temperature information is to an electronic device.
Further, the control module according to a temperature computation formula to calculate the axillaty temperature metrical information,
The temperature computation formula meets following relationship:T=T1+K* (T1-T2), wherein T are the axillaty temperature metrical information, T1
For first temperature measurement information, T2 is the second temperature metrical information, and K is a penalty coefficient.
Further, in the step of obtaining the axillaty temperature metrical information, still further comprise:Calculate described first
Temperature measurement information and the difference of the second temperature metrical information between the two.
Further, in the step of obtaining the axillaty temperature metrical information, still further comprise:Judge the difference
Whether be more than a fiducial temperature threshold values, when the difference is greater than the fiducial temperature threshold values, control module record or
It is to send a prompt message.
Further, in the step of calculating the axillaty temperature metrical information, still further comprise:Judge the difference
It is to correspond respectively to multiple penalty coefficients positioned at which of multiple difference sections difference section, multiple difference sections,
Bring multiple penalty coefficients into correspondence respectively and calculate the axillaty temperature metrical information.
Yet another technique scheme of the present invention is to provide a kind of measurement of bldy temperature using axillaty temperature measuring device
Method a, there is provided temperature-measuring module, the temperature-measuring module are electrically connected at a control module, wherein the temperature survey
Module includes one first temperature measurement unit and a second temperature measuring unit;Measured by first temperature measurement unit
The temperature information of the trunk or the arm, to obtain one first temperature measurement information;Measured by the second temperature
Unit measures a space between the arm and the trunk, to obtain a second temperature metrical information;Described in calculating
First temperature measurement information and the difference of the second temperature metrical information between the two;And judge whether the difference is big
In a fiducial temperature threshold values, when the difference is greater than the fiducial temperature threshold values, the control module is recorded or sent
One prompt message.
The beneficial effects of the present invention are the axillaty temperature measuring device and its measurement of bldy temperature that the embodiment of the present invention is provided
Method, can utilize and " first temperature measurement unit being arranged on the carrier module and one be arranged on the carrying mould
The technical characteristic of the second temperature measuring unit being correspondingly arranged each other on block and with first temperature measurement unit ", with
Using the first temperature measurement unit and second temperature measuring unit compensation temperature difference, and the accuracy of measured temperature is improved,
And reach the effect of monitoring for a long time.
For the enabled feature and technology contents for being further understood that the present invention, refer to below in connection with the present invention specifically
Bright and attached drawing, but the attached drawing provided is only provided and used with reference to explanation, is not used for being any limitation as the present invention.
Brief description of the drawings
Fig. 1 is provided the module block schematic diagram of axillaty temperature measuring device by the embodiment of the present invention.
Fig. 2 is provided the schematic perspective view of axillaty temperature measuring device by the embodiment of the present invention.
Fig. 3 provides wherein the one of the axillaty temperature measuring device schematic diagram for wearing mode by the embodiment of the present invention.
Fig. 4 provides other the one of the axillaty temperature measuring device schematic diagram for wearing mode by the embodiment of the present invention.
Fig. 5 is provided the flow diagram of the body temperature measurement method of axillaty temperature measuring device by the embodiment of the present invention.
Fig. 6 is provided a wherein use state diagram for axillaty temperature measuring device by the embodiment of the present invention.
Fig. 7 is provided an other use state diagram for axillaty temperature measuring device by the embodiment of the present invention.
Fig. 8 is provided another use state diagram of axillaty temperature measuring device by the embodiment of the present invention.
Fig. 9 is provided the human body temperature change schematic diagram of axillaty temperature measuring device by the embodiment of the present invention.
Embodiment
It is to illustrate presently disclosed related " axillaty temperature measuring device and its body by specific instantiation below
The embodiment of temperature measurement method ", those skilled in the art can understand advantages of the present invention by content disclosed in this specification
With effect.The present invention can be implemented or applied by other different specific embodiments, the various details in this specification
Can be based on different viewpoints and application, in the lower various modifications of progress without departing from the spirit and change.In addition, the present invention's is attached
Figure is only simple schematically illustrate, not according to the description of actual size, is stated.Following embodiment will further specifically
Bright correlation technique content of the invention, but disclosure of that and the technical scope for being not used to the limitation present invention.
