CN110664440A - Female ovulation detection method and thermodetector - Google Patents

Abstract

The invention discloses a female ovulation detection method and a temperature measuring instrument, and relates to the technical field of female ovulation detection. The thermometer is technically characterized by comprising an input module, a temperature measuring module and a control module, wherein the input module is used for inputting a corpus luteum period body temperature value and a follicle period body temperature value; the identity recognition module is used for acquiring unique identity information; the body temperature detection module is used for acquiring the detected body temperature; the data output module is used for outputting a measuring result; the controller generates a user identification number based on the unique identity information and binds a luteal phase body temperature value and a follicle phase body temperature value; generating a luteal phase body temperature threshold value and a follicular phase body temperature threshold value based on the recorded luteal phase body temperature value and follicular phase body temperature value; when the identity information of the user identification number is identified, based on comparison of the detected body temperature and the luteal phase body temperature threshold value and the follicle phase body temperature threshold value recorded in the user identification number, the measuring result is output through the data output module.

Description

Female ovulation detection method and thermodetector

Technical Field

The invention relates to the technical field of female ovulation detection, in particular to a female ovulation detection method and a temperature measuring instrument.

Background

Generally, women in healthy birth have periodic ovarian ovulation, women with menstrual disorder often have irregular ovulation cycles, but in any case, the knowledge of the ovulation time is very meaningful for guiding conception, and at present, most women often use single ovulation test paper, so that the ovulation time is difficult to accurately grasp by random detection.

Since the body temperature of women varies periodically, this change is associated with ovulation. In the menstrual cycle, the basal body temperature before the ovulation day is often low, and after ovulation, the basal body temperature is affected by progesterone and the temperature is increased. After the luteal phase, the corpus luteum is atrophied, progesterone secretion is stopped, progesterone is reduced, the thermoregulatory center is not affected any more, and the body temperature is recovered to the low-temperature phase. There are therefore also available on the market detection devices for determining the ovulation phase on the basis of basal body temperature. However, these detection devices cannot output different detection results according to differences when detecting a plurality of persons.

Disclosure of Invention

In view of the above-mentioned problems, a first object of the present invention is to provide a method for detecting ovulation in a female, which is suitable for a plurality of users and can output the results of ovulation detection corresponding to different users.

In order to achieve the purpose, the invention provides the following technical scheme: a method of detecting ovulation in a female, comprising:

acquiring the entered corpus luteum phase body temperature value, follicle phase body temperature value and unique identity information;

generating a user identification number based on the unique identity information, and binding the luteal phase body temperature value and the follicle phase body temperature value to the user identification number;

generating a luteal phase body temperature threshold value and a follicular phase body temperature threshold value based on the recorded luteal phase body temperature value and follicular phase body temperature value;

and when the detection body temperature and the identity information with the user identification number are obtained within the preset time, outputting a measurement result based on comparing the luteal phase body temperature threshold value and the follicle phase body temperature threshold value recorded in the detection body temperature and the user identification number.

By adopting the technical scheme, the corresponding user identification number is identified by inputting the unique identity information, and the luteal phase body temperature threshold value and the follicle phase body temperature threshold value of the corresponding user are obtained according to the corresponding user identification number; therefore, one user corresponds to one database, and data among different users cannot be interfered; at the same time, the temperature which is not to be recorded can also be measured without identification. Therefore, a single temperature detection device can be used by a plurality of users, and corresponding ovulation detection results are output corresponding to different users.

The invention is further configured to: the unique identity information is fingerprint information.

By adopting the technical scheme, the fingerprint information identification is quick, the information is unique, and the effect of identifying different users can be quickly achieved.

