CN111551283A - Wearable continuous temperature measurement barrier-free human body temperature measurement device - Google Patents

Abstract

The invention discloses a wearable body temperature measuring device capable of continuously measuring temperature without hindrance, which comprises a temperature measuring probe, a main body part, a pocket and a data processing module, wherein the temperature measuring probe is connected with the main body part through a flexible connecting part, the flexible connecting part is made of elastic flexible materials, the main body part is tightly wrapped by the pocket, the pocket is arranged on underwear, the temperature measuring probe continuously detects the body temperature at a specified time interval and sends original temperature measuring data and corresponding time data to the data processing module, the data processing module is provided with a lowest temperature threshold and a highest temperature threshold of each time stage, the data processing module is used for comparing the obtained original temperature measuring data with the lowest temperature threshold and the highest temperature threshold of the corresponding time stage and keeping the original temperature measuring data between the lowest temperature threshold and the highest temperature threshold of the time stage, as an effective body temperature value.

Description

Wearable continuous temperature measurement barrier-free human body temperature measurement device

Technical Field

The invention belongs to the technical field of intelligent temperature measurement, particularly relates to a temperature measuring device, and particularly relates to a wearable sustainable temperature measurement barrier-free human body temperature measuring device.

Background

The new coronavirus is mainly transmitted through respiratory droplets, close contact and other ways, based on the current epidemiological investigation, the latent period is 1-14 days, mostly 3-7 days, the latent period has infectivity, asymptomatic infectors can also become sources of infection, and the population is generally susceptible. After the new coronavirus is infected, the initial symptoms of a patient are fever, hypodynamia and dry cough, severe manifestations such as dyspnea and the like gradually appear, and acute respiratory distress syndrome or septic shock can appear in some severe cases, and even death can occur. At present, because the lack of effective antiviral drugs against pathogens is mainly used for isolation treatment and symptomatic support treatment, whether infected persons or even asymptomatic infected persons can be identified and isolated before the vaccine comes out is the central importance of epidemic prevention work at present.

The identification of patients with fever by measuring body temperature is one of the main means of detection at present, however, some asymptomatic infected persons have no symptoms of continuous fever, and occasionally, the patients cannot be identified by one-time temperature measurement, so that equipment capable of continuously measuring temperature is needed.

In the prior art, thermometers capable of continuously measuring temperature are generally fixed on a body in a binding belt or adhesive tape mode. After the binding time is long, the thermometer is skewed due to the action of the human body, so that the measurement is inaccurate, or the binding is too tight, so that the measurement part of the thermometer sticks to the human body, and people feel uncomfortable; the adhesive plaster is stuck on the body, which can cause allergic pruritus of the skin at the stuck part, thereby being difficult to maintain for long-time measurement.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the wearable continuous temperature measurement barrier-free human body temperature measurement device, which can not only continuously measure the temperature, but also feel comfortable when measuring the temperature, thereby ensuring the accuracy of temperature measurement.

The invention is realized by the following technical scheme:

a wearable continuous temperature measurement barrier-free human body temperature measurement device comprises a temperature measurement probe, a main body part, a pocket and a data processing module, wherein the temperature measurement probe is connected with the main body part through a flexible connecting part, the flexible connecting part is made of elastic flexible materials, the main body part is tightly wrapped by the pocket, the pocket is arranged on underwear, the temperature measurement probe continuously detects the body temperature at a specified time interval and sends original temperature measurement data and corresponding time data to the data processing module, the data processing module is provided with a minimum temperature threshold and a maximum temperature threshold of each time stage, the data processing module is used for comparing the obtained original temperature measurement data with the minimum temperature threshold and the maximum temperature threshold of the corresponding time stage and keeping the original temperature measurement data between the minimum temperature threshold and the maximum temperature threshold of the time stage, as an effective body temperature value.

Further, the data processing module is arranged in the main body part, a display window is arranged on the main body part, and the display window is used for displaying the effective body temperature value.

Further, the data processing module is arranged in the main body part, the main body part is also provided with a wireless receiving and transmitting module, and the effective body temperature value obtained by the data processing module is transmitted to the outside of the temperature measuring device through the wireless receiving and transmitting module.