It is to be understood that although various elements or signal etc. may be described using term first, second, third, etc. herein,
But these elements or signal should not be limited by these terms.These terms are to distinguish an element and another element, Huo Zheyi
Signal and another signal.In addition, as used herein, term "or" lists project depending on what actual conditions may include being associated
In any one or multiple all combinations.
First embodiment
First, please refer to Fig.1 and Fig. 2 shown in, and in time coordinate Fig. 3 and Fig. 4 be, first embodiment of the invention offer
A kind of axillaty temperature measuring device Q, it is used to measure the human body on the inside of an arm H1 of a human body H between a trunk H2
Temperature, axillaty temperature measuring device Q include a carrier module 1, a temperature-measuring module 2, a control module 3 and a fixed knot
Structure 4.For example, the human body temperature measured by temperature-measuring module 2 (such as auxillary temperature), can pass through control module 3
Signal transfer functions and be transmitted on an electronic device P, and monitor body temperature of the user under long-time.
Then, as shown in Figures 1 and 2, for the embodiment of the present invention, temperature-measuring module 2 is arranged on carrying including one
The first temperature measurement unit 21 and one in module 1 be arranged on carrier module 1 and with the first temperature measurement unit 21 each other
Correspond the second temperature measuring unit 22 of setting.For example, the first temperature measurement unit 21 and second temperature measurement are single
Member 22 can be a compensation by thermistor (Thermistor Thermometer), and the right present invention is not limited.Preferably,
One temperature measurement unit 21 and second temperature measuring unit 22 are a sheet of temperature inductor, to be arranged on carrier module 1.
Continue above-mentioned, carrier module 1 has a first surface 11 (upper surface) and one relative to the of first surface 11
Two surfaces 12 (lower surface), it is preferable that for the embodiment of the present invention, both first surface 11 and second surface 12 is each other
Opposite outer surface, however, in other embodiments, first surface 11 and second surface 12 can also be disposed adjacent.Whereby,
First temperature measurement unit 21 may be disposed on the first surface 11 of carrier module 1, and second temperature measuring unit 22 may be disposed at
On the second surface 12 of carrier module 1.In other words, for the embodiment of the present invention, at least two are provided with carrier module 1
The temperature measurement unit (the first temperature measurement unit 21 and second temperature measuring unit 22) each independently measured.It is worth explanation
That carrier module 1 can be a substrate, for example, substrate can be a printed circuit board (PCB) (Printed Circuit Board,
PCB), the right present invention is not limited.
Continue above-mentioned, control module 3 may be provided on carrier module 1, and control module 3 can be electrically connected at temperature survey mould
Block 2, i.e. control module 3 can be electrically connected at the first temperature measurement unit 21 and second temperature measuring unit 22.In addition, lift
For example, control module 3 can be electrically connected at carrier module 1, and be electrically connected at temperature-measuring module by carrier module 1
2。
Continue above-mentioned, for the embodiment of the present invention, control module 3 can be a microcontroller (Microcontroller
Unit, MCU), the right present invention is not limited.In other embodiments, control module 3 can also be that special applications accumulate body electricity
Road (Application-specific integrated circuit, ASIC).In addition, it may also include in control module 3 at one
Manage unit 31, a signal transmission unit 32 and a storage unit 33.Processing unit 31 can be used for integrating the first temperature survey list
The first temperature measurement information T1 (the first temperature measurement units 21 that member 21 and second temperature measuring unit 22 measure respectively
Measured temperature value) and second temperature metrical information T2 (temperature value measured by second temperature measuring unit 22), to obtain
Axillaty temperature metrical information T.In addition, in order to monitor the human body temperature situation of user for a long time, storage unit 33 can be used to deposit
Store up the axillaty temperature metrical information T in different time points user.Furthermore signal transmission unit 32 can be used for immediately or intermittent
The axillaty temperature metrical information T by user with wired or wireless way for transmitting to an electronic device P.For example,
Electronic device P can be smart mobile phone or tablet computer etc., and signal transmission unit 32 can be cable or bluetooth (Blue Tooth) etc.
