CN215374292U - Automatic remind temperature measurement and quick body temperature measuring device - Google Patents

Abstract

The utility model relates to a device for automatically reminding temperature measurement and quickly measuring body temperature, which comprises an electronic thermometer and a shell for accommodating the electronic thermometer, wherein a heating component for heating a temperature probe of the electronic thermometer, a contact circuit board for contacting and detecting the reading of the electronic thermometer in the shell and a main circuit board are arranged in the shell; the heating assembly and the contact circuit board are electrically connected with the main circuit board; the main circuit board obtains a body temperature predicted value from the outside or obtains the body temperature predicted value in a local storage, and controls the heating assembly to operate to enable the electronic thermometer to reach the body temperature predicted value; by applying the device, the electronic thermometer is heated to the predicted body temperature value before being taken out for use, then is taken out for detection, and is adaptively adjusted to a stable reading state according to the actual temperature of the human body, so that the temperature of the human body can be obtained.

Description

Automatic remind temperature measurement and quick body temperature measuring device

Technical Field

The utility model relates to the technical field of body temperature measuring devices, in particular to a device capable of automatically reminding temperature measurement and quickly measuring body temperature.

Background

The existing thermometers used more frequently can be roughly classified into non-contact thermometers and contact thermometers, and the contact thermometer is typically represented by a mercury thermometer.

Such a conventional mercury thermometer has some inconveniences in measurement, such as taking about 5 to 10 minutes to achieve thermal equilibrium between the thermometer and the body to obtain the temperature to be measured during temperature measurement, and the scale on the glass tube is not easy to be accurately read,

therefore, there is an electronic contact thermometer, which is typically designed to have a temperature sensing thermal probe for sensing the temperature of the object to be measured, a set of electronic components for processing temperature information, and a display device for displaying the measured body temperature; in order to quickly measure the body temperature, the existing electronic contact type clinical thermometers mostly adopt the design of an electronic sensing heat-sensitive probe type, the temperature of the object is predicted by a prediction method and a circuit before the temperature of the thermosensitive probe of the sensor and the body temperature of the patient reach equilibrium, the temperature of the object is obtained by using the method under the assumption that the body temperature of the object does not change greatly during the measurement, the temperature is predicted by measuring the temperature for a period of time and the rate of temperature change, the body temperature of the patient is predicted by fitting a temperature rising curve by using two parameters, the advantage of this predictive approach is that the patient's body temperature can be measured quickly, providing an immediate diagnosis, but the defects are that the body temperature result obtained by prediction is inaccurate and cannot be measured continuously due to the influence of a plurality of factors such as environmental temperature and the like, and the interval between two measurement periods is several minutes;

the existing electronic contact type thermometers mostly adopt the design of an electronic sensing heat sensitive probe, before the heat sensitive probe of a sensor and the body temperature of a patient reach balance, the final balance temperature is predicted by a prediction method and a circuit to obtain the body temperature of an object to be measured, the assumption premise of using the method is that the body temperature of the object to be measured does not have large change in the measuring period, the temperature prediction mode is to measure the temperature of a period of time and the rate of the temperature change, and the body temperature of the patient is predicted by fitting a temperature rising curve by using two parameters, the prediction mode has the advantages of being capable of rapidly measuring the body temperature of the patient and providing instant diagnosis, but the defects are influenced by a plurality of factors such as environmental temperature and the like, and the result of predicting the obtained body temperature is inaccurate. And cannot be measured continuously, and the two measurement periods need to be separated by several minutes. The contact type electronic thermometer is programmed to store a prediction algorithm which can limit a temperature rising curve; the prediction algorithm takes a predicted incremental value of temperature from the measured body temperature and then adds to the measured value of body temperature so that the final heat balance temperature can be predicted before heat balance is completed. However, experiments have shown that the body temperature rise curve varies from person to person, and even the body temperature rise curve of the same person is greatly different when the body temperature is measured from the armpit and the body temperature measured from the mouth. Therefore, in actual operation, even if the prediction algorithm is corrected by using the temperature characteristic distribution of the thermosensitive probe, the equilibrium temperature cannot be accurately predicted at an early stage. In addition, the general hospital requires the inpatients to test the body temperature 4 times a day, and because the reading of the mercury thermometer is difficult, the electronic thermometer has long time for displaying the measured value, and many patients cannot test themselves on time. In order to obtain accurate data, the workload of body temperature measurement of nurses is large, and the waiting time is long, which is a big problem faced by the current temperature measurement equipment system.