Furthermore, the data processing module is arranged outside the temperature measuring device, the main body part is provided with a wireless transceiver module, and the original temperature measuring data and the corresponding time data are sent to the data processing module outside the temperature measuring device through the wireless transceiver module.

Further, the flexible connecting part is a silica gel sleeve.

Furthermore, an alarm module is further arranged, and when the temperature value is higher than a specified highest value or lower than a specified lowest value, the alarm module gives an alarm prompt.

Further, the data processing process of the data processing module includes:

raw temperature and time data were acquired: the original temperature data comes from the temperature sensing probe, and the temperature measuring device continuously measures the temperature and reports the temperature value and temperature measuring time data in real time when working;

obtaining an effective body temperature value: filtering the reported original temperature data, and keeping an effective value, namely comparing the obtained original human body temperature data with a set lowest temperature threshold and a set highest temperature threshold, and keeping the original human body temperature data between the lowest temperature threshold and the highest temperature threshold as an effective body temperature value;

selecting an integral point body temperature value: selecting the most consistent temperature of the temperature-measured person in the integral time period from the effective body temperature values reported in the integral time period as the integral point body temperature value of the nearest integral point of the temperature-measured person;

selecting the highest body temperature value within the latest specified time length: used for judging whether the temperature-measured person has fever within the latest specified time.

The invention has the beneficial effects that:

the invention provides a wearable body temperature measuring device capable of continuously measuring temperature without obstruction, which can continuously measure temperature and simultaneously feel comfortable during temperature measurement, and particularly adopts a flexible connecting part, the soft characteristic of the flexible connecting part can be used as a buffer between a temperature measuring probe and the skin of a human body, so that the discomfort caused by the fact that a hard object pokes into the skin is reduced, the device is free from obstruction to the human body, and is convenient to wear, thereby ensuring the accuracy of temperature measurement and improving the use experience of a user. When the data processing module is matched with the wireless transceiving module, the real-time comprehensive monitoring of the body temperature of a group scene can be realized, and high-risk individuals with abnormal body temperature in the group can be screened out in time.

Drawings

FIG. 1 is a schematic perspective view of a temperature measuring device according to the present invention;

FIG. 2 is a front view of the temperature measuring device of the present invention;

FIG. 3 is a side view of the thermometric apparatus of the present invention;

FIG. 4 is a flow chart of a data processing method of the data processing module of the present invention;

wherein: 1. a temperature measuring probe; 2. a flexible connection; 3. a main body portion.

Detailed Description

The preferred mechanisms and methods of effecting movement of the present invention are further described in the following detailed description and in the accompanying drawings.

Example one

As shown in figures 1-3, the wearable sustainable temperature measurement barrier-free human body temperature measurement device comprises a temperature measurement probe 1 and a main body part 3, wherein the temperature measurement probe 1 is connected with the main body part 3 through a flexible connecting part 2. In this embodiment, the temperature probe 1 adopts a conventional temperature measurement method, for example, a temperature sensitive diode can be used for measuring temperature, and then is connected to the main body 3 through a wire.

The flexible connecting part 2 is made of elastic flexible material, for example, a silica gel sleeve is adopted to wrap the metal wire. The advantages of using a flexible connection are: 1. the silica gel sleeve can play a role in protecting the internal metal wire; 2. the soft characteristic of the flexible connecting part can be used as the buffer between the temperature measuring probe 1 and the skin of the human body, so that the uncomfortable feeling of a hard object stabbed into the skin is reduced, the position of the temperature measuring probe can be automatically adjusted according to the characteristics of a measuring part, and the use experience of a user is improved; 3. because flexible connecting portion have the resilience ability, even because the motion of human body leads to the temperature probe skew to be positioned the position, this skew is also only transient, and the temperature probe can reply initial condition fast to guarantee that the temperature measurement process has sustainability.

