JP2007330328A - Clinical thermometer and body temperature information collecting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a clinical thermometer and a body temperature information collecting system for acquiring body temperature information rapidly with a high degree of accuracy. <P>SOLUTION: The clinical thermometer comprises a temperature sensor 12 for measuring a body temperature of a patient, an arithmetic part 17 for computing the body temperature information based on output signals of the temperature sensor 12, and a transmission part 21 for transmitting the body temperature information computed by the arithmetic part 17 in a wireless manner by utilizing an industry science medical band. Thereby, since the body temperature information of a plurality of patients is easily transmitted, the body temperature information is acquired rapidly with a high degree of accuracy. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a thermometer and a body temperature information collecting system for measuring a body temperature of a patient.

Conventionally, various thermometers are used to measure the temperature of a patient in a hospital or the like (see, for example, Patent Document 1). Some of these thermometers include a temperature sensor for measuring a patient's body temperature and a calculation unit that calculates body temperature information from the measurement result of the temperature sensor. And the body temperature information calculated by the calculating part is displayed on a display part etc.
A nurse or the like can obtain patient temperature information by viewing the display on the display unit, and records the temperature information of each patient by writing the temperature information on a recording sheet.
JP 2001-149324 A

  However, the thermometer as described above has a problem that it takes a lot of time to obtain temperature information of each patient, especially in a large hospital where a large number of patients are accommodated. Also, incorrect body temperature information may be recorded due to carelessness at the time of reading or writing by the nurse.

  This invention is made | formed in view of such a situation, Comprising: It aims at providing the thermometer and body temperature information collection system which can obtain body temperature information rapidly and with high precision.

In order to solve the above problems, the present invention provides the following means.
A thermometer according to the present invention includes a temperature sensor for measuring a body temperature of a patient, a calculation unit that calculates body temperature information based on an output signal of the temperature sensor, and body temperature information calculated by the calculation unit as an ISM band. And a transmission unit that transmits wirelessly using the radio.

In the thermometer according to the present invention, the temperature of the patient is measured by the temperature sensor, and the calculation unit calculates the body temperature information based on the output signal of the temperature sensor. Then, the body temperature information is transmitted wirelessly using the ISM band by the transmission unit.
Thereby, body temperature information of a plurality of patients can be easily obtained.

  The thermometer according to the present invention includes an emergency switch that outputs an emergency signal, and the transmission unit transmits the emergency signal output from the emergency switch as emergency information.

In the thermometer according to the present invention, when an emergency switch is operated, an emergency signal is output from the emergency switch. And this emergency signal is transmitted by a transmission part as emergency information.
Thereby, even if an emergency occurs in the patient, it can be promptly and reliably notified to a nurse or a doctor.

  The thermometer according to the present invention includes a power storage unit that stores power supplied in a contactless manner from a power supply unit that supplies power, and supplies the stored power to the arithmetic unit. .

In the thermometer according to the present invention, power is supplied from the power supply unit to the power storage unit in a contactless manner, and the power is stored in the power storage unit. Then, the power stored in the power storage unit is supplied to the temperature sensor, the calculation unit, and the transmission unit.
Thereby, battery exchange can be made unnecessary and the convenience can be improved.

  Further, the body temperature information collecting system according to the present invention is a body temperature information collecting system having a thermometer that measures the body temperature of a patient and a management unit that manages body temperature information of a plurality of patients, and the thermometer A temperature sensor for measuring body temperature, a calculation unit that calculates body temperature information based on an output signal of the temperature sensor, and a transmission that wirelessly transmits the body temperature information calculated by the calculation unit using the ISM band The management unit includes a receiving unit that receives the body temperature information transmitted from the transmitting unit, and a storage unit that stores the body temperature information received by the receiving unit.

