KR20160104327A - Baby thermometer with the alarm system - Google Patents

Abstract

The present invention includes a thermometer having a central processing unit, a temperature sensor, and a communication module, a receiving unit having a central processing unit, a communication module, and a display, and the central processing unit of the thermometer measures measurement data measured by the temperature sensor And the central processing unit of the thermometer transmits the measured data to the receiving unit through the communication module when the measured data is out of the predetermined range, By transmitting an alarm signal, it is possible to remotely check the measured values such as temperature, pulse, and sound, to check the infant's state as a sound signal when the user is away from the infant, and to provide a receiver equipped with an alarm function, It is possible to provide an alarm system that allows the receiver to be carried easily.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a thermometer for an infant having an alarm system,

The present invention relates to an infant thermometer, and more particularly, to an infant thermometer that measures the temperature, pulse or sound of an infant and, if the measured value exceeds a reference value, notifies a parent or an administrator through an alarm system via a local area network And more particularly to an infant thermometer provided with an alarm system that also provides an alarm system interlocked with a smart watch or a portable terminal application.

In general, dangerous high fever and temperature drop during infancy and childhood show various complex symptoms and there is a high risk of spreading to various diseases ranging from epidemic enteritis, anemia, measles, atopy, pediatric hearing loss, tonsillitis, And it is urgently necessary for parents to cope with the child's high fever or poor circulation promptly.

It is very important to check the infant's body temperature from time to time, but the conventional method of inserting the infant body temperature is not only painful but also stressful to the baby and difficult for the parents.

Therefore, in the case of infants and children, there is a difficulty that a guardian should always be by his side. For this purpose, a risk signal of the measured data is transmitted to the parents as an alarm function, so that a method of immediately responding to the health condition of the child is suggested.

Accordingly, Korean Utility Model Application No. 20-2008-0002006 discloses that "a baby cradle equipped with a sensor for measuring and measuring infrared body temperature and a display panel for displaying the infrared cradle, A device capable of analyzing, analyzing and transmitting an audible signal to a parent and analyzing result,

Korean Patent Laid-Open Publication No. 10-2014-0116579 discloses a method of connecting a thermometer and a mobile device so as to enable Bluetooth communication, setting a body temperature check period of the clinical thermometer in the mobile device, And transmitting body temperature information, which is checked by a clinical thermometer, to the mobile device, and displaying body temperature information for each body temperature check period on a display unit of the mobile device. Smart body temperature management method using. "

However, not only the temperature but also the pulse and sound can not be measured. Even when the guard is away from the infant, it is not easy to immediately check the infant's condition. Also, the protector has a problem that the alarm receiver can not be carried easily It is also true.

In addition, it is possible to easily carry a receiver equipped with an alarm function, as well as being able to easily carry a protector while measuring temperature, pulse, sound, etc., The development is urgent.

Prior Art 1: Korean Utility Model No. 20-2008-0002006 (June 23, 2008) Prior Art 2: Korean Patent Publication No. 10-2014-0116579, Disclosure Date (October 06, 2014)

The present invention provides a receiver capable of remotely checking measurement values such as temperature, pulse, sound, and the like, and can confirm the state of the infant as a sound signal while being apart from the infant and has an alarm function, So that it can be carried easily.

The object of the present invention can be achieved by a thermometer including a central processing unit, a temperature sensor and a communication module, a central processing unit, a communication module, and a receiving unit having a display, To the receiving unit via the communication module, and the receiving unit displays the received measurement data on the display or stores the measurement data in the memory unit of the receiving unit, and when the measured data is out of the predetermined range, And the receiving unit is a smart watch or a smart phone.

The receiving unit central processing unit transmits the alarm signal through the communication module when the received measurement data is out of a predetermined range,

In addition, the thermometer measures pulse and sound, the receiver central processing unit requests a sound signal transmission through a communication module, and the thermometer central processing unit 54, which is requested to transmit a sound signal through the communication module, on.

Meanwhile, the thermometer central processing unit converts the signal output through the input unit microphone into a radio signal and transmits the radio signal to the receiving unit through the communication module. The receiving unit central processing unit, which receives the voice signal through the communication module, Outputs a signal to a sound,

According to the present invention, it is possible to remotely check the measured values of temperature, pulse, sound, etc., and to confirm the state of the infant as a sound signal when the user is away from the infant, The present invention can provide an alarm system that allows a receiver to be carried easily, and a system that can receive an alarm signal while remotely checking measurement values such as temperature, pulse, and sound in an application manner in cooperation with a portable electronic device .

