CN114088251A - Intelligent automatic reset thermometer calibration method, system, device and storage medium - Google Patents
Intelligent automatic reset thermometer calibration method, system, device and storage medium Download PDFInfo
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- 238000012360 testing method Methods 0.000 claims abstract description 74
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- 238000001514 detection method Methods 0.000 claims description 31
- 238000012795 verification Methods 0.000 claims description 29
- 238000004590 computer program Methods 0.000 claims description 6
- 230000000694 effects Effects 0.000 abstract description 2
- 230000006870 function Effects 0.000 description 23
- 238000009529 body temperature measurement Methods 0.000 description 13
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- 230000036760 body temperature Effects 0.000 description 1
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- G01K—MEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
- G01K15/00—Testing or calibrating of thermometers
- G01K15/005—Calibration
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01K—MEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
- G01K13/00—Thermometers specially adapted for specific purposes
- G01K13/20—Clinical contact thermometers for use with humans or animals
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01K—MEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
- G01K7/00—Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
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Abstract
The application relates to a checking method, a system, a device and a storage medium of an intelligent automatic reset thermometer, relating to the technical field of electronic thermometers, wherein the method comprises the steps of obtaining actual measured temperature; acquiring a preset measurement temperature corresponding to the actual measurement temperature according to the actual measurement temperature; if the actual measured temperature is consistent with the preset measured temperature, generating a normal test instruction and executing the normal test instruction, wherein the normal test instruction is used for sending a normal test signal to the thermometer; and if the actual measured temperature is inconsistent with the preset measured temperature, generating and executing a test abnormal instruction, wherein the test abnormal instruction is used for sending a test abnormal signal to the thermometer. The method and the device have the effect that the user can definitely know the current measurement precision condition of the thermometer.
Description
Technical Field
The present application relates to the field of electronic thermometers, and in particular, to a method, a system, an apparatus, and a storage medium for checking an intelligent automatic reset thermometer.
Background
The electronic thermometer consists of a temperature sensor, a liquid crystal display, a button cell, an application specific integrated circuit and other electronic components. The thermometer can quickly and accurately measure the body temperature, and compared with the traditional mercury glass thermometer, the thermometer has the advantages of convenient reading, short measuring time, high measuring precision, memory and buzzing prompt.
With respect to the above-described techniques, the inventors consider that the following drawbacks exist: after the ordinary domestic electronic thermometer idles for a long time, the battery power runs off, makes the measurement accuracy of clinical thermometer reduce thereupon, and at this moment, the user is difficult to learn the precision condition of clinical thermometer, and then leads to the user to change the battery again, has the clinical thermometer to be after long-time idle, and the user is difficult to learn the defect of clinical thermometer measurement precision condition.
Disclosure of Invention
In order to enable a user to clearly know the current measurement precision condition of the thermometer, the application provides an intelligent automatic reset thermometer calibration method, system, device and storage medium.
In a first aspect, the present application provides an intelligent automatic reset thermometer calibration method, which adopts the following technical scheme:
the intelligent automatic reset thermometer calibration method comprises the following steps:
acquiring an actual measured temperature;
acquiring a preset measurement temperature corresponding to the actual measurement temperature according to the actual measurement temperature;
if the actual measurement temperature is consistent with the preset measurement temperature, generating a normal test instruction and executing the normal test instruction, wherein the normal test instruction is used for sending a normal test signal to the thermometer;
and if the actual measured temperature is inconsistent with the preset measured temperature, generating and executing a test abnormal instruction, wherein the test abnormal instruction is used for sending a test abnormal signal to the thermometer.