In the electronic thermometer disclosed in U.S. Pat. No. 5,738,441, a time frame (time frame) is determined before the temperature sensing probe contacts the body, the derivative of the temperature signal is used as the characteristic of the temperature signal in the time frame, the logarithm of the characteristic of the temperature signal is calculated, and the temperature at equilibrium is calculated according to the logarithm. Although the aim of quickly predicting the body temperature can be achieved, the whole measuring system is assumed to be in an ideal condition, the heat source contacted by the thermometer is assumed to be infinite, but the heat source of the human body is not infinite, and the ideal condition causes the practical application to be limited. The sensor characteristics are another limitation that is not considered, since the heat quantity contacted by the sensor embedded in the heat sensitive probe is important for the overall body temperature measurement process, the heat sensitive probe must uniformly transfer the heat quantity to the sensor for accurate measurement, and generally speaking, the heat energy of the human body is consumed in the heat quantity transfer process, and the temperature difference between the thermometer and the temperature of the human body will pull down the measured temperature reading, which will affect the accuracy of prediction.

Chinese patent No. CN201610765099.3 discloses a body temperature rapid measuring device, which includes: the shell is internally provided with a first accommodating space and a second accommodating space; the temperature acquisition devices are placed in the first accommodating space, the inner wall of the first accommodating space is a rubber layer, and a heating sheet and a thermistor are arranged at the bottom of the first accommodating space; the second accommodating space is internally provided with a disinfectant, and the top end of the second accommodating space is provided with a cover capable of being freely opened and closed. The body temperature measuring device provided by the utility model adopts a mode that liquid is used as a medium to preheat the thermometer at a constant temperature, so that the probe for acquiring the body temperature keeps a state close to the temperature of a human body all the time, accurate and stable body temperature data can be quickly acquired, and the ward inspection speed is improved.

The electronic thermometer disclosed in U.S. Pat. No. 5,632,555 predicts the body temperature by preheating the sensor temperature inside the thermometer to solve the error encountered by various factors during prediction, and although the goal of rapid prediction and error reduction is achieved, the electronic thermometer requires additional electronic components and power supply in a preheating manner, and considering the limitation of power consumption in the international technical standard of the electronic thermometer, the design scheme is difficult to obtain the authentication of the related medical device. There are also some limitations in manufacturing cost, and there is no price competitiveness.

There is thus a need for a device that can measure body temperature quickly and accurately and in rapid succession.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a device and a method for automatically reminding temperature measurement and quickly measuring body temperature aiming at the defects in the prior art.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the device comprises an electronic thermometer and a shell for containing the electronic thermometer, wherein a heating component for heating a temperature probe of the electronic thermometer, a contact circuit board for contacting and detecting the reading of the electronic thermometer in the shell, a main circuit board and a super capacitor for supplying power are arranged in the shell; the heating assembly and the contact circuit board are electrically connected with the main circuit board; the main circuit board obtains a body temperature predicted value from the outside or obtains the body temperature predicted value in a local storage, and controls the heating assembly to operate to enable the electronic thermometer to reach the body temperature predicted value.

The automatic temperature reminding and rapid body temperature measuring device is characterized in that the shell is also provided with a communication module for communicating with the outside, and the communication module is electrically connected with the main circuit board.

The automatic temperature-reminding and rapid body temperature-measuring device is characterized in that a containing groove for inserting and containing the electronic thermometer is formed in the shell, and the contact circuit board and the main circuit board are both arranged in the containing groove.

The automatic temperature reminding and rapid body temperature measuring device is characterized in that the contact circuit board is provided with an elastic contact which is correspondingly and electrically connected with the communication contact and the charging contact on the electronic thermometer.