The main body part 3 comprises a shell, a pocket is arranged outside the shell and can be a net bag, a cloth bag or similar objects, a bandage is arranged on the pocket, the main body part of the temperature measuring device can be tightly wrapped by the human body temperature measuring device through the pocket, and the pocket is arranged on underwear through the bandage, so that the temperature measuring probe is enabled to be close to a part to be measured, such as an armpit or a thigh root part.

A data processing module is arranged in the shell of the main body part 3, for example, a data processing module is embedded in an MCU of the temperature measuring device, the temperature measuring probe continuously detects the body temperature at specified time intervals and sends the original temperature measuring data and the corresponding time data to the data processing module, the data processing module is provided with a minimum temperature threshold and a maximum temperature threshold of each time phase, and the data processing module is configured to compare the obtained original temperature measuring data with the minimum temperature threshold and the maximum temperature threshold of the corresponding time phase and retain the original temperature measuring data between the minimum temperature threshold and the maximum temperature threshold of the time phase as an effective body temperature value.

The present embodiment provides two implementation schemes for disposing the data processing module in the main body portion:

firstly, the effective body temperature value obtained by the data processing module is directly displayed on the temperature measuring device in the conventional mode, and the details are not repeated;

and secondly, the effective body temperature value obtained by the data processing module is sent to a main body part external mechanism through the wireless transceiving module, for example, a background control center can be arranged at a centralized monitoring place to serve as the external mechanism, and the wireless transceiving module sends the effective body temperature value obtained by the data processing module to the background control center in real time, so that the real-time comprehensive monitoring of the body temperature in a group scene can be realized, and the abnormal body temperature high-risk individuals in the group can be screened out in time. It should be understood that this embodiment is only a specific example of an arrangement manner of the data processing module, and besides, a person skilled in the art may derive other similar implementation manners, for example, the data processing module is arranged in a handheld mobile terminal, a local computer or a server, a network server, and a cloud server, and these similar arrangement manners should be included in the protection scope of the present invention.

As shown in fig. 4, the data processing procedure of the data processing module includes:

1) raw temperature and time data were acquired: the original temperature data comes from the temperature sensing probe, and the temperature measuring device can be fixed on the body of a person to be measured, continuously measures the temperature during working and reports the temperature value and temperature measuring time data in real time.

2) Obtaining an effective body temperature value: and filtering the reported original temperature data, and reserving an effective value, namely comparing the obtained original human body temperature data with a set lowest temperature threshold and a set highest temperature threshold, and reserving the original human body temperature data between the lowest temperature threshold and the highest temperature threshold as an effective body temperature value.

3) Selecting an integral point body temperature value: and selecting the most consistent temperature of the temperature-measured person in the integral time period from the effective body temperature values reported in the integral time period as the integral point body temperature value of the nearest integral point of the temperature-measured person.

4) Selecting the highest body temperature value within the latest specified time length: used for judging whether the temperature-measured person has fever within the latest specified time.

In order to prompt the dangerous situation in time, the present embodiment may further include an alarm module, and when the detected temperature that is determined to be invalid is lower than the specified minimum body temperature value, or the detected body temperature value is higher than the specified maximum body temperature value, an alarm signal is sent. It should be noted that the alarm module may be disposed on the main body portion for prompting an abnormal condition (for example, prompting an abnormal body temperature to a temperature-measured person), or may be disposed outside the main body portion for prompting an abnormal condition (for example, prompting a monitoring person to take a preventive and control measure).

The main body part 3 can also be provided with a button which is used for starting or closing the temperature measuring device; a micro power supply, such as a button battery, can be arranged in the shell of the main body part 3 to provide power for the whole temperature measuring device.

The temperature measuring device can be fixed on the inner side of the clothes through the fixing piece on the shell at the position to be detected according to the detection requirement. The preferred human body detection part is the armpit or the thigh root, so that the temperature sensing probe is always aligned with the part to be detected.

Example two

The structure of this embodiment is basically the same as that of the first embodiment, except that in this embodiment, the data processing module is disposed outside the main body portion, for example, the data processing module is disposed in a handheld mobile terminal, a local computer or server, a network server, or a cloud server.