By adopting the technical scheme, after the thermometer is idle for a long time, a user carries out related temperature checking work on the thermometer before using the thermometer again, at the moment, the checking system acquires the actual measurement temperature of the thermometer, compares the measurement temperature measured by the thermometer with the actual preset measurement temperature, and when the actual measurement temperature is consistent with the preset measurement temperature, the measurement function of the thermometer is normal at the moment, and the checking system generates a normal test instruction to prompt the user that the thermometer works normally and can be used normally; when the actual measurement temperature is inconsistent with the preset measurement temperature, the measurement function of the thermometer is abnormal, the verification system generates an abnormal test instruction to prompt a user that the thermometer works abnormally, so that the user can clearly know the current measurement precision condition of the thermometer, and the user can conveniently perform subsequent debugging and using processes on the thermometer.
Optionally, after the step of obtaining the preset measured temperature corresponding to the actual measured temperature, the method further includes:
and generating a temperature push instruction according to the actual measurement temperature and the preset measurement temperature, and executing the temperature push instruction, wherein the temperature push instruction is used for pushing the actual measurement temperature and the preset measurement temperature to a thermometer.
By adopting the technical scheme, when the calibration system tests the working state of the thermometer, the actual measurement temperature and the preset measurement temperature are pushed to the display terminal of the thermometer, so that a user can intuitively know the temperature measurement function state of the current thermometer.
Optionally, after the step of generating and executing the test exception instruction, the method further includes:
acquiring actual detection time;
inquiring a preset detection time length corresponding to the actual detection time length from a preset database;
and if the actual detection time length reaches the preset detection time length, generating a temperature calibration instruction and executing, wherein the temperature calibration instruction is used for replacing and updating the actual measurement temperature according to the preset measurement temperature.
By adopting the technical scheme, when the actual measurement temperature is inconsistent with the preset measurement temperature, the measurement function of the thermometer is abnormal, the calibration system generates a temperature calibration instruction within the detection time preset by the user, the measurement temperature displayed on the thermometer is adjusted to the preset actual temperature, the automatic reset work of the thermometer is realized, and the calibration is further completed.
Optionally, before the step of generating and executing the temperature calibration instruction, the method further includes:
generating a current temperature difference according to the actual measured temperature and the preset measured temperature, wherein the current temperature difference is the difference between the actual measured temperature and the preset measured temperature;
inquiring a maximum temperature difference value corresponding to the current temperature difference from a preset database;
and if the current temperature difference is not larger than the maximum temperature difference value, executing the step of generating the temperature calibration instruction and executing.
By adopting the technical scheme, when the temperature detected by the thermometer is smaller than the actual temperature preset by the user, the calibration system automatically generates a temperature calibration instruction to automatically calibrate the temperature measurement function of the thermometer, so that the thermometer enters an automatic reset state, and the user can subsequently continue to use the current thermometer for temperature measurement.
Optionally, after the step of querying the maximum temperature difference value corresponding to the current temperature difference from the preset database, the method further includes:
and if the current temperature difference is larger than the maximum temperature difference value, generating a battery replacement instruction and executing, wherein the battery replacement instruction is used for prompting a user to replace the battery of the thermometer.
By adopting the technical scheme, when the temperature detected by the thermometer is greatly different from the actual temperature preset by the user, the battery power loss is excessive, the normal temperature measurement function of the thermometer is difficult to support, the verification system generates a battery replacement instruction at the moment, the user is prompted to replace the battery of the thermometer, and the battery replacement prompting function of the thermometer is further realized.
Optionally, before the step of generating and executing the battery replacement command, the method further includes:
acquiring actual battery electric quantity;
inquiring a battery electric quantity threshold value corresponding to the actual battery electric quantity from a preset database;
and if the actual battery electric quantity is larger than the battery electric quantity threshold value, generating a thermometer error reporting instruction and executing the thermometer error reporting instruction, wherein the thermometer error reporting instruction is used for prompting a user that the thermometer has a fault.
By adopting the technical scheme, the checking system prompts a user to detect the battery power condition of the thermometer before replacing the battery, if the battery power of the current thermometer is sufficient, the error of the measurement result is not caused by insufficient power, but because the thermometer breaks down, the checking system generates a thermometer error reporting instruction to remind the user that the thermometer breaks down at the moment and needs to perform related maintenance detection.