In the body temperature information collecting system according to the present invention, the body temperature of the patient is measured by the temperature sensor, and the calculation unit calculates the body temperature information based on the output signal of the temperature sensor. Then, the body temperature information is transmitted wirelessly using the ISM band by the transmission unit. Furthermore, the transmitted body temperature information is received by the receiving unit and stored in the storage unit.
Thereby, the body temperature information of a plurality of patients can be quickly and reliably recorded, and the body temperature information can be easily managed.

  According to the present invention, body temperature information of a plurality of patients can be easily transmitted by radio using the ISM band, so that body temperature information can be obtained quickly and with high accuracy.

(Embodiment)
Hereinafter, a body temperature information collection system according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows a body temperature information collecting system 1 as an embodiment of the present invention.
The body temperature information collection system 1 includes a thermometer 2 that measures a patient's body temperature, and a management device (management unit) 3 that collects and manages body temperature information of a plurality of patients.

As shown in FIG. 2, the thermometer 2 includes a resin main body 6. The main body 6 is provided with a display 7 for displaying body temperature information and a microphone 8 for collecting sound.
One end of the main body 6 is provided with a temperature measuring unit 11 made of a metal member. A temperature sensor 12 for measuring a patient's body temperature is provided in the temperature measuring unit 11. The temperature sensor 12 is a temperature sensor such as a thermistor, for example. On the other hand, an emergency button (emergency switch) 13 for emergency is provided at the other end of the main body 6.
The thermometer 2 includes a power supply unit 16 as an external device that supplies power from the outside without contact.

Furthermore, the thermometer 2 is provided with the control part (calculation part) 17 which controls the whole thermometer 2 as shown in FIG. The control unit 17 is electrically connected to the display unit 7, the microphone 8, the temperature sensor 12, and the emergency button 13 via the I / O unit 18.
Then, the control unit 17 calculates body temperature information based on the output signal of the temperature sensor 12.
Further, the control unit 17 is connected to a transmission / reception circuit (transmission unit) 21 for wirelessly transmitting / receiving a signal using an ISM (INDUSTY SCIENCE MEDICAL BAND) band.
The ISM band refers to a 2.4 GHz radio wave frequency band, and an output of 10 mW or less can be used without a license. Therefore, in this embodiment, transmission / reception is performed with an output of 10 mW or less that does not require a license.
The transmission / reception circuit 21 is connected to an antenna 22 that transmits and receives radio waves.

  The control unit 17 is connected to the memory 23. The memory 23 stores an operation program of the control unit 17 and also stores temporary data generated in the process of the control unit 17. The memory 23 is connected to a power storage device (power storage unit) 26 that stores electric power. The power storage device 26 stores power using a capacitor or the like, and supplies the stored power to each device of the thermometer 2. The power storage device 26 is connected to a power receiving circuit 27 that receives power, and the power receiving circuit 27 is connected to a power receiving unit 28. The power receiving unit 28 includes a magnetic body and a coil wound around the magnetic body.

  The power supply unit 16 includes a power transmission circuit 31 that transmits power supplied from an AC power supply. The power transmission circuit 31 is connected to the power transmission unit 32. Similar to the power reception unit 28, the power transmission unit 32 includes a magnetic body and a coil wound around the magnetic body, and supplies power to the thermometer 2 in a non-contact manner.

Furthermore, the management apparatus 3 includes a control unit 37 that controls the entire management apparatus 3. The control unit 37 is connected to a transmission / reception circuit (reception unit) 36 for transmitting and receiving signals wirelessly using the ISM band, and the transmission / reception circuit 36 is connected to the antenna 35. The control unit 37 is connected to a storage circuit (storage unit) 38 that stores various types of information. The control unit 37 is connected to the speaker 42 via the I / O unit 41.
The management device 3 is provided in, for example, a nurse room of a hospital. Then, the information stored in the storage circuit 38 is displayed on a display device such as a monitor. Or the information memorize | stored in the memory | storage circuit 38 is read, and it utilizes for a patient's physical condition management by a nurse.