Transmission mode, the present invention are not limited with signal transmission form.Whereby, there can be a Port on axillaty temperature measuring device Q, with
Electronic device P outside connection, or axillaty temperature measuring device Q can be powered by Port.
In addition, it is noted that axillaty temperature measuring device Q may also include a power supply module 5, power supply mould
Block 5 can be electrically connected at control module 3 and temperature-measuring module 2, with to 2 supply of electrical energy of control module 3 and temperature-measuring module.
For example, though for suitable for can the portable axillaty temperature measuring device Q of body, power supply module 5 can be a battery, or
Other have the function of the power supply for storing electric energy.However, in other embodiments, power supply module 5 can also be a socket
Provided in power supply, whereby, axillaty temperature measuring device Q can be by a power cord (not shown) and supply of electrical energy.
Then, also referring to the carrier module 1 for shown in Fig. 3 and Fig. 4, being provided with temperature-measuring module 2 and control module 3
Can be arranged on fixed structure 4 so that carrier module 1 can by fixed structure 4 to be arranged on the arm H1 of human body H or
On trunk H2.For example, fixed structure 4 can have diversified forms, and for the embodiment of Fig. 3, fixed structure 4 can be one viscous
Colloid 41, adhesion colloid 41 can be adhesive tape, double faced adhesive tape or other there is effect of adhering, and carrier module 1 can be set
In the adhesion on the arm H1 of human body H or on trunk H2.Whereby, carrier module 1 can be arranged on by adhering colloid 41
On arm H1 or on trunk H2.In addition, for the embodiment of Fig. 4, fixed structure 4 can be a band body 42, and band body 42 can be
One bandage, whereby, carrier module 1 can be by will be surrounded on the trunk H2 or arm H1 of user with body 42, so that oxter
Body temperature measuring device Q can be arranged on arm H1 or on trunk H2, and carries out the measurement of human body temperature.
Then, referring back to shown in Fig. 3 and Fig. 4, specifically, as shown in figure 3, carrier module 1 can pass through fixed structure 4
To be arranged on the trunk H2 of human body H, so that the first temperature measurement unit 21 is close to the skin of trunk H2.At this time, when
When one temperature measurement unit 21 is contacted with trunk H2 by fixed structure 4 to fix, second temperature measuring unit 22 can pass through
The clamping of arm H1 and contacted with arm H1, or by the opening of arm H1 and be exposed on the inside of arm H1 with trunk H2 it
Between the space S (referring to shown in Fig. 7) that is formed.
In addition, as shown in figure 4, carrier module 1 can by fixed structure 4 to be arranged on the arm H1 of human body H so that
First temperature measurement unit 21 is close to the skin on the inside of arm H1.At this time, when the first temperature measurement unit 21 passes through fixed knot
Structure 4 and it is fixed second temperature measuring unit 22 can be contacted by the clamping of arm H1 with trunk H2 when being contacted with arm H1,
The space S formed on the inside of arm H1 between trunk H2 is either exposed to by the opening of arm H1.It is worth mentioning
It is, since the axillaty temperature measuring device Q of this case can be arranged on arm H1 or trunk H2 by fixed structure 4.Therefore,
User still can wear axillaty temperature measuring device Q provided by the present invention when putting on clothing.Whereby, second temperature is surveyed
Measured by amount unit 22 is to be covered by clothing and be located at the space S on the inside of arm H1 between trunk H2.It is worth mentioning
Be, in other implementations, can also directly by a sheet of colloid, with completely by the first temperature measurement unit 21 and
Second temperature measuring unit 22 is coated and fitted on arm H1 or trunk H2 completely.
Whereby, at least two temperature measurement units (the first temperature measurement unit 21 and second temperature measuring unit 22) is passed through
Setting, the temperature measurement information measured by two temperature measurement units (survey by the first temperature measurement information T1 and second temperature
Amount information T2) it can mutually compensate for, to obtain axillaty temperature metrical information.It should be noted that temperature-compensating mode will be in second
Illustrated in embodiment.