Optionally, before the step of generating and executing the temperature calibration instruction is executed, the method further includes:
inquiring a temperature difference minimum value corresponding to the current temperature difference from a preset database;
and if the current temperature difference is smaller than the minimum temperature difference value, executing the step of generating and executing the normal test command.
By adopting the technical scheme, when the error between the temperature value measured by the thermometer and the actual temperature value is within the allowable range, the measurement function of the thermometer is normal at the moment, the verification system directly generates a normal test instruction, the actual measurement temperature is not required to be completely consistent with the preset measurement temperature, and the measurement and verification steps of the thermometer are simplified.
In a second aspect, the present application provides an intelligent automatic reset thermometer calibration system, which adopts the following technical scheme:
intelligent automatic re-setting clinical thermometer calibration system includes:
the actual measurement temperature acquisition module is used for acquiring actual measurement temperature;
the preset measured temperature acquisition module is used for acquiring a preset measured temperature corresponding to the actual measured temperature according to the actual measured temperature;
the normal test instruction generating module is used for generating a normal test instruction and executing the normal test instruction if the actual measured temperature is consistent with the preset measured temperature, wherein the normal test instruction is used for sending a normal test signal to the thermometer;
and the test abnormal instruction generating module is used for generating and executing a test abnormal instruction if the actual measured temperature is inconsistent with the preset measured temperature, and the test abnormal instruction is used for sending a test abnormal signal to the thermometer.
In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:
an intelligent terminal comprising a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and executing any of the above described intelligent self-resetting thermometer verification methods.
In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:
a computer readable storage medium storing a computer program capable of being loaded by a processor and executing any of the above described intelligent self-resetting thermometer verification methods.
In summary, the present application includes at least one of the following beneficial technical effects:
after the thermometer is idle for a long time, a user carries out related temperature checking work on the thermometer before using the thermometer again, at the moment, a checking system acquires the actual measured temperature of the thermometer, compares the measured temperature measured by the thermometer with the actual preset measured temperature, and when the actual measured temperature is consistent with the preset measured temperature, the measuring function of the thermometer is normal at the moment, and the checking system generates a normal test instruction to prompt the user that the thermometer works normally and can be used normally; when the actual measurement temperature is inconsistent with the preset measurement temperature, the measurement function of the thermometer is abnormal, the verification system generates an abnormal test instruction to prompt a user that the thermometer works abnormally, so that the user can clearly know the current measurement precision condition of the thermometer, and the user can conveniently perform subsequent debugging and using processes on the thermometer.
When the actual measurement temperature is inconsistent with the preset measurement temperature, the measurement function of the thermometer is abnormal, the calibration system generates a temperature calibration instruction within the detection time preset by the user, the measurement temperature displayed on the thermometer is adjusted to the preset actual temperature, the automatic reset work of the thermometer is realized, and then the calibration is completed.
The checking system prompts a user to detect the battery power condition of the thermometer before replacing the battery, if the battery power of the current thermometer is sufficient, the error of the measurement result is not caused by insufficient battery power, but because the thermometer breaks down, the checking system generates a thermometer error reporting instruction to remind the user that the thermometer breaks down at the moment and needs to perform related maintenance detection.
Drawings
Fig. 1 is a schematic flow chart of an intelligent automatic reset thermometer calibration method according to an embodiment of the present application.
Fig. 2 is a schematic flow chart illustrating a process of querying a preset detection duration corresponding to an actual detection duration from a preset database in the embodiment of the present application.
FIG. 3 is a flowchart illustrating steps performed in the embodiment of the present application to generate and execute a normal test instruction.
Fig. 4 is a schematic flow chart of acquiring an actual battery power in the embodiment of the present application.
Fig. 5 is a block diagram of an intelligent automatic reset thermometer verification system according to an embodiment of the present application.