The invention is further configured to: detecting body temperature including a follicular phase at a temperature including hypothermia, a luteal phase at a temperature including hypothermia, and a period of variable temperature between the follicular phase and the luteal phase; when the detected body temperature is not lower than a luteal phase body temperature threshold Tx, outputting a measuring result of a luteal phase, when the detected body temperature is not higher than a follicular phase body temperature threshold Ty, outputting a measuring result of a follicular phase, and when the temperature is between the luteal phase body temperature threshold Tx and the follicular phase body temperature threshold Ty, outputting a measuring result of a variable temperature phase;

the luteal phase body temperature threshold Tx = luteal phase body temperature value Ta-body temperature difference △ T20%, the follicular phase body temperature threshold Ty = follicle phase body temperature value Tb + body temperature difference △ T20%, wherein the body temperature difference △ T = luteal phase body temperature value Ta-follicle phase body temperature value Tb.

By adopting the technical scheme, the luteal phase body temperature threshold Tx and the follicular phase body temperature threshold Ty are generated according to the luteal phase body temperature value Ta, the follicular phase body temperature value Tb and the body temperature difference value △ T, and the input data is less, so that a user can obtain the luteal phase body temperature threshold Tx and the follicular phase body temperature threshold Ty which are suitable for the user according to the luteal phase body temperature value Ta and the follicular phase body temperature value Tb of the user.

The invention is further configured to: recording the detection result and the detected body temperature into a temperature database;

the luteal phase body temperature value Ta is obtained on the basis of the average value of the calculated temperature database in the specified period, wherein the average value is greater than the luteal phase body temperature threshold Tx;

the body temperature value Tb in the follicular phase is obtained based on the mean value of the body temperature threshold Ty in the calculated temperature database in the specified period, which is smaller than the body temperature threshold Ty in the follicular phase.

By adopting the technical scheme, after a large amount of body temperature is obtained, the luteal phase body temperature value Ta and the follicular phase body temperature value Tb are utilized, so that the luteal phase body temperature value Ta and the follicular phase body temperature value Tb can change towards the direction more fitting with the self condition of the user, and the luteal phase body temperature threshold Tx and the follicular phase body temperature threshold Ty which are more suitable for the user are further generated in a trend manner.

The invention is further configured to: the specified period is between 26 and 32 days.

By adopting the technical scheme, the ovulation cycle of a common female is between 28 and 30 days, and the obtained luteal phase body temperature threshold Tx and follicular phase body temperature threshold Ty can be more in line with the body temperature change of the female by setting the designated cycle corresponding to the ovulation cycle of the female.

The invention is further configured to: recording the detection time corresponding to the detection body temperature into a temperature database;

the luteal phase body temperature value Ta is a weighted mean value based on a time period of detection time;

and the body temperature value Tb in the follicular phase is a weighted mean value based on a time period of the detection time.

Through adopting above-mentioned technical scheme, because the human body is at different time quantums, the body temperature that detects can change a little, through adding the weighted mean based on the time quantums, under the uncertain condition of user detection self body temperature time, can acquire comparatively accurate corpus luteum phase body temperature value.

The invention is further configured to: the weighted value of the detection time in each time period is set as follows: the weighted value of the time interval between 6 hours and 9 hours is 1, the weighted value of the time interval between 22 hours and 24 hours is 0.9, the weighted values of the time interval between 9 hours and 12 hours, the weighted values of the time interval between 20 hours and 22 hours and the weighted values of the time interval between 0 hours and 6 hours are 0.5, the weighted average values of the time interval between 12 hours and 14 hours and the weighted average value of the time interval between 18 hours and 20 hours are 0.1, and the weighted value of the time interval between 14 hours and 18 hours is 0.

By adopting the technical scheme, the generally optimal detection time interval is from 6 hours to 9 hours when the user just gets up, then the body temperature of the human body slightly rises and then slightly falls; while there is a large deviation between 14 to 18 in the process and the time of the initial start-up, setting the weight value to 0 avoids large errors.

The invention is further configured to: acquiring the date when the body temperature is detected;

taking the date of temperature rise from the temperature change period to the luteal phase as the first day of the luteal phase based on the obtained detected body temperature; and when judging whether the date of detecting the body temperature is between the first day of the luteal phase and the third day of the luteal phase, outputting a pregnancy optimizing indication signal if the date is.