Next, processing of the body temperature information collecting system 1 configured as described above will be described.
First, the patient places the temperature measuring unit 11 at a predetermined position such as a heel or a tongue. And when predetermined time passes, the temperature sensor 12 in the temperature measurement part 11 measures the temperature around this temperature sensor 12, and outputs a measurement signal as the measurement result. This measurement signal is input to the control unit 17 via the I / O unit 18. When the measurement signal is input, the control unit 17 calculates body temperature information based on the measurement signal. Then, the control unit 17 inputs the calculation result as a body temperature signal to the display unit 7 via the I / O unit 18, thereby displaying body temperature information on the display unit 7.

Moreover, if the control part 17 calculates body temperature information, the calculation result will be input into the transmission / reception circuit 21 as a body temperature signal. And the control part 17 modulates a 2.4-GHz carrier with a body temperature signal in the transmission / reception circuit 21, and transmits the modulated signal (modulation signal) via the antenna 22. FIG.
The control unit 37 on the management device 3 side receives the modulation signal via the antenna 35. And the control part 37 demodulates the received modulation signal in the transmission / reception circuit 36, and reproduce | regenerates a body temperature signal. Then, the body temperature signal is input to the control unit 37. When the body temperature signal is input, the control unit 37 stores the body temperature information in the storage circuit 38.
By repeating such a series of processes, body temperature information of a plurality of patients is stored in the storage circuit 38.

Moreover, the electric power for driving the thermometer 2 is obtained as follows.
That is, the power supply unit 16 is arranged at a predetermined position near the thermometer 2. At this time, the power transmission unit 32 of the power supply unit 16 and the power reception unit 28 of the thermometer 2 are disposed to face each other. When the power supply unit 16 is driven in this state, the magnetic body of the power transmission unit 32 is excited and emits electromagnetic waves. This electromagnetic wave is transmitted to the magnetic body of the power receiving unit 28, and the electric power generated by the electromagnetic induction is stored in the power storage device 26 via the power receiving circuit 27. Then, the electric power stored in the power storage device 26 is supplied to each device such as the control unit 17.

Furthermore, when an emergency occurs in the patient, the fact that the emergency has occurred is communicated to doctors and nurses as follows.
First, a patient, a nurse or the like presses the emergency button 13. Then, an emergency signal is output from the emergency button 13. This emergency signal is input to the control unit 17 via the I / O unit 18. When the emergency signal is input, the control unit 17 transmits the emergency signal as a modulation signal via the transmission / reception circuit 21 and the antenna 22. The transmitted modulation signal is received via the antenna 35 and the transmission / reception circuit 36 on the management apparatus 3 side. Then, the control unit 37 reproduces the emergency signal by demodulation in the transmission / reception circuit 36. This emergency signal is input to the control unit 37. When an emergency signal is input, the control unit 37 drives an alarm device (not shown) and issues an alarm by sound, light, vibration, or the like.

In an emergency, the patient's condition can be informed to a doctor or the like as follows.
In other words, the patient himself / herself, the nurse, etc., speak to the microphone 8 and explain the situation. At this time, sound is collected by the microphone 8. Then, the control unit 17 converts the sound into an electric signal by the microphone 8. The audio signal output from the microphone 8 is input to the control unit 17 via the I / O unit 18. When the audio signal is input, the control unit 17 transmits the modulation signal via the transmission / reception circuit 21 and the antenna 22 in the same manner as described above. The control unit 37 on the management apparatus 3 side receives the modulation signal via the antenna 35 and the transmission / reception circuit 36. And the control part 37 reproduces | regenerates an audio | voice signal like the above. This audio signal is input to the control unit 37. When an audio signal is input, the control unit 37 inputs the audio signal to the speaker 42. And the control part 37 converts the input audio | voice signal into an audio | voice with the speaker 42. FIG. Thereby, a sound is emitted from the speaker 42, and the patient's condition is transmitted to a doctor, another nurse, or the like.

