KR20220083514A - Thermometer smartwatch and information management system - Google Patents

Abstract

The present invention combines a watch-type wearable device with an infrared sensor to add a body temperature measurement function, and furthermore, a short-distance communication technology using an RFID tag is used to quickly create a personal list between facility entrances and exits.
Individual users and facility managers using this device can use the dedicated smartphone application.
It can be installed to manage personal health records and access records, and in data processing, it is possible to perform accurate and efficient work through the application server.

Description

Thermometer smartwatch and information management system

The present invention is based on a body temperature measurement function using an infrared sensor in a general type wristwatch and a short-range wireless communication technology using an RFID tag. to register

This is to relieve the hassle.

In general, in the case of thermometers used in the market, there are contact and non-contact types.

can be distinguished The type of contact is mainly to insert a metallic measuring instrument into the ear canal.

Although it is a shape, it is difficult for many to measure it with one thermometer due to a hygiene problem. Therefore, most of the current thermometers measure body temperature in a non-contact form, mainly using an infrared sensor. The method of measuring body temperature using an infrared sensor requires a light receiving and transmissive lens to generate infrared rays and absorb thermal radiation, and to measure body temperature. A distance sensor to measure the distance to an object is required in addition to the sensor for

The infrared sensor absorbs thermal radiation from the surface of an object and converts it into an electrical signal.

It serves to measure the temperature by converting the intensity.

The stronger the strength, the higher the temperature is measured, and it can be converted into digital data by connecting to a processing device including a separate CPU.

The distance sensor calculates the distance to the object by measuring the time until it is absorbed again by the thermometer after emitting infrared rays to the object.

Since the accuracy of the non-contact thermometer decreases as the distance from the object increases, the measured body temperature value is statistically analyzed according to the distance and corrected to approximate the average value.

[Document 1] Republic of Korea Patent Publication No. 10-2016-0033173 (published on March 25, 2016) [Document 2] Republic of Korea Patent Publication No. 10-2017-0011521 (published on February 2, 2017) [Document 3] Republic of Korea Patent Publication No. 10-2009-0097577 (published on September 16, 2009) [Document 4] Republic of Korea Patent Publication No. 10-2016-0033173 (published on June 25, 2010)

Due to the long-term continuation of Corona 19, the present invention is

In order to manage the number of people entering the facility, the body temperature of facility users is measured every time.

It solves the trouble of creating a list by hand or registering a QR code using a smartphone by having to create a self-examination table and the problem of having to have regular maintenance personnel.

It aims to enable efficient and rapid access control.

The present invention is based on a wearable device that an individual can directly measure his or her body temperature at all times, and facility managers and users use a smartphone application linked with this device.

Upon entering and exiting the facility, it provides the facility with its own body temperature and health questionnaire through short-distance wireless communication using an RFID tag directly without the need for verification by a separate person.

The present invention can reduce the financial burden of having a thermometer to measure the body temperature of visitors from the facility's point of view, and reducing the financial burden of resident staff.

Responsibilities for managing the roster can also be reduced. In the case of facility users, it is possible not only to directly measure body temperature to be aware of their health status at all times, but also to access the wearable device by bringing the wearable device close to the smart phone or tag sensor installed at the entrance without a separate body temperature measurement and list registration process. It is available quickly and conveniently.

1 is a structural diagram of a wrist watch-type thermometer having a body temperature measurement and management function;
Figure 2 is a flow chart of the information processing process of the smart phone application conceived in the present invention.

The present invention will be described in detail with reference to the accompanying drawings as follows.

1 of the infrared sensor (11) charging lamp (12) operation lamp (13) LCD panel (14)

1 shows a form of a wearable device having a body temperature measurement function.

In the upper left of the front part, the infrared lens 11 and the sensor are combined, and a pair of LED lamps are located on the right, the left lamp 12 indicates the charging state, and the right lamp 13 indicates the operating state.

When charging is required, the left lamp 12 blinks in red and does not work when charging is complete.

The right lamp 13 flickers in green when wireless communication between this device and other devices is successful.

The liquid crystal 14 occupying the entire front part is constituted by an LCD panel.

The rear part consists of a processing unit including a CPU, a storage device with a micro SD card, and a battery. The battery uses a lithium-ion battery and can be charged with a home smartphone charger through the charging terminal on the back.

2 is a flowchart of a process of writing and storing body temperature and personal identification information as a personal list after receiving the body temperature and personal identification information from the smart watch of facility visitors from the facility manager's smartphone.

Individual visitors who use a smart watch are identified with a unique identification number for each smart watch.

Enter your contact information and health questionnaire into the dedicated smartphone application.

The facility manager provides information such as the name of the facility, industry, location, and contact information to the application.

Register and place the smart phone installed with the application at the entrance of the facility.

When entering the facility, the body temperature is measured with an individual's smart watch and then brought to a short distance with the smart phone placed by the facility manager (hereinafter referred to as the manager's smartphone) to recognize the RFID tag.

The manager's smartphone, which has received the individual's body temperature information and unique identification number through the tag, first checks whether both pieces of information have been received. If all are not received, it returns to the data reception standby state.

If the data reception is successful, the manager's smartphone connects to the server through the application.

Check whether the personal identification number received by communication is registered in the server. If the number is not registered, it returns to the data reception standby state as in the above situation.

If an individual identification number is registered in the server, body temperature information, identification number, and access time are registered in the server based on the information registered by the administrator's smartphone.

If all of the above procedures are successful, a data transmission/reception success signal is transmitted to the smart watch.

The right lamp 13 of the smart watch that has received this blinks in green, and the transmission/reception process ends.

Claims (3)

A smart watch that has a body temperature measurement function by installing an infrared body temperature sensor on a wristwatch-type smart watch and stores user information and body temperature measurement results in a storage device in the device and data through wireless communication using an RFID tag with an external device Personal devices that send and receive The external device (smartphone) that converts the measured body temperature information into an electrical signal together with the identification number for each smart watch device according to claim 1 and transmits the information through short-distance wireless communication through an RFID tag The smartphone application according to claim 2, which has an operating structure that processes transmitted and received data and creates and manages a personal list between facility entrances and exits.

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