By adopting the technical scheme, mature ova are discharged from the ovaries of women with normal reproductive age every month, the ova enter the oviduct after being discharged, the ova can generally survive for 1 to 2 days, and sperms generated by men are continuous. Sperm generally remain viable in the female reproductive tract for 2-3 days, with a pregnancy potential of between 48 hours. If a woman has sexual life in a certain time before and after ovulation, pregnancy is possible. Therefore, the instructions are given at this time, and the effect of sound birth and sound care can be achieved.

A second object of the present invention is to provide a temperature measuring device, which can be used by a plurality of users and can output the corresponding ovulation detection results for different users.

In order to achieve the purpose, the invention provides the following technical scheme: a temperature gauge, comprising:

the input module is used for inputting a luteal phase body temperature value and a follicle phase body temperature value;

the identity recognition module is used for acquiring unique identity information;

the body temperature detection module is used for acquiring the detected body temperature;

the data output module is used for outputting a measuring result;

the controller generates a user identification number based on the unique identity information, and binds the luteal phase body temperature value and the follicular phase body temperature value to the user identification number; generating a luteal phase body temperature threshold value and a follicular phase body temperature threshold value based on the recorded luteal phase body temperature value and follicular phase body temperature value; and when the identity information of the user identification number is identified, outputting a measurement result through a data output module based on comparing the detected body temperature with the luteal phase body temperature threshold and the follicle phase body temperature threshold recorded in the user identification number.

Compared with the prior art, the invention has the beneficial effects that:

(1) based on the change of the temperature of the user, ovulation is indicated, and the effect of bearing good prenatal and postnatal care is achieved;

(2) the corresponding user identification number is identified by inputting the unique identity information, so that a single temperature detection device can be used by a plurality of users, and corresponding ovulation detection results are output corresponding to different users;

(3) through adopting the mean value algorithm, obtain luteal phase body temperature value Ta and follicle phase body temperature value Tb, can make luteal phase body temperature value Ta and follicle phase body temperature value Tb can be towards the direction change of laminating user's self condition more.

Drawings

FIG. 1 is a block diagram of a thermometer;

FIG. 2 is a schematic structural view of a thermometer;

figure 3 is a schematic flow diagram of a female ovulation detection method.

Reference numerals: 1. a temperature measuring main body; 2. a recording module; 21. a touch screen; 22. pressing a key; 3. an identity recognition module; 31. a fingerprint identification module; 4. a body temperature detection module; 41. a body temperature sensing head; 5. a data output module; 51. a display screen; 6. a controller; 7. a memory.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

In an embodiment, as shown in fig. 1 and 2, the thermometer includes a temperature measuring main body 1, an entry module 2 for entering a luteal phase body temperature value and a follicle phase body temperature value, an identity recognition module 3 for obtaining unique identity information, a body temperature detection module 4 for obtaining a detected body temperature, a data output module 5 for outputting a measurement result, and a controller 6 for acquiring data and calculating and outputting the data.

Specifically, as shown in fig. 1 and fig. 2, in the present embodiment, the temperature measuring main body 1 is substantially in a long strip shape, the body temperature detecting module 4 is a body temperature sensing head 41 disposed at one end of the temperature measuring main body 1, and the body temperature sensing head 41 can be placed in an armpit or an oral cavity of a user to obtain a body temperature signal of the user and output the body temperature signal as a detected body temperature to the controller 6. The data output module 5 is a display screen 51 which is arranged on one side of the temperature measurement main body 1, which is far away from the body temperature sensing head 41, and is used for outputting an interaction signal, and the display screen 51 acquires a signal output by the controller 6 and can output a body temperature detection result, an ovulation determination result and pregnancy and instruction information. Furthermore, the body temperature, the ovulation result and the pregnancy indicating information can be output by voice through a loudspeaker arranged on the temperature measuring main body 1.