As described above, according to the thermometer 2 in the present embodiment, the temperature information of the patient can be easily obtained and the temperature information can be transmitted, so that the temperature information can be collected quickly and with high accuracy.
In addition, since the frequency of wireless communication is the ISM band, it is possible to quickly obtain body temperature information without affecting patients or hospital equipment.

Further, since the emergency button 13 is provided and an emergency signal can be transmitted, when an emergency situation occurs in the patient, it can be promptly and reliably notified to a nurse or doctor.
Moreover, since the electric power supplied in a non-contact manner by the power supply unit 16 can be stored, battery replacement of the thermometer 2 can be made unnecessary, and convenience can be improved.

  In addition, according to the body temperature information collection system in the present embodiment, not only can the same effect as described above be obtained, but body temperature information can be quickly and accurately collected by receiving and storing body temperature information. It is possible to build a more advanced management system.

In addition, the body temperature information collection system in this embodiment can be used in various networks. For example, as shown in FIG. 3, a star-type network can be constructed. Also, as shown in FIG. 4, a mesh type network can be used, and as shown in FIG. 5, a cluster tree type network can also be used.
3 to 5, reference numeral 45 indicates a coordinator (parent), reference numeral 46 indicates an end device (child), and reference numeral 47 indicates a router (child).

  Further, the program for realizing the functions of the control unit 17 and the control unit 37 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into the computer system and executed, thereby executing the body temperature information. May be collected. The “computer system” here includes an OS and hardware such as peripheral devices.

Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” dynamically holds a program for a short time like a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. In this case, a volatile memory in a computer system serving as a server or a client in that case is also used to hold a program for a certain period of time. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.
The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.

It is a whole lineblock diagram showing an embodiment of a body temperature information collection system concerning the present invention. It is a top view which shows the thermometer of FIG. It is a conceptual diagram which shows an example of the network using the body temperature information collection system of FIG. 1, and shows a star type network. It is a conceptual diagram which shows an example of the network using the body temperature information collection system of FIG. 1, and shows a mesh type network. It is a conceptual diagram which shows an example of the network using the body temperature information collection system of FIG. 1, and shows a cluster tree type network.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Body temperature information collection system, 2 ... Thermometer, 3 ... Management apparatus (management part), 12 ... Temperature sensor, 13 ... Emergency button (emergency switch), 16 ... Power supply unit , 17 ... Control unit (calculation unit), 21 ... Transmission / reception circuit (transmission unit), 26 ... Power storage device (power storage unit), 36 ... Transmission / reception circuit (reception unit), 38 ... Memory Circuit (memory unit)

Claims (4)

A temperature sensor for measuring the temperature of the patient;
A calculation unit for calculating body temperature information based on an output signal of the temperature sensor;
A transmitter that wirelessly transmits body temperature information calculated by the calculator using an ISM band;
A thermometer comprising: Equipped with an emergency switch that outputs an emergency signal,
The transmitter is
The thermometer according to claim 1, wherein an emergency signal output from the emergency switch is transmitted as emergency information. A power storage unit that stores power supplied in a non-contact manner from a power supply unit that supplies power, and supplies the stored power to the arithmetic unit;
The thermometer according to claim 1, wherein the thermometer is provided. A body temperature information collecting system having a thermometer for measuring a body temperature of a patient and a management unit for managing body temperature information of a plurality of patients,
The thermometer is
A temperature sensor for measuring the temperature of the patient;
A calculation unit for calculating body temperature information based on an output signal of the temperature sensor;
The body temperature information calculated by the calculation unit includes a transmission unit that wirelessly transmits using the ISM band,
The management unit
A receiving unit for receiving body temperature information transmitted from the transmitting unit;
A storage unit for storing body temperature information received by the reception unit;
A body temperature information collecting system comprising:

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