The body part is internally provided with a wireless transceiver module, the temperature measuring probe continuously detects the body temperature according to a specified time interval, original temperature measuring data and corresponding time data are sent to a data processing module outside the temperature measuring device through the wireless transceiver module in the body part, the data processing module is provided with a minimum temperature threshold and a maximum temperature threshold of each time stage, and the data processing module is used for comparing the obtained original temperature measuring data with the minimum temperature threshold and the maximum temperature threshold of the corresponding time stage and keeping the original temperature measuring data between the minimum temperature threshold and the maximum temperature threshold of the time stage as an effective body temperature value. And then the real-time remote monitoring can be carried out on the person to be measured.

It should be noted that the thermometric apparatuses of the first and second embodiments are particularly suitable for comprehensive monitoring of body temperature in group scenes (e.g., automatic continuous body temperature monitoring of large-scale personnel in hospitals, schools and centralized isolation areas). The system can reduce the contact between monitoring personnel or medical personnel and patients, and can know the real-time dynamic body temperature of all monitored personnel in real time, thereby screening and screening the high-risk individuals with abnormal body temperature in the group in time.

Finally, it should be noted that: although the present invention has been described in detail with reference to the embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. A wearable continuous temperature measurement barrier-free human body temperature measurement device is characterized by comprising a temperature measurement probe, a main body part, a pocket and a data processing module, wherein the temperature measurement probe is connected with the main body part through a flexible connecting part, the flexible connecting part is made of elastic flexible materials, the main body part is tightly wrapped by the pocket, the pocket is arranged on underwear, the temperature measurement probe continuously detects the body temperature at specified time intervals and sends original temperature measurement data and corresponding time data to the data processing module, the data processing module is provided with a minimum temperature threshold and a maximum temperature threshold of each time stage, the data processing module is used for comparing the obtained original temperature measurement data with the minimum temperature threshold and the maximum temperature threshold of the corresponding time stage and keeping the original temperature measurement data between the minimum temperature threshold and the maximum temperature threshold of the time stage, as an effective body temperature value.

2. The wearable continuous temperature measurement unobstructed human body temperature measurement device of claim 1, wherein the data processing module is disposed within the main body portion, the main body portion having a display window thereon, the display window being configured to display the effective body temperature value.

3. The wearable body temperature measuring device capable of continuously measuring temperature without hindrance according to claim 1, wherein the data processing module is disposed in the main body portion, the main body portion is further provided with a wireless transceiver module, and the effective body temperature value obtained by the data processing module is transmitted to the outside of the temperature measuring device through the wireless transceiver module.

4. The wearable body temperature measuring device capable of continuously measuring temperature without hindrance as claimed in claim 1, wherein the data processing module is disposed outside the temperature measuring device, the main body portion is disposed with a wireless transceiver module, and the original temperature measuring data and the corresponding time data are transmitted to the data processing module outside the temperature measuring device through the wireless transceiver module.

5. The wearable continuous temperature measurement unobstructed human body temperature measurement device of claim 1, wherein the flexible connection portion is a silicone sleeve.

6. The wearable continuous temperature measurement barrier-free human body temperature measurement device according to claim 1, further comprising an alarm module, wherein when the temperature value is higher than a specified maximum value or lower than a specified minimum value, the alarm module sends out an alarm prompt.

7. The wearable continuous temperature measurement unobstructed human body temperature measurement device of claim 1, wherein the data processing process of the data processing module comprises:

raw temperature and time data were acquired: the original temperature data comes from the temperature sensing probe, and the temperature measuring device continuously measures temperature and reports temperature value and temperature measuring time data in real time when working;

obtaining an effective body temperature value: filtering the reported temperature original data, and keeping an effective value, namely comparing the obtained original human body temperature data with a set lowest temperature threshold and a set highest temperature threshold, and keeping the original human body temperature data between the lowest temperature threshold and the highest temperature threshold as an effective body temperature value;

selecting an integral point body temperature value: selecting the most consistent temperature of the temperature-measured person in the integral time period from the effective body temperature values reported in the integral time period as the integral point body temperature value of the nearest integral point of the temperature-measured person;

selecting the highest body temperature value within the latest specified time length: used for judging whether the temperature-measured person has fever within the latest specified time.

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