Description of reference numerals: 1. an actual measurement temperature acquisition module; 2. presetting a measured temperature acquisition module; 3. a test normal instruction generating module; 4. and a test exception instruction generation module.
Detailed Description
The present application is described in further detail below with reference to figures 1-5.
The embodiment of the application discloses an intelligent automatic reset thermometer checking method, system, device and storage medium.
Referring to fig. 1, the intelligent automatic reset thermometer calibration method includes:
s101: the actual measured temperature is obtained.
Specifically, after the thermometer is idle for a long time, the user needs to perform temperature check work on the thermometer in advance before using the thermometer again, and at this time, the user performs state detection on the body temperature measurement function of the thermometer by enabling the thermometer to detect an ice-water mixture.
And the thermometer measures the temperature of the ice-water mixture to obtain a measured temperature, and at the moment, the checking system acquires the current measured temperature of the thermometer, namely the actual measured temperature.
S102: a preset measured temperature corresponding to the actual measured temperature is obtained.
Specifically, the calibration system acquires a preset measurement temperature corresponding to the actual measurement temperature according to the actual measurement temperature, wherein the preset measurement temperature is set and generated by a user according to actual conditions, a touch screen is arranged on the thermometer, and the user inputs the preset measurement temperature into the thermometer by operating the touch screen, so that the calibration system acquires the preset measurement temperature corresponding to the actual measurement temperature.
For example, if the temperature of the ice-water mixture measured by the thermometer is zero degrees centigrade, the preset measurement temperature set by the user is zero degrees centigrade.
S103: and generating a temperature push instruction and executing.
Specifically, the verification system generates and executes a temperature push instruction according to the actual measured temperature and the preset measured temperature, wherein the temperature push instruction is used for pushing the actual measured temperature and the preset measured temperature to the thermometer. When the calibration system tests the working state of the thermometer, the actual measured temperature and the preset measured temperature are pushed to the touch screen to be displayed, so that a user can intuitively know the temperature measurement function state of the current thermometer.
S104: and if the actual measured temperature is consistent with the preset measured temperature, generating a normal test instruction and executing.
Specifically, the verification system compares the measurement temperature measured by the thermometer with the actual preset measurement temperature, when the actual measurement temperature is consistent with the preset measurement temperature, the measurement function of the thermometer is normal, and the verification system generates a normal test instruction, wherein the normal test instruction is used for sending a normal test signal to the thermometer, so that a normal test word is displayed on the touch screen, and a user is prompted that the current thermometer works normally and can be used normally.
S105: and if the actual measured temperature is inconsistent with the preset measured temperature, generating a test abnormal instruction and executing.
Specifically, when the actual measurement temperature is inconsistent with the preset measurement temperature, the measurement function of the thermometer at the moment is indicated to be abnormal, the verification system generates an abnormal test instruction, wherein the abnormal test instruction is used for sending an abnormal test signal to the thermometer, so that an abnormal test word is displayed on the touch screen, the user is prompted to measure the thermometer abnormally at the moment, the user can clearly know the current measurement precision condition of the thermometer, and the user can conveniently perform subsequent debugging and using processes on the thermometer.
As an implementation manner, S103 in the embodiment of the present application is optional.
Referring to fig. 2, after S105, a temperature calibration instruction is further generated according to the actual detection time length, which specifically includes the following steps:
s201: and acquiring the actual detection time length.
Specifically, when the verification system finds that the actual measured temperature at the moment is inconsistent with the preset measured temperature, the verification system performs timing operation on the measuring process through a timer arranged in the thermometer, and obtains the actual detection duration of the thermometer in real time.
S202: and inquiring a preset detection time length corresponding to the actual detection time length from a preset database.
Specifically, when the verification system finds that the actual measured temperature is inconsistent with the preset measured temperature, the verification system queries a preset detection time corresponding to the actual detection time from a preset database, wherein the preset detection time is preset and generated by a user, and the preset detection time is used for representing a maximum allowable value of the inconsistency between the actual measured temperature and the preset measured temperature.