The automatic temperature reminding and rapid body temperature measuring device is characterized in that a temperature probe bracket for positioning a temperature probe is arranged in a shell; the heating assembly comprises an automatic power-off heating module arranged on the temperature probe bracket.

The automatic temperature-reminding and rapid body temperature-measuring device is characterized in that an electronic control locking assembly for locking an electronic thermometer is arranged in a shell, and the electronic control locking assembly is controlled by a main circuit board.

The device for automatically reminding temperature measurement and quickly measuring body temperature is characterized in that a wireless communication single chip microcomputer (such as Bluetooth, WIFI and the like) is arranged on the main circuit board, and the wireless communication single chip microcomputer is electrically connected with a thermistor for detecting the temperature of the heating assembly.

The method for automatically reminding temperature measurement and quickly measuring body temperature applies the device for automatically reminding temperature measurement and quickly measuring body temperature, and the implementation method comprises the following steps:

the system detects whether networking is performed:

if the online body temperature is connected with the network, the server side operates an artificial intelligence algorithm according to historical data to obtain an online body temperature predicted value, the server side sends the online body temperature predicted value to the online body temperature prediction device, and the system detects whether the online body temperature predicted value is received or not: if the local historical data is not received, running a local prediction algorithm on the local historical data of the device to obtain a local body temperature prediction value and heating the thermometer to the local body temperature prediction value;

if not, running a local prediction algorithm on local historical data of the device to obtain a local body temperature predicted value and heating the thermometer to the local body temperature predicted value.

The utility model relates to a method for automatically reminding temperature measurement and quickly measuring body temperature, which further comprises the following steps:

when the temperature measurement key is pressed down and the timing temperature measurement time reaches or receives a temperature measurement instruction, the heating assembly is powered on to heat the thermometer, the current temperature of the thermometer is detected, the heating assembly is powered off when the temperature reaches a body temperature predicted value, and the outside is reminded to take away the thermometer which is preheated.

The utility model relates to a method for automatically reminding temperature measurement and quickly measuring body temperature, which further comprises the following steps:

the thermometer is contacted with the body and measures the temperature, and when the detection value of the thermometer does not change within a set time, the thermometer reminds the outside to finish the measurement;

if the thermometer with the temperature measurement completed is not returned to the shell within a set time, the thermometer reminds the outside to return, if the thermometer is returned, the system reads thermometer data and uploads the data to the server, the thermometer is charged when the voltage of the thermometer is lower than a set voltage, and the thermometer reminds when the detected temperature exceeds a normal range; the thermometer shell is provided with a rechargeable battery which can charge a super capacitor in the thermometer. The thermometer kit is small in size, can be fixed at the side of a sickbed and connected with a low-voltage power supply for use, and can be carried about to be used as an intelligent portable thermometer.

The utility model has the beneficial effects that: by applying the device, the electronic thermometer is heated to the predicted temperature value before being taken out for use, then is taken out for detection, and is adaptively adjusted to a stable reading state according to the actual temperature of a human body, so that the temperature of the human body can be obtained, the actual temperature value can be directly and quickly displayed by the mode, the time for accurately measuring the body temperature is greatly reduced, and the time for obtaining the actual temperature value is shortened to 20-30 seconds from 5-10 minutes of a common thermometer; in addition, the power supply of the thermometer adopts a super capacitor instead of a rechargeable battery, so that the thermometer can be repeatedly charged and discharged for tens of thousands of times, and the service life of the thermometer is prolonged by hundreds of times compared with that of a common electronic thermometer.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is an exploded view of an automatic temperature-indicating and rapid body temperature-measuring device according to a preferred embodiment of the present invention;

FIG. 2 is a schematic circuit diagram of an automatic temperature-reminding and rapid body temperature-measuring device according to a preferred embodiment of the present invention;

FIG. 3 is a flow chart of a method for automatically reminding a user to measure temperature and quickly measuring body temperature according to a preferred embodiment of the present invention;

FIG. 4 is a flow chart of the method for automatically reminding a user of taking an electronic thermometer for measuring temperature and rapidly measuring body temperature according to the preferred embodiment of the utility model;