1 is a diagram of an embodiment of a thermometer of the present invention capable of remote data transmission.
2 is a diagram of an embodiment showing a block diagram of an infant thermometer of the present invention.
Figures 3 and 4 are views of embodiments showing how a temperature sensor is attached to a thermometer body.
5 to 9 are views of an embodiment showing a device capable of receiving data from the thermometer of the present invention.
10 and 11 show a method of an embodiment showing a method of storing various data in a portable terminal.
Figs. 12 to 15 are views showing embodiments in the case of a plurality of thermometers. Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The configuration of the present invention and the operation and effect thereof will be clearly understood through the following detailed description.

In addition, a detailed description of the known technology may be omitted.

The present invention is an infant thermometer which can transmit data remotely as a wireless signal by sensing a pulse and a sound signal, and can transmit an alarm signal when the measured result exceeds a predetermined value.

For example, 36.4 ~ 38 ℃ for newborn ~ 2 years, 36.1 ~ 37.8 ℃ for 3 ~ 10 years, 35.9 ~ 37.6 ℃ for ages between 11 ~ 65 years, 65 years old or older Can be seen in the normal temperature range of 36.8 to 37.5 캜, so that the alarm system is activated when the temperature exceeds the normal temperature range.

Similarly, in the case of pulses, the average pulse rate of a person ranges from 50 to 60 times per minute, and when the pulse rate of a newborn is usually 120 to 140 times, when the pulse rate falls outside the normal range of the pulse, the alarm system is activated It is possible.

- Example 1 -

1 is a diagram of an embodiment of a thermometer of the present invention capable of remote data transmission.

As shown in FIG. 1, the thermometer of the present invention comprises a string 52 and a main body 51. The string 52 is made of soft rubber or resin and has elasticity so that the thermometer 50 can be mounted on the child's ankle. Therefore, it is preferable that the thermometer main body 51 is made to have a size of about 2 to 5 cm, which can be worn on an infant's ankle, and the diameter of the string 52 is made to correspond to the thickness of the infant's average ankle More effective use is possible.

Of course, although it is omitted in the present invention, it is natural that the length of the line 52 can be adjusted.

The main body 51 is provided with a control button 55, and a display 53 is mounted so that the measured values such as temperature and pulse can be checked.

2 is a diagram of an embodiment showing a block diagram of an infant thermometer of the present invention.

The central processing unit 54 provided in the thermometer main body 51 controls the display unit 53, the communication module 56, the sensor 57 and the like. At this time, the control method is executed by a predetermined algorithm And can also be executed by operation of an input unit 55 which is a control button. Although not shown in the block diagram of FIG. 2, a memory unit is further added to store an algorithm or measurement data.

Meanwhile, the communication module is a module capable of transmitting measurement data through a LAN, and includes an antenna. As the communication method of the communication module, it is preferable to use a short-range wireless communication method such as ZigBee, Bluetooth, WiFi, or the like.

The sensor 57 includes a temperature sensor, a pulse sensor, a microphone, and the like. Each sensor transmits measurement data to the central processing unit at a predetermined time period. That is, the central processing unit detects temperature, pulse, sound, and the like every predetermined time period.

Then, when the body temperature range is inputted into the central processing unit 54 or the memory unit in advance, the central processing unit 54 judges the abnormality of the measured body temperature based on the predetermined normal body temperature information. Therefore, when the body temperature information measured by the sensor 57 is higher or lower than the normal body temperature, the central processing unit 54 transmits an alarm signal to the receiver 100 through the communication module 56. (Of course, the thermometer main body 51 may be provided with a speaker or the like, and the alarm sound may also be output from the thermometer body.)

Accordingly, the receiving unit 100 carried by the protector receives the alarm signal transmitted from the thermometer.

That is, the receiving unit 100 (a terminal or a computer in the present invention) is a device capable of transmitting and receiving information via a wired / wireless communication network. Therefore, the receiving unit 100 is provided with a central processing unit (CPU) 104, a display unit 107 for displaying various information, a memory unit (not shown in FIG. 2) for storing various information, And a data output unit 109 capable of outputting information or data. Further, the communication module 106 is further provided and is capable of wired / wireless communication with the thermometer 50.

Meanwhile, it is natural that the data output unit may include a sound through a microphone, light through an LED element, a vibrator through a vibration motor, and the like.

Therefore, if the receiver 100 receives data in the normal range from the thermometer 50, the CPU 100 of the receiver 100 displays the data received through the display 57 , And the central processing unit (CPU) 104 of the receiving unit 100 stores the data transmitted to the memory unit.