For example, the preset detection time set by the user is 10 seconds, and then after the current actual measured temperature is detected for 10 seconds, when the actual measured temperature is still inconsistent with the preset measured temperature, the verification system needs to perform further subsequent calibration operations.
S203: and if the actual detection time length reaches the preset detection time length, generating a temperature calibration instruction and executing.
Specifically, when the actual measurement temperature is inconsistent with the preset measurement temperature, it is described that the measurement function of the thermometer is abnormal at the moment, and the calibration system automatically generates a temperature calibration instruction within the detection duration preset by the user, wherein the temperature calibration instruction is used for replacing and updating the actual measurement temperature according to the preset measurement temperature, adjusting the measurement temperature displayed on the thermometer to the preset actual temperature, so that the automatic reset work of the thermometer is realized, and the calibration process is further completed.
Referring to fig. 3, before S203, a battery replacement command is generated according to the current temperature difference, which specifically includes the following steps:
s301: a current temperature difference is generated.
Specifically, the calibration system generates a current temperature difference according to the actual measurement temperature and the preset measurement temperature, and the current temperature difference is a difference between the actual measurement temperature and the preset measurement temperature. The calibration system generates the current temperature difference through calculation, and obtains the deviation relation between the actual measurement temperature and the preset measurement temperature.
S302: and inquiring the maximum temperature difference value corresponding to the current temperature difference from a preset database.
Specifically, the checking system queries a maximum temperature difference value corresponding to the current temperature difference from a preset database, where the maximum temperature difference value is preset and generated by a user, for example, the maximum temperature difference value preset by the user is 10.
S303: and judging whether the current temperature difference is larger than the maximum temperature difference value or not.
Specifically, when the difference between the actual measured temperature and the preset measured temperature does not reach the maximum value of the temperature difference, it indicates that the difference between the temperature detected by the thermometer and the actual temperature preset by the user is small, and when the difference between the actual measured temperature and the preset measured temperature is greater than the maximum value of the temperature difference, it indicates that the difference between the temperature detected by the thermometer and the actual temperature preset by the user is large.
If not, executing S304 to S305;
if yes, the process goes to S306.
S304: and inquiring the minimum temperature difference value corresponding to the current temperature difference from a preset database.
The minimum value of the temperature difference is preset and generated by a user, the minimum value of the temperature difference is used for representing a conventional error value which may appear in the normal measurement process of the thermometer, and if the current temperature difference is smaller than the minimum value of the temperature difference, the measurement error at the moment belongs to normal data measurement stirring, and the measurement value of the thermometer is normal.
S305: and judging whether the current temperature difference is smaller than the minimum temperature difference value or not.
If the judgment result is yes, the step of generating and executing the normal test command is executed.
If not, executing the step of generating and executing the temperature calibration instruction.
Specifically, if the current temperature difference is not smaller than the minimum temperature difference and not larger than the maximum temperature difference, it is indicated that the difference between the temperature detected by the thermometer and the actual temperature preset by the user is small, and the temperature detected by the thermometer is within the adjustable range, the calibration system automatically generates a temperature calibration instruction, and automatically calibrates the temperature measurement function of the thermometer, so that the thermometer enters an automatic reset state, and the user can subsequently continue to use the current thermometer for temperature measurement.
If the current temperature difference is smaller than the minimum temperature difference value, the error between the temperature value measured by the thermometer and the actual temperature value is in an allowable range, the measurement function of the thermometer is normal, the verification system directly generates a normal test instruction, the actual measurement temperature does not need to be completely consistent with the preset measurement temperature, and the measurement and verification steps of the thermometer are simplified.
S306: and generating and executing a battery replacement instruction.
