JPH08178754A