FIG. 5 is a flow chart of a method for automatically reminding a user of taking a thermometry and a quick body temperature measurement to return to an electronic thermometer according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

As shown in fig. 1 and referring to fig. 2, the device for automatically reminding temperature measurement and rapidly measuring body temperature according to the preferred embodiment of the present invention includes an electronic thermometer 1 and a housing 2 for housing the electronic thermometer, wherein a heating assembly 20 for heating a temperature probe of the electronic thermometer, a contact circuit board 21 for contacting and detecting a reading of the electronic thermometer 1 in the housing 2, a main circuit board 22, and a super capacitor for supplying power are disposed in the housing 2; the heating component 20 and the contact circuit board 21 are electrically connected with the main circuit board 22; the main circuit board 22 obtains a body temperature predicted value from the outside or obtains the body temperature predicted value in a local storage, and controls the heating assembly 20 to operate to enable the electronic thermometer 1 to reach the body temperature predicted value;

by applying the device, the electronic thermometer 1 is heated to the predicted body temperature value before the electronic thermometer 1 is taken out for use, then the electronic thermometer 1 is taken out for detection, the electronic thermometer 1 is adaptively adjusted to a stable reading state according to the actual body temperature, and the body temperature can be obtained, the actual body temperature value can be directly and rapidly displayed by the mode, the time for accurately measuring the body temperature is greatly reduced, and the time for obtaining the actual body temperature value is shortened to 20-30 seconds from 5-10 minutes of a common thermometer; in addition, the power supply of the thermometer adopts a super capacitor, so that the thermometer can be repeatedly charged and discharged for tens of thousands of times, and the service life of the thermometer is prolonged by hundreds of times compared with that of a common electronic thermometer;

it should be noted that the mode of obtaining the body temperature predicted value through the outside may be obtained by the server through calculation of an existing algorithm according to historical temperature measurement data, and the mode of obtaining the body temperature predicted value locally may be obtained through calculation of algorithms such as a time series method.

Reference numeral 26 in fig. 1 denotes an operation key;

preferably, the housing 2 is further provided with a communication module for communicating with the outside, and the communication module is electrically connected with the main circuit board 22; the body temperature data convenient for measurement are sent out, and the body temperature predicted value of the outside world is obtained.

Preferably, the housing 2 is provided with a receiving groove for inserting and receiving the electronic thermometer, and the contact circuit board 21 and the main circuit board 22 are both arranged in the receiving groove; the wholeness is good, and rational in infrastructure and compact.

Preferably, the contact circuit board 21 is provided with an elastic contact 210 electrically connected with the communication contact and the charging contact of the electronic thermometer 1; the thermometer in the inserted state is convenient to charge and read measurement data.

Preferably, a temperature probe bracket 24 for positioning the temperature probe is arranged in the shell 2; the heating assembly 20 comprises an automatic power-off heating module arranged on the temperature probe bracket; the wholeness is good, and rate of heating is fast and can be better set for and automatic power-off protection when the temperature is too high.

Preferably, an electronic control locking component 25 for locking the electronic thermometer is arranged in the shell 2, and the electronic control locking component 25 is controlled by the main circuit board 23; preferably, the electronic control locking assembly can adopt a small door lock switch PR001 and the like, so that the electronic thermometer is conveniently positioned and locked.

Preferably, the main circuit board 23 is provided with a wireless communication singlechip, and the wireless communication singlechip is electrically connected with a thermistor for detecting the temperature of the heating assembly; the I/O interfaces on the wireless communication singlechip are butted with the modules, so that the control can be conveniently carried out, and meanwhile, the temperature of the heating assembly is detected through the thermistor, so that better overheating protection can be carried out; the wireless communication singlechip can adopt a Bluetooth type, a WIFI type, a 433 type and the like.