Specifically, when the temperature detected by the thermometer is greatly different from the actual temperature preset by the user, it is indicated that the battery power consumption is too heavy at the moment, and the normal temperature measurement function of the thermometer is difficult to support.
Referring to fig. 4, before S306, an error indication of the thermometer is generated according to the actual battery power, which specifically includes the following steps:
s401: and acquiring the actual battery capacity.
Specifically, before the check-up system suggestion user changed the battery, detected the battery electric quantity condition of thermometer this moment in advance, the check-up system had preliminary cognition through acquireing actual battery electric quantity to the battery service behavior of thermometer.
S402: and inquiring a battery capacity threshold corresponding to the actual battery capacity from a preset database.
The battery power threshold is generated by presetting for a user, for example, the battery power threshold preset by the user is 8, and when the actual battery power is greater than 8, the battery power is sufficient.
S403: and if the actual battery electric quantity is larger than the battery electric quantity threshold value, generating an error reporting instruction of the thermometer and executing.
Specifically, if the battery capacity of the current thermometer is sufficient, it is indicated that the error of the measurement result is not caused by insufficient battery capacity, but due to the fact that the thermometer has a fault, the verification system generates a thermometer error reporting instruction, wherein the thermometer error reporting instruction is used for prompting a user that the thermometer has the fault, and the verification system prompts the user that the thermometer has the fault and needs to perform related maintenance detection by displaying a thermometer error reporting word on the touch screen.
The implementation principle of the intelligent automatic reset thermometer calibration method in the embodiment of the application is as follows: after the thermometer is idle for a long time, a user carries out related temperature check work on the thermometer before using the thermometer again, at the moment, a check system obtains the actual measurement temperature of the thermometer, and the measurement temperature measured by the thermometer is compared with the actual preset measurement temperature.
And if the current temperature difference is not smaller than the minimum temperature difference and not larger than the maximum temperature difference, the temperature detected by the thermometer is in the range to be adjusted, and the calibration system generates a temperature calibration instruction to automatically calibrate the temperature measurement function of the thermometer. If the current temperature difference is smaller than the minimum temperature difference value, the measurement function of the thermometer is normal at the moment, and the verification system generates a normal test instruction.
When the temperature detected by the thermometer is greatly different from the actual temperature preset by a user, the fact that the battery power consumption is too heavy at the moment is indicated, the normal temperature measurement function of the thermometer is difficult to support, and at the moment, the calibration system does not control the thermometer to enter an automatic reset state, but generates a battery replacement instruction, so that the calibration system can automatically perform relevant calibration and debugging operations on the temperature measurement function of the thermometer.
Based on the method, the embodiment of the application also discloses an intelligent automatic reset thermometer calibration system. Referring to fig. 5, an intelligent self-resetting thermometer calibration system includes:
the temperature measurement device comprises an actual measurement temperature acquisition module 1, wherein the actual measurement temperature acquisition module 1 is used for acquiring an actual measurement temperature.
The preset measured temperature acquiring module 2 is used for acquiring a preset measured temperature corresponding to the actual measured temperature according to the actual measured temperature by the preset measured temperature acquiring module 2.
And the normal test instruction generating module 3 is used for generating and executing a normal test instruction if the actual measured temperature is consistent with the preset measured temperature, and the normal test instruction is used for sending a normal test signal to the thermometer.
The test exception instruction generating module 4 is configured to generate and execute a test exception instruction if the actual measured temperature is inconsistent with the preset measured temperature, where the test exception instruction is used to send a test exception signal to the thermometer.
The embodiment of the application also discloses an intelligent terminal which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the intelligent automatic reset thermometer calibration method.
The embodiment of the application also discloses a computer readable storage medium. A computer program capable of being loaded by a processor and executing the intelligent automatic reset thermometer verification method as described above is stored in a computer readable storage medium, which includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.
The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.