At this time, the date and time can be stored and the storage effect can be further increased.

When the receiver 100 receives the alarm signal from the thermometer 50, the CPU 100 of the receiver 100 receives the sound, light, or vibration method And outputs the alarm signal.

Of course, there may be another way of outputting a notification signal.

That is, the thermometer transmits the measurement data, and the central processing unit 104 of the receiving unit 100, which has received the measurement data, determines the normal range and the abnormal range. If the range is normal, the data received through the display 57 is displayed And stores the received data in the memory unit. However, if it is in the abnormal range, the central processing unit (CPU) 104 of the receiving unit 100 outputs the alarm signal using the sound, light or vibration method through the output unit 109.

At this time, the following control method example can be applied to not only the temperature but also the pulse or sound signal.

In the present invention, another embodiment for controlling the thermometer can be used.

The receiver receiving the alarm signal for the sound in the thermometer outputs the alarm signal in accordance with the control method described above. The protector having received the alarm signal operates another control button to receive sounds generated in the vicinity of the thermometer in real time And the received sound signal is output through a receiver output unit (a speaker). By doing so, the guardian can indirectly check the infant's condition even when away from the infant. That is, the above process can be performed through the following steps.

Step 1: Receiving unit The central processing unit 104 receives a sound signal through a communication module,

Step 2: The central processing unit 104 judges whether the value is equal to or greater than the predetermined range, and if the value is out of the range, the central processing unit 104 alerts the user through the output section.

Step 3: Receiving unit The central processing unit 104 requests a sound signal transmission through the communication module. (In this case, it is possible to set it manually or automatically. .)

Step 4: The thermometer central processing unit 54, which is requested to transmit the sound signal through the communication module, turns on the microphone of the input unit.

Step 5: The thermometer central processor 54 converts the signal output through the input unit microphone into a radio signal and transmits it to the receiver through the communication module.

Step 6: The receiving unit, which receives the voice signal through the communication module, processes the received signal through the output speaker,

In other words, as another embodiment of the present invention, when the above step is performed, the guardian carrying the receiver 100 can check the state of the infant in real time as sound even if the guardian is not next to the infant. That is, the cry of the infant.

Figures 3 and 4 are views of embodiments showing how a temperature sensor is attached to a thermometer body.

FIG. 3 is a view showing the bottom part of the thermometer main body 51, in which the thermometer is attached to the skin of the infant but is a method using a spring device to reduce the load on the infant skin. That is, a spring groove 57d is formed in the bottom of the main body 51, a spring ball 57 is provided in the groove 57d, and a support plate 57 is further provided so that the bottom portion of the main body and the support plate 57 are connected . Therefore, the support plate 57 is connected to the bottom of the thermometer main body 51 through a spring to have some elasticity. A temperature sensor 57 is provided inside the support plate 57.

Accordingly, even if the portion where the temperature sensor 57 is located touches the infant skin, the pressure on the skin can be minimized, and also the adhesiveness can be provided to increase the temperature sensing effect.

FIG. 4 is a method for increasing the effect of temperature measurement by providing a soft plate on the thermometer body bottom 51 so that the plate 57b touches the skin of the infant.

In addition, when the thermometer body is made of a metal body or a plastic resin and directly touches the skin of the infant, a problem may occur in the skin of the infant. To prevent such a problem, the plate 57b is made of an environmentally friendly material harmless to the skin .

Similarly, in order to prevent electromagnetic waves, the plate 57 may contain a conductor component for preventing electromagnetic waves. Examples that can prevent electromagnetic waves can be achieved by containing a conductive powder in a true environmental resin.

A temperature sensor is positioned at the center of the plate 5b so that the temperature of the infant skin is transmitted to the sensor as much as possible.

- Example 2 -

Figures 5 to 9 are views of an embodiment of a device for receiving data from a thermometer of the present invention.

FIG. 5 is a view showing an embodiment in which a baby thermometer and a receiver can exchange data with each other as in the embodiment of FIGS. 1 and 2. FIG.

Therefore, the receiving unit 100 can be made to be mounted on the wrist of a protector so that the protector can be carried. Thus, the receiving unit 100 is composed of the main body 103 and the string 101 on which various components are mounted. The display unit 107 displays the measurement data so that the measurement data can be displayed on the receiving unit body 104. The display unit 107 displays the measurement data, A button 108 for inputting a control command is provided as an input unit.