Second embodiment
First, refer to shown in Fig. 5, and shown in due course cooperation Fig. 1 and Fig. 2, second embodiment of the invention provides a kind of
The body temperature measurement method of axillaty temperature measuring device Q, it should be noted that, second embodiment of the invention is with the implementation shown in Fig. 3
Mode illustrates, i.e. carrier module 1 by fixed structure 4 to be arranged on the trunk H2 of human body H so that the first temperature
Measuring unit 21 is close to the skin of trunk H2, and second temperature measuring unit 22 can by the clamping of arm H1 and with arm
H1 is contacted, or is exposed to the space S formed between arm H1 and trunk H2 by the opening of arm H1.However,
In other embodiment, embodiment that can also be shown in Fig. 4 carries out temperature survey, and the present invention is not limited.
Specifically, referring back to shown in Fig. 5, the body temperature measurement method of axillaty temperature measuring device Q provided by the present invention,
It is used to measure the human body temperature between an arm H1 and a trunk H2 of a human body H, the implementation step of body temperature measurement method
It is rapid as described below.As shown in step S102:A temperature-measuring module 2 is provided, temperature-measuring module 2 is electrically connected at a control mould
Block 3, wherein temperature-measuring module 2 include one first temperature measurement unit 21 and a second temperature measuring unit 22.Come in detail
Say, for specific temperature-measuring module 2 such as the content described in first embodiment, temperature-measuring module 2 may include one first temperature
21 and one second temperature measuring unit 22 of measuring unit is spent, and the first temperature measurement unit 21 and second temperature measurement are single
Member 22 may be disposed on a carrier module 1, so that the first temperature measurement unit 21 is contacted with the trunk of human body H, second temperature
Measuring unit 22 can be contacted or separated with arm H1 by the movement of arm H1.It should be noted that axillaty temperature measuring device Q
Other structures and foregoing first embodiment are similar, hold repeating no more herein.
Then, as shown in step S104:The temperature of trunk H2 or arm H1 is measured by the first temperature measurement unit 21
Information, to obtain one first temperature measurement information T1.Specifically, due in second embodiment mainly with the embodiment of Fig. 3
Illustrate, therefore, the first temperature measurement unit 21 can measure the temperature of trunk H2.However, it should be noted that, in other implementations
In mode, set-up mode that axillaty temperature measuring device Q can also be as shown in Figure 4, to carry out human body temperature measurement.In other words
Say, by the embodiment shown in Fig. 4, the skin on the inside of 21 sustainable contact arm H1 of the first temperature measurement unit.
Then, as shown in step S106:By the measurement of second temperature measuring unit 22 one positioned at arm H1 inner sides and trunk
Space S between H2, to obtain a second temperature metrical information T2.Specifically, can not due to the use of the arm H1 inner sides of person
Be adjacent to trunk H2 for a long time, therefore, in some cases arm H1 can open and away from trunk H2 so that on the inside of arm H1 with
Formed with a space S between trunk H2, and second temperature measuring unit 22 is mainly used for measurement positioned at arm H1 inner sides and trunk
The second temperature metrical information T2 of space S between H2.
Then, it is please warm to first referring initially to the arm H1 amplitudes of fluctuation that shown in Fig. 6 to Fig. 8, will first illustrate user below
The first temperature measurement information T1 and second temperature metrical information measured by degree measuring unit 21 and second temperature measuring unit 22
Influence caused by T2.Specifically, Fig. 6, which illustrates direction on the inside of the arm H1 of user, is close to the direction of trunk H2, palpus
Illustrate, in order to which the first temperature measurement unit 21 and second temperature measuring unit 22 can be expressly shown, the hand shown in Fig. 6
Arm H1 is not close to trunk H2, and still, in actual use, the arm H1 of user can be close to trunk H2 to measure accurately
Temperature value.Whereby, occupation mode as shown in Figure 6, the first temperature measurement information measured by the first temperature measurement unit 21
T1 (temperature value) will be close to the second temperature metrical information T2 (temperature value) measured by second temperature measuring unit 22.