As shown in fig. 1 and fig. 2, the entry module 2 employs a touch screen 21 installed on the display screen 51 for acquiring a touch signal and a key 22 arranged near the display screen 51, the touch screen 21 receives the touch signal of a user, and the key 22 receives a pressing signal of the user, so that the user can enter a luteal phase body temperature value and a follicular phase body temperature value through the key 22 of the touch screen 21; the identity recognition module 3 adopts a fingerprint recognition module 31 for acquiring fingerprint data of a user as unique identity information to the processor, and further, the fingerprint recognition module 31 is arranged on the key 22, and when the user presses the key 22, the fingerprint information of the user can be simultaneously acquired to the processor.

As shown in fig. 1 and 2, the controller 6 is connected with the touch screen 21, the keys 22, the temperature sensing head, the fingerprint identification module 31 and the display screen 51; so that the controller 6 can receive input signals of the touch screen 21, the keys 22, the temperature sensing head and the fingerprint recognition module 31 and output control signals to the display screen 51. The controller 6 is internally provided with a memory 7 for storing the body temperature detection data.

As shown in fig. 1 and fig. 2, the controller 6 first generates a user identification number based on the unique identity information, and binds the luteal phase body temperature value and the follicular phase body temperature value to the user identification number; generating a luteal phase body temperature threshold value and a follicular phase body temperature threshold value based on the recorded luteal phase body temperature value and follicular phase body temperature value; and when the identity information of the user identification number is identified, outputting a measurement result to the thermodetector based on comparing the detected body temperature with the luteal phase body temperature threshold and the follicular phase body temperature threshold recorded in the user identification number.

Specifically, a female ovulation detection method, as shown in fig. 3, includes:

s1, acquiring the recorded corpus luteum phase body temperature value, follicle phase body temperature value and unique identity information;

wherein the luteal phase body temperature value and the follicular phase body temperature value are input through a touch screen 21 and a key 22; the unique identity information is fingerprint information and is input through the fingerprint identification module 31.

S2, generating a user identification number based on the unique identity information, and binding the luteal phase body temperature value and the follicle phase body temperature value to the user identification number;

the controller 6 stores the table corresponding to the unique identity information and the user identification number, and meanwhile, a storage address is reserved in the controller 6 and used for storing the luteal phase body temperature value and the follicle phase body temperature value corresponding to the user identification number. The binding of the luteal phase body temperature value and the follicle phase body temperature value to the user identification number is realized.

S3, generating a luteal phase body temperature threshold value and a follicular phase body temperature threshold value based on the recorded luteal phase body temperature value and follicular phase body temperature value;

the female ovulation cycle is generally between 28 and 30 days, and the female body temperature changes periodically, and the temperature changes are related to ovulation. The detection of body temperature in the ovulation cycle of a female includes a follicular phase at temperatures including hypothermia, a luteal phase at elevated temperatures, and a period of alternating temperature between the follicular phase and the luteal phase. During the ovulation cycle, the follicular phase, the temperature swing phase and the luteal phase are established.

The temperature thresholds for luteal phase body temperature threshold Tx and follicular phase body temperature threshold Ty are as follows:

luteal phase body temperature threshold Tx = luteal phase body temperature value Ta-body temperature difference △ T × 20%;

the body temperature threshold Ty at follicular phase = body temperature value Tb + body temperature difference △ T × 20% at follicular phase;

wherein the difference body temperature value of △ T = body temperature value Ta in luteal phase-body temperature value Tb in follicular phase.

And S4, when the detection temperature and the identity information with the user identification number are acquired within the preset time, the measurement result is output based on the comparison of the luteal phase body temperature threshold value and the follicle phase body temperature threshold value recorded in the detection temperature and the user identification number.

The body temperature sensing head 41 can be placed in the armpit or the oral cavity of the user to acquire a body temperature signal of the user as a detected body temperature; fingerprint information is acquired by the fingerprint recognition module 31. The user can firstly obtain the detected body temperature through the body temperature sensing head 41 and then obtain the identity information within the preset time; or the identity information can be acquired through the fingerprint identification module 31, and then the body temperature can be acquired through the body temperature induction head 41 within the preset time. Wherein the preset time is generally set between 1 and 15 seconds.