6 is a view of an embodiment showing that the receiving unit can be a portable terminal.

Even if the receiver is the portable terminal 200, the functions of the receiver described in the previous embodiments of the present invention are performed with the same algorithm and step. However, the role of receiver is performed in the form of smartphone application.

The portable terminal 200 serving as a receiver is a conventional terminal, and includes a display 220 for displaying information and an input device 220 for inputting information.

7 is a block diagram of a terminal. In the drawing, the central processing unit 201 is a control means for controlling the overall operation of a terminal (a portable display device, a smartphone, or a computer in general) used in the embodiment of the present invention. The memory unit includes a ROM for controlling a program to be executed by the display device, a RAM for storing data generated at the time of executing the program, data required by the user, There may be an iipurium or the like which holds data necessary for processing.

The communication module (R / F unit) 206 is a radio frequency, tunes to an RF channel, amplifies various input signals, and converts an RF signal received from the antenna into a necessary frequency signal. At this time, information is transmitted / received to / from the outside through the antenna 204. Also, the input device 221 may be a device for inputting information or a keyboard provided at the upper end of the display, and the input device may include a driving unit (circuit module) for driving the input device.

In addition, the display unit 220 refers to a flat panel display that displays information such as LED, LCD, etc., and the display unit includes a display driving module. Also, an input / output unit may be further provided, and the input unit includes various information input devices, a numeric key, a menu key, and a selection key, and the output unit includes a speaker, a vibration device, and the like.

That is, there is a display driving circuit (driving module) that receives a signal output from the central processing unit 201 and drives the display, and the driving circuit outputs a signal capable of driving the display. In addition, the central processing unit controls the input device 221 through an input device driver (drive module). That is, when information is inputted through the input device, the input window drive unit transmits the input information to the central processing unit so as to output it.

8 is a diagram of an embodiment in which the receiver is a smart watch.

The smart watch 150 also includes a line 151, a main body 153, a display 157, and the like. Electronic components such as a central processing unit 151, a memory unit 152, a communication module 156, an input device 158 and a display 157 are provided. Further, the electronic component performs the functions described in the embodiment of FIG. 7 similarly. Likewise, the SmartWatch functions as a receiver in an application way.

9 is a diagram showing another embodiment of the receiving unit.

That is, the portable terminal 200 receives the measurement data from the thermometer 50, and the portable terminal 200 can transmit the received measurement data to the smart watch 150 again.

The smart watch 150 receives the measurement data from the thermometer 50 and the smart watch 150 can transmit the received measurement data to the portable terminal 200 again.

- Example 3 -

FIG. 10, FIG. 11, and FIG. 11 are methods of an embodiment showing a method of storing various data in a portable terminal.

10 is an exemplary diagram of a diary displayed on the display 200 of the terminal 200. [ There is a menu 220a for selecting a diary item (function) at the top, and a date can be selected in the form of a calendar in the center of the display. In addition, the date can be selected in the form of the calendar 220b is an example, and the date may be displayed in a list format instead of the calendar 220b.

At this time, advertisement (text or image form) 220d may be displayed at the lower end of the calendar 220b. The method of displaying the advertisement 220d may further include a separate advertisement server. The advertisement is selected from the database of the advertisement server, and the selected advertisement data is received. The advertisement display can be performed by connecting the advertisement server and the terminal through the wired / wireless Internet. That is, when the terminal application is executed, it is automatically connected to the advertisement server.

If the user selects the specific date 220c on the calendar 220b, an information list corresponding to the selected date 220c is displayed on the display 220 of the terminal 200 as shown in FIG. A selected date 207a, a schedule memo 207 for the selected date, and an item (function) 207b for recognizing detailed information on the selected date are displayed.

In addition, as shown in Fig. 11, a diary item stores a photograph, a moving picture, a health record, and the memo contents of a guardian. At this time, the health record is measured data such as temperature and pulse.

Example 4 -

Figs. 12 to 15 are views showing embodiments in the case of a plurality of thermometers. Fig.

That is, the method of the embodiment is applied when there are several infants to be protected, or when there are a plurality of patients who want to protect them in a hospital or a nursing home.

12, there are a plurality of thermometers such as the first thermometer 50-, the second thermometer 50-2, the third thermometer 50-3, and the nth thermometer 50-n, The two thermometers can perform wired / wireless communication with the terminal 300 (portable terminal or computer).

At this time, the terminal 300 that performs wired / wireless communication with the plurality of thermometers also serves as a receiving unit, and the role function of the receiving unit is applied to the first embodiment of the present invention.