Claims (10)
1. The intelligent automatic reset thermometer calibration method is characterized by comprising the following steps:
acquiring an actual measured temperature;
acquiring a preset measurement temperature corresponding to the actual measurement temperature according to the actual measurement temperature;
if the actual measurement temperature is consistent with the preset measurement temperature, generating a normal test instruction and executing the normal test instruction, wherein the normal test instruction is used for sending a normal test signal to the thermometer;
and if the actual measured temperature is inconsistent with the preset measured temperature, generating and executing a test abnormal instruction, wherein the test abnormal instruction is used for sending a test abnormal signal to the thermometer.
2. An intelligent self-resetting thermometer verification method as claimed in claim 1, further comprising, after said step of obtaining a preset measured temperature corresponding to said actual measured temperature:
and generating a temperature push instruction according to the actual measurement temperature and the preset measurement temperature, and executing the temperature push instruction, wherein the temperature push instruction is used for pushing the actual measurement temperature and the preset measurement temperature to a thermometer.
3. The intelligent self-resetting thermometer verification method of claim 1, further comprising, after said step of generating and executing a test exception instruction:
acquiring actual detection time;
inquiring a preset detection time length corresponding to the actual detection time length from a preset database;
and if the actual detection time length reaches the preset detection time length, generating a temperature calibration instruction and executing, wherein the temperature calibration instruction is used for replacing and updating the actual measurement temperature according to the preset measurement temperature.
4. An intelligent self-resetting thermometer verification method as claimed in claim 3, further comprising, prior to said step of generating and executing temperature calibration instructions:
generating a current temperature difference according to the actual measured temperature and the preset measured temperature, wherein the current temperature difference is the difference between the actual measured temperature and the preset measured temperature;
inquiring a maximum temperature difference value corresponding to the current temperature difference from a preset database;
and if the current temperature difference is not larger than the maximum temperature difference value, executing the step of generating the temperature calibration instruction and executing.
5. An intelligent self-resetting thermometer verification method as claimed in claim 4, wherein after said step of querying a preset database for a maximum temperature difference value corresponding to said current temperature difference, further comprising:
and if the current temperature difference is larger than the maximum temperature difference value, generating a battery replacement instruction and executing, wherein the battery replacement instruction is used for prompting a user to replace the battery of the thermometer.
6. The intelligent self-resetting thermometer verification method of claim 5, further comprising, prior to said step of generating and executing a battery replacement command:
acquiring actual battery electric quantity;
inquiring a battery electric quantity threshold value corresponding to the actual battery electric quantity from a preset database;
and if the actual battery electric quantity is larger than the battery electric quantity threshold value, generating a thermometer error reporting instruction and executing the thermometer error reporting instruction, wherein the thermometer error reporting instruction is used for prompting a user that the thermometer has a fault.
7. The intelligent self-resetting thermometer verification method of claim 4, further comprising, prior to said step of generating and executing temperature calibration instructions:
inquiring a temperature difference minimum value corresponding to the current temperature difference from a preset database;
and if the current temperature difference is smaller than the minimum temperature difference value, executing the step of generating and executing the normal test command.
8. Intelligent automatic re-setting thermometer calibration system, its characterized in that includes:
an actual measurement temperature acquisition module (1) for acquiring an actual measurement temperature;
the preset measurement temperature acquisition module (2) is used for acquiring a preset measurement temperature corresponding to the actual measurement temperature according to the actual measurement temperature;
the normal test instruction generating module (3) is used for generating a normal test instruction and executing the normal test instruction if the actual measured temperature is consistent with the preset measured temperature, and the normal test instruction is used for sending a normal test signal to the thermometer;
and the test abnormal instruction generating module (4) is used for generating and executing a test abnormal instruction if the actual measured temperature is inconsistent with the preset measured temperature, and the test abnormal instruction is used for sending a test abnormal signal to the thermometer.
9. The utility model provides an intelligent terminal which characterized in that: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method of any of claims 1 to 7.
10. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which performs the method according to any one of claims 1 to 7.
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