Continue above-mentioned, refer to shown in Fig. 7, when resource-user cost method, one will be produced between trunk H2 on the inside of arm H1
Space S, if the space S is to the first temperature survey measured by the first temperature measurement unit 21 and second temperature measuring unit 22
Information T1 and second temperature metrical information T2 influence degrees are unlikely to excessive, then remain able to by the first temperature measurement information T1
And the temperature-compensating mode of both second temperature metrical information T2, and obtain human body temperature.Stated differently, since human body temperature one
As can be more than the environment temperature of surrounding, therefore, when arm H1 opens slightly, the first temperature measurement information T1 and second temperature are surveyed
Temperature value acquired by amount information T2 will decline, if the first measured temperature measurement information T1 is surveyed with second temperature at present
The temperature gap of amount information T2 is not much different, then can be by temperature-compensating mode, and obtains human body temperature.It should be noted that
Since second temperature measuring unit 22 is provided on the inside of arm H1 the caused space S between trunk H2, the second temperature
The influence of external environment factor will be more than the first temperature measurement information T1 suffered by degree metrical information T2, therefore, it is however generally that,
When external temperature is lower than body temperature, the temperature value of second temperature metrical information T2 can be lower than what the first temperature measurement information T1 came.
Continue above-mentioned, refer to shown in Fig. 8, when user's arm H1 significantly opens, on the inside of arm H1 with trunk H2 it
Between caused space S ' will significantly influence the first temperature measurement unit 21 and measured by second temperature measuring unit 22
One temperature measurement information T1 and second temperature metrical information T2.Therefore, the temperature of the first measured temperature measurement information T1 and second
The temperature gap of degree metrical information T2 has big difference, then can not be by temperature-compensating mode, and obtains human body temperature.
Then, referring back to shown in Fig. 5, as shown in step S108:Control module 3 according to the first temperature measurement information T1 with
And second temperature metrical information T2, an axillaty temperature metrical information T is obtained with correspondence.Specifically, the first temperature measurement information
T1 and second temperature metrical information T2 can be transferred in control module 3 and carry out temperature-compensating, and obtain axillaty temperature measurement
Information T.For example, control module 3 can calculate axillaty temperature metrical information T, temperature computation according to a temperature computation formula
Formula may conform to following relationship:T=T1+K* (T1-T2), wherein T are axillaty temperature metrical information, and T1 is the first temperature survey
Information, T2 are second temperature metrical information, and K is a penalty coefficient.What deserves to be explained is temperature unit of the invention with it is Celsius into
Row explanation, but can also be calculated in other embodiments using other temperature units.
Continue above-mentioned, it is preferable that described in step S108 the step of obtaining axillaty temperature metrical information T in, may be used also
Further comprise:Calculate the first temperature measurement information T1 and the difference D of second temperature metrical information T2 between the two.Come in detail
Say, difference D can subtract second temperature metrical information T2 by the first temperature measurement information T1 and obtain.What deserves to be explained is different
In the case of, difference D may correspond to different penalty coefficient K (such as the first penalty coefficient K1 or second at different difference sections
Penalty coefficient K2 etc.).In other words, multiple difference sections can correspond respectively to multiple penalty coefficients, and multiple difference sections can
For continuum, there is each corresponding penalty coefficient in each section.Following elder generation is with two kinds of difference sections (such as the first difference area
Between and the second difference section) illustrate, however, it should be noted that, in other embodiments, more can also be set with
Difference section (such as the 3rd difference section or the 4th difference section etc.), with corresponding to different size of difference.
Continue above-mentioned, specifically, described in step S108 the step of obtaining axillaty temperature metrical information T in obtain
After the first temperature measurement information T1 and difference D of second temperature metrical information T2 between the two, it can further include:Judge
The difference D is to correspond respectively to multiple positioned at which of multiple difference sections difference section, multiple difference sections
Penalty coefficient, is brought into multiple penalty coefficients and is calculated the axillaty temperature metrical information with correspondence respectively.For example, it is more
It may include one first difference section and one second difference section, to may include one first in multiple penalty coefficient K in a difference section
Penalty coefficient K1 and one second penalty coefficient K2.Whereby, it is poor positioned at one first difference section or one second for can determine whether difference D
It is worth section.When difference D is to be located at the first difference section, the penalty coefficient K in temperature computation formula is with one first penalty coefficient
K1, which is brought into, to be calculated.In addition, when difference D is to be located at the second difference section, the penalty coefficient K in temperature computation formula is with one
Second penalty coefficient K2, which is brought into, to be calculated.