Of course, if the identity information with the user identification number is not obtained within the preset time, the controller 6 still outputs a signal to enable the display screen 51 to output the body temperature measured by the body temperature sensing head 41.

The controller 6 outputs the measurement result in the luteal phase to the display 51 when the detected body temperature is not lower than the luteal phase body temperature threshold Tx, outputs the measurement result in the follicular phase to the display 51 when the detected body temperature is not higher than the follicular phase body temperature threshold Ty, and outputs the measurement result in the ramp phase to the display 51 when the temperature is between the luteal phase body temperature threshold Tx and the follicular phase body temperature threshold Ty.

Further, after the controller 6 calculates the measurement result, the controller 6 records the acquired detected body temperature, the measurement result, the date and the time period to the position corresponding to the user identification number in the memory 7.

Mature ova are discharged from the ovaries of women with normal reproductive age every month, the ova enter the oviduct after being discharged, the ova can generally survive for 1 to 2 days, and sperms produced by men are continuous. Sperm generally remain viable in the female reproductive tract for 2-3 days, with a pregnancy potential of between 48 hours. If a woman has sexual life in a certain time before and after ovulation, pregnancy is possible. When the detected body temperature obtained by the controller 6 on the previous day is in the temperature rise period and the detected body temperature obtained on the next day is in the corpus luteum, the fact that the ovum is mature and is discharged can be explained. In this case.

Further, when the acquired date that the detected body temperature rises from the temperature-changing period to the luteal phase is taken as the first day of the luteal phase; and judging whether the date of detecting the body temperature is between the first day of the luteal phase and the third day of the luteal phase, and if so, outputting a pregnancy optimizing indication signal.

And S5, updating the luteal-phase body temperature value Ta and the follicular-phase body temperature value Tb after the designated period.

Obtaining the luteal phase body temperature value Ta based on the average value of the calculated temperature database in the specified period, wherein the average value is greater than the luteal phase body temperature threshold Tx; the body temperature value Tb in the follicular phase is obtained based on the calculated temperature database with the mean value smaller than the body temperature threshold value Ty in the follicular phase in the designated period. The luteal phase body temperature value Ta is a weighted mean value based on the time period of the detection time; the body temperature value Tb in the follicular phase is a weighted average value based on the time period of the detection time. Specifically, the specified period is set to be between 26 and 35 days.

In this embodiment, the weighted values P of the detection time in each time period are distributed as follows: the weighted value of the time interval between 6 hours and 9 hours is 1, the weighted value of the time interval between 22 hours and 24 hours is 0.9, the weighted values of the time interval between 9 hours and 12 hours, the weighted values of the time interval between 20 hours and 22 hours and the weighted values of the time interval between 0 hours and 6 hours are 0.5, the weighted average values of the time interval between 12 hours and 14 hours and the weighted average value of the time interval between 18 hours and 20 hours are 0.1, and the weighted value of the time interval between 14 hours and 18 hours is 0.

Therefore, the luteal phase body temperature Ta and the follicular phase body temperature Tb are updated as follows:

a luteal phase body temperature value Ta = (the luteal phase body temperature value Ta 1P 1+ the luteal phase body temperature value Ta 2P 2. luteal phase body temperature value Tan. Pn)/(P1 + P2. cndot. + Pn);

the body temperature value at follicular phase Tb = (body temperature value at follicular phase Tb1 × P1+ body temperature value at follicular phase Tb2 × P2 · · body temperature value at follicular phase Tbn × Pn)/(P1 + P2 · + Pn).

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (9)

1. A method for detecting ovulation in a female, comprising: the method comprises the following steps:

acquiring the entered corpus luteum phase body temperature value, follicle phase body temperature value and unique identity information;

generating a user identification number based on the unique identity information, and binding the luteal phase body temperature value and the follicle phase body temperature value to the user identification number;

generating a luteal phase body temperature threshold value and a follicular phase body temperature threshold value based on the recorded luteal phase body temperature value and follicular phase body temperature value;

and when the detection body temperature and the identity information with the user identification number are obtained within the preset time, outputting a measurement result based on comparing the luteal phase body temperature threshold value and the follicle phase body temperature threshold value recorded in the detection body temperature and the user identification number.