A method for automatically reminding temperature measurement and rapidly measuring body temperature applies the device for automatically reminding temperature measurement and rapidly measuring body temperature, as shown in fig. 3, and referring to fig. 4 and 5, the implementation method is as follows:

the system detects whether networking is performed:

if the online body temperature is connected with the network, the server side operates an artificial intelligence algorithm according to historical data to obtain an online body temperature predicted value, the server side sends the online body temperature predicted value to the online body temperature prediction device, and the system detects whether the online body temperature predicted value is received or not: if the local historical data is not received, running a local prediction algorithm on the local historical data of the device to obtain a local body temperature prediction value and heating the thermometer to the local body temperature prediction value;

if the network is not connected, running a local prediction algorithm on local historical data of the device to obtain a local body temperature prediction value and heating the thermometer to the local body temperature prediction value; one such local prediction algorithm is the average of the first three measurements.

The method can directly and quickly display the measured body temperature value, greatly reduce the time for accurately measuring the body temperature, and shorten the time for obtaining the measured body temperature value to 20-30 seconds from 5-10 minutes of a common thermometer.

The utility model discloses a method for automatically reminding temperature measurement and quickly measuring body temperature, which further comprises the following steps:

when a temperature measurement key is pressed down and the timing temperature measurement time reaches or receives a temperature measurement instruction, the heating assembly is powered on to heat the thermometer, the current temperature of the thermometer is detected, the heating assembly is powered off when the temperature reaches a predicted temperature value, and the outside is reminded to take away the preheated thermometer;

the thermometer is convenient to operate before being taken, can be well reminded, and is good in applicability.

The utility model discloses a method for automatically reminding temperature measurement and quickly measuring body temperature, which further comprises the following steps:

the thermometer is contacted with the body and measures the temperature, and when the detection value of the thermometer does not change within a set time, the thermometer reminds the outside to finish the measurement;

if the thermometer with the temperature measurement completed is not returned to the shell within a set time, the thermometer reminds the outside to return, if the thermometer is returned, the system reads thermometer data and uploads the data to the server, the thermometer is charged when the voltage of the thermometer is lower than a set voltage, and the thermometer reminds when the detected temperature exceeds a normal range;

the system can remind the user of the user by himself when the user forgets to return the user, and can automatically perform data processing, high-burning and low-burning alarm and automatically perform low-power charging after the user returns the user.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the utility model as defined in the appended claims.

Claims (7)

1. An automatic temperature reminding and measuring and rapid body temperature measuring device comprises an electronic thermometer and a shell for accommodating the electronic thermometer, and is characterized in that a heating component for heating a temperature probe of the electronic thermometer, a contact circuit board for contacting and detecting the reading of the electronic thermometer in the shell, a main circuit board and a super capacitor for supplying power are arranged in the shell; the heating assembly and the contact circuit board are electrically connected with the main circuit board; the main circuit board obtains a body temperature predicted value from the outside or obtains the body temperature predicted value in a local storage, and controls the heating assembly to operate to enable the electronic thermometer to reach the body temperature predicted value.

2. The device for automatically reminding temperature measurement and rapidly measuring body temperature according to claim 1, wherein a communication module for communicating with the outside is further arranged on the housing, and the communication module is electrically connected with the main circuit board.

3. The device for automatically reminding temperature measurement and rapidly measuring body temperature according to claim 1 or 2, wherein a receiving groove for inserting and receiving the electronic thermometer is formed in the housing, and the contact circuit board and the main circuit board are both arranged in the receiving groove.

4. The device for automatically reminding measuring temperature and rapidly measuring body temperature according to claim 3, wherein the contact circuit board is provided with elastic contacts which are correspondingly and electrically connected with the communication contacts and the charging contacts on the electronic thermometer.

5. The device for automatically reminding temperature measurement and rapidly measuring body temperature according to claim 3, wherein a temperature probe bracket for positioning the temperature probe is arranged in the shell; the heating assembly comprises an automatic power-off heating module arranged on the temperature probe bracket.

6. The device for automatically reminding measuring temperature and quickly measuring body temperature according to claim 3, wherein an electronic control locking component for locking the electronic thermometer is arranged in the shell, and the electronic control locking component is controlled by the main circuit board.

7. The device for automatically reminding temperature measurement and quickly measuring body temperature according to claim 1 or 2, wherein a wireless communication single chip microcomputer is arranged on the main circuit board, and the wireless communication single chip microcomputer is electrically connected with a thermistor for detecting the temperature of the heating assembly.

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