Continue above-mentioned, for example, when the first temperature measurement information T1 and second temperature metrical information T2 between the two
Difference D (that is, T1-T2=D) is between one first difference section (i.e. 0≤D<0.3 DEG C) when, it can be brought into the first penalty coefficient K1
In temperature computation formula.When the first temperature measurement information T1 and the difference D of second temperature metrical information T2 between the two are between one
Second difference section (i.e. 0.3≤D<0.6 DEG C) when, it can be brought into the second penalty coefficient K2 in temperature computation formula.When first
Temperature measurement information T1 and the difference D of second temperature metrical information T2 between the two between one the 3rd difference section R3 (i.e. 0.6≤
D<0.9 DEG C) when, it can be brought into the 3rd penalty coefficient K3 in temperature computation formula.What deserves to be explained is in other embodiment
In, penalty coefficient K can also be an oblique line equation or fitting equation, and penalty coefficient K can with different difference D and
Change.
Continue above-mentioned, also referring to shown in Fig. 5 and Fig. 8, axillaty temperature measurement letter is obtained described in step S108
, can be with after the first temperature measurement information T1 and the difference D of second temperature metrical information T2 between the two are obtained in the step of ceasing T
Further comprise:Judge whether difference D is more than a fiducial temperature threshold values, when difference D is greater than fiducial temperature threshold values, control mould
Block 3 can record, store or send a prompt message.Specifically, when arm significantly opens, since the first temperature survey is believed
Ceasing the difference D of T1 and second temperature metrical information T2 between the two may be excessive, therefore, when difference D is greater than fiducial temperature valve
A prompt message can be sent during value to electronic device P, to remind supervisor, and suggests that these readings be not included in by supervisor
With reference to.That is, control module 3 can first store the difference D measured by this time, while when can also record this section
Between the axillaty temperature metrical information T that is calculated be not have availability.
Then, referring back to shown in Fig. 5, as shown in step S110:Store axillaty temperature metrical information T.For example, it is
The body temperature of user is monitored for a long time, therefore, it is necessary to wear axillaty temperature measuring device Q for a long time, whereby, whenever
During to an axillaty temperature metrical information T, obtained axillaty temperature metrical information T can be first stored in the storage of control module 3
In unit 33.It is noted that a prompt message can be not only sent when difference D is greater than fiducial temperature threshold values to electronics
Device P, while can not also store calculated axillaty temperature metrical information T, so whether the present invention is not store as difference D
The axillaty temperature metrical information T being greater than under the situation of fiducial temperature threshold values is limitation.
Then, as shown in step S112:Export axillaty temperature metrical information T to an electronic device P.Specifically, second
The electronic device P-structure that electronic device P and the aforementioned first embodiment of embodiment are provided is similar, whereby, if by oxter body
, can be by the signal transmission unit 32 in control module 3 with wired or wireless when temperature measurement device Q is worn with infant
Mode multiple axillaty temperature metrical information T are transferred in the mobile phone of its parent or supervisor, to understand infant when long
Between situation under its body temperature intensity of variation.
Come again, refer to shown in Fig. 9, Fig. 9 show for a long time (such as shown in Fig. 9 4.5 it is small when) under state, make
The temperature change of user, by figure it will be seen that, when 1.8 hours small to 2 between the body temperature of user declined, this is of short duration
The body temperature of change, representing the arm H1 of user may open slightly, and cause temperature to decline.Whereby, above-mentioned oxter can be passed through
The body temperature measurement method of body temperature measuring device Q and the temperature value is compensated, to produce a compensation temperature value M.