2. The method of claim 1, wherein the ovulation test is performed by: the unique identity information is fingerprint information.

3. The method of claim 2, wherein the ovulation test is performed by: detecting body temperature including a follicular phase at a temperature including hypothermia, a luteal phase at a temperature including hypothermia, and a period of variable temperature between the follicular phase and the luteal phase; when the detected body temperature is not lower than a luteal phase body temperature threshold Tx, outputting a measuring result of a luteal phase, when the detected body temperature is not higher than a follicular phase body temperature threshold Ty, outputting a measuring result of a follicular phase, and when the temperature is between the luteal phase body temperature threshold Tx and the follicular phase body temperature threshold Ty, outputting a measuring result of a variable temperature phase;

the luteal phase body temperature threshold Tx = luteal phase body temperature value Ta-body temperature difference △ T20%, the follicular phase body temperature threshold Ty = follicle phase body temperature value Tb + body temperature difference △ T20%, wherein the body temperature difference △ T = luteal phase body temperature value Ta-follicle phase body temperature value Tb.

4. The method of claim 3, wherein: recording the detection result and the detected body temperature into a temperature database;

the luteal phase body temperature value Ta is obtained on the basis of the average value of the calculated temperature database in the specified period, wherein the average value is greater than the luteal phase body temperature threshold Tx;

the body temperature value Tb in the follicular phase is obtained based on the mean value of the body temperature threshold Ty in the calculated temperature database in the specified period, which is smaller than the body temperature threshold Ty in the follicular phase.

5. The method of claim 4, wherein: the specified period is between 26 and 32 days.

6. The method of claim 4, wherein: recording the detection time corresponding to the detection body temperature into a temperature database;

the luteal phase body temperature value Ta is a weighted mean value based on a time period of detection time;

and the body temperature value Tb in the follicular phase is a weighted mean value based on a time period of the detection time.

7. The method of claim 6, wherein: the weighted value of the detection time in each time period is set as follows: the weighted value of the time interval between 6 hours and 9 hours is 1, the weighted value of the time interval between 22 hours and 24 hours is 0.9, the weighted values of the time interval between 9 hours and 12 hours, the weighted values of the time interval between 20 hours and 22 hours and the weighted values of the time interval between 0 hours and 6 hours are 0.5, the weighted average values of the time interval between 12 hours and 14 hours and the weighted average value of the time interval between 18 hours and 20 hours are 0.1, and the weighted value of the time interval between 14 hours and 18 hours is 0.

8. The method of claim 3, wherein: acquiring the date when the body temperature is detected;

taking the date of temperature rise from the temperature change period to the luteal phase as the first day of the luteal phase based on the obtained detected body temperature; and when judging whether the date of detecting the body temperature is between the first day of the luteal phase and the third day of the luteal phase, outputting a pregnancy optimizing indication signal if the date is.

9. A temperature measuring instrument is characterized in that: the method comprises the following steps:

the recording module (2) is used for recording the luteal phase body temperature value and the follicle phase body temperature value;

the identity recognition module (3) is used for acquiring unique identity information;

the body temperature detection module (4) is used for acquiring the detected body temperature;

a data output module (5) for outputting the measurement result;

the controller (6) generates a user identification number based on the unique identity information, and binds the luteal phase body temperature value and the follicle phase body temperature value to the user identification number; generating a luteal phase body temperature threshold value and a follicular phase body temperature threshold value based on the recorded luteal phase body temperature value and follicular phase body temperature value; when the identity information of the user identification number is identified, the measurement result is output through the data output module (5) based on the comparison of the detected body temperature and the luteal phase body temperature threshold value and the follicle phase body temperature threshold value recorded in the user identification number.

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