13 shows a case where a plurality of thermometers, such as the first thermometer 50-, the second thermometer 50-2, the third thermometer 50-3, and the nth thermometer 50-n, And performs wired / wireless communication with the receiving unit 300. [ In this case, the repeater may be a portable terminal or a computer, or may be a communication device that receives and transmits data wirelessly. In this case, however,

(1) When the terminal 300 is a central computer

There are a plurality of infants or patients who want to protect in the hospital, measurement data received from the thermometers attached to the above-mentioned patients or infants are received by the terminals 350 existing in the respective bedrooms or bedrooms, And transmits the measurement data to the central computer 300 of the hospital.

(2) When the terminal 300 is a server

A plurality of infants or patients to be protected at the hospital, measurement data received from the thermometers attached to the patients or infants are received by the central computer 350 existing in each bed or room, and the central computer 350 transmits the received measurement data to the server 300 of the hospital.

At this time, the central computer 350 and the server 300 mutually exchange information through a wired / wireless Internet network.

14 is a diagram of an embodiment in the case where there are a plurality of protectors. 14, the central terminal 300 includes a plurality of thermometers (a first thermometer 50-, a second thermometer 50-2, a third thermometer 50-3, and an n-th thermometer 50-n) (The first guardian terminal 250-1, the second guardian terminal 250-2, the third guardian terminal 250-3 and the nth guardian terminal 250-3) owned by a plurality of guardians 250-n)

Even if a plurality of protector terminals exist, the plurality of protector terminals (the first protector terminal 250-1, the second protector terminal 250-2, the third protector terminal 250-3, Guardian terminal 250-n) perform the same functions as those described in the previous embodiments of the present invention. But only through the terminal 300 when exchanging measurement data with the thermometer 50.

FIG. 15 is a diagram of an embodiment showing how data is stored in a device in which information is stored in the terminal 300. FIG. There is a thermometer group, and each thermometer group exists as a thermometer list 256 from the first thermometer 50-1 to the nth thermometer.

There is a guardian who manages the thermometer group (a group that exists as the thermometer list 256), so that information 255 about the guardian exists.

Therefore, the device storing the information in the terminal 300 stores the thermometer list and the protector information for managing the thermometer list. In addition, the thermometer list includes "thermometer identification ID", "location information" where the thermometer is located, "patient information" to which the thermometer is attached, and other record data.

In addition, the parental information includes a parental ID and a parental ID, so that the parental ID and the parental ID can be communicated with the portable terminal managed by the parental guardian.

For example, the data measured in the first thermometer group 250a-1 is transmitted to the terminal 250-1 of the first protector managing the first thermometer group, and the data measured in the nth thermometer group 250a-n The data is transmitted to the terminal 250-n of the n-th guardian who manages the nth thermometer group.

50: thermometer 51: thermometer body
52: thermometer line 53:
54: Central processing unit 55: Input unit
56: communication module 57: sensor
100: Receiving unit 101: Receiving line
103: Receiving unit main body 104: Receiving unit Central processing unit
106: Receiving section communication module 107: Receiving section display
108: Receiving section output section 109: Receiving section output section
150: Smart Watch 200: Mobile terminal

Claims (5)

A thermometer provided with a central processing unit, a temperature sensor and a communication module,
A central processing unit, a communication module, and a receiving unit having a display,
The central processing unit of the thermometer transmits the measurement data measured by the temperature sensor to the receiver through the communication module,
The receiving unit may display the received measurement data on a display or store the measurement data in a memory unit of the receiving unit,
The central processing unit of the thermometer transmits an alarm signal through the communication module when the measured data is out of a predetermined range,
Wherein the receiving unit is a smart watch or a smart phone. The method according to claim 1,
Wherein the receiving unit central processing unit transmits an alarm signal through the communication module when the measured data is out of a predetermined range. The method according to claim 1,
Wherein said thermometer measures pulse and sound. ≪ RTI ID = 0.0 > 11. < / RTI > The method of claim 3,
The central processing unit of the receiving unit requests the transmission of the sound signal through the communication module, and the thermometer central processing unit 54, which is requested to transmit the sound signal through the communication module, turns on the microphone of the input unit. thermometer. The method of claim 3,
The thermometer central processing unit converts the signal output through the input unit microphone into a radio signal and transmits it to the receiver through the communication module,
Wherein the central processing unit of the receiving unit, which receives the voice signal through the communication module, outputs the signal received through the output speaker through a sound.

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