3rd embodiment
First, please refer to Fig.1 shown in Fig. 4 and Fig. 5, third embodiment of the invention provides a kind of axillaty temperature measuring device Q
Body temperature measurement method, third embodiment of the invention is illustrated with the embodiment shown in Fig. 4, i.e. carrier module 1 passes through
Fixed structure 4 is to be arranged on the arm H1 of human body H, so that the first temperature measurement unit 21 is close to arm H1, and second
Temperature measurement unit 22 can be contacted by the clamping of arm H1 with trunk H2, or by the opening of arm H1 and exposed
The space S formed between arm H1 and trunk H2.It should be noted that since temperature-measuring module 2 is by fixed structure 4
And be arranged on arm H1, therefore, penalty coefficient K number will be affected, below only for penalty coefficient K it is different into
Row explanation.
Then, specifically, control module 3 can be according to a temperature computation formula to calculate axillaty temperature metrical information T, temperature
Degree calculation formula may conform to following relationship:T '=T1 '+K ' * (T1 '-T2 '), wherein T ' is axillaty temperature metrical information, T1 '
For the first temperature measurement information, T2 ' is second temperature metrical information, and K ' is a penalty coefficient.
First temperature measurement information T1 ' and the difference D of second temperature metrical information T2 ' between the two can be by (T1 '-T2 ')
And obtain.When difference D is to be located at the first difference section, the penalty coefficient K in temperature computation formula is with one first penalty coefficient K1 '
Bring into and calculated.In addition, when difference D is to be located at the second difference section, the penalty coefficient K ' in temperature computation formula is with one
Second penalty coefficient K2, which is brought into, to be calculated.
In addition, it should be noted that, a kind of body temperature for axillaty temperature measuring device Q that third embodiment of the invention is provided is surveyed
Amount method concrete structure and step and previous embodiment are similar, hold repeating no more herein.
The beneficial effect of embodiment
In conclusion the beneficial effects of the present invention are a kind of axillaty temperature measurement dress that the embodiment of the present invention is provided
Q and its body temperature measurement method are put, can utilize that " first temperature measurement unit 21 and one being arranged on carrier module 1 is set
The second temperature measuring unit 22 " put on carrier module 1 and be correspondingly arranged each other with the first temperature measurement unit 21
Technical characteristic, and using the first temperature measurement unit and second temperature measuring unit compensation temperature difference, and improve temperature survey
The accuracy of value, and reach the effect of monitoring for a long time.
In addition, after by the calculating of temperature computation formula and the judgement of difference D, can be surveyed with the first current temperature of interpretation
Whether amount information T1 and second temperature metrical information T2 is suited to compensate for, and the penalty coefficient K as obtained by after actual experiment is brought into
In temperature computation formula, and the first temperature measurement information T1 and second temperature measurement letter on being subject to other external factors to be influenced
Breath T2 is compensated, to obtain axillaty temperature metrical information T.
The foregoing is merely the preferred possible embodiments of the present invention, not thereby limit to the scope of the claims of the invention, so
The equivalence techniques all done with description of the invention and accompanying drawing content changes, and is both contained in protection scope of the present invention.
Claims (11)
1. a kind of axillaty temperature measuring device, for measuring the human body temperature between an arm and a trunk for a human body,
It is characterized in that, the axillaty temperature measuring device includes:
One carrier module;
One temperature-measuring module, the temperature-measuring module include a first temperature survey list being arranged on the carrier module
Member and second temperature for being arranged on the carrier module and being correspondingly arranged each other with first temperature measurement unit
Spend measuring unit;
One control module, the control module are arranged on the carrier module, wherein the control module is electrically connected at institute
State the first temperature measurement unit and the second temperature measuring unit;And
One fixed structure, the carrier module are arranged on the fixed structure, wherein the carrier module passes through the fixation
Structure is to be arranged on the arm of the human body or on the trunk.
2. axillaty temperature measuring device according to claim 1, it is characterised in that the fixed structure is an adhesion glue
Body, the carrier module is by the adhesion colloid to be arranged on the arm or on the trunk.
3. axillaty temperature measuring device according to claim 1, it is characterised in that the fixed structure is for one with body, institute
Carrier module is stated by the band body to be arranged on the arm or on the trunk.
4. axillaty temperature measuring device according to claim 1, it is characterised in that first temperature measurement unit passes through
The fixed structure contacts the arm or the trunk with fixed.
A kind of 5. body temperature measurement method using axillaty temperature measuring device, for measuring an arm and a trunk in a human body
Between a human body temperature, it is characterised in that the body temperature measurement method includes:
A temperature-measuring module is provided, the temperature-measuring module is electrically connected at a control module, wherein the temperature survey
Module includes one first temperature measurement unit and a second temperature measuring unit;
The temperature information of the trunk or the arm is measured by first temperature measurement unit, to obtain one first temperature
Spend metrical information;
One space between the arm and the trunk is measured by the second temperature measuring unit, to obtain one the
Two temperature measurement informations;And
The control module obtains one according to first temperature measurement information and the second temperature metrical information with correspondence
Axillaty temperature metrical information.
6. the body temperature measurement method according to claim 5 using axillaty temperature measuring device, it is characterised in that obtaining
After the step of axillaty temperature metrical information, the body temperature measurement method still further comprises:The axillaty temperature is exported to survey
Information is measured to an electronic device.
7. the body temperature measurement method according to claim 5 using axillaty temperature measuring device, it is characterised in that the control
For molding block according to a temperature computation formula to calculate the axillaty temperature metrical information, the temperature computation formula meets following pass
It is formula:T=T1+K* (T1-T2), wherein T are the axillaty temperature metrical information, and T1 is first temperature measurement information, T2
For the second temperature metrical information, K is a penalty coefficient.
8. the body temperature measurement method according to claim 7 using axillaty temperature measuring device, it is characterised in that obtain institute
Still further comprised in the step of stating axillaty temperature metrical information:Calculate first temperature measurement information and the second temperature
The difference of metrical information between the two.
9. the body temperature measurement method according to claim 8 using axillaty temperature measuring device, it is characterised in that obtain institute
Still further comprised in the step of stating axillaty temperature metrical information:Judge whether the difference is more than a fiducial temperature threshold values, when
When the difference is greater than the fiducial temperature threshold values, the control module records or sends a prompt message.
10. the body temperature measurement method according to claim 8 using axillaty temperature measuring device, it is characterised in that calculate
Still further comprised in the step of axillaty temperature metrical information:Which in multiple difference sections judges the difference is
One difference section, multiple difference sections correspond respectively to multiple penalty coefficients, and multiple benefits are brought into correspondence respectively
Repay coefficient and calculate the axillaty temperature metrical information.
A kind of 11. body temperature measurement method using axillaty temperature measuring device, for measuring an arm and a body in a human body
A human body temperature between dry, it is characterised in that the body temperature measurement method includes:
A temperature-measuring module is provided, the temperature-measuring module is electrically connected at a control module, wherein the temperature survey
Module includes one first temperature measurement unit and a second temperature measuring unit;
The temperature information of the trunk or the arm is measured by first temperature measurement unit, to obtain one first temperature
Spend metrical information;
One space between the arm and the trunk is measured by the second temperature measuring unit, to obtain one the
Two temperature measurement informations;
Calculate first temperature measurement information and the difference of the second temperature metrical information between the two;And
Judge whether the difference is more than a fiducial temperature threshold values, when the difference is greater than the fiducial temperature threshold values, institute
State control module record or send a prompt message.
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CN109282917A (en) * | 2018-11-01 | 2019-01-29 | 杭州质子科技有限公司 | A method of reducing human arm postural change influences oxter thermometric |
CN110115565A (en) * | 2019-05-10 | 2019-08-13 | 广东睿超电子科技有限公司 | A kind of intelligent temperature sensor and its monitoring method for wearable body temp monitoring |
CN111060218A (en) * | 2019-12-20 | 2020-04-24 | 浙江智柔科技有限公司 | Body temperature measuring device and measuring method |
CN111387939A (en) * | 2020-03-06 | 2020-07-10 | 芯海科技(深圳)股份有限公司 | Measuring method and device of heart discharge capacity, computer equipment and storage medium |
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Application publication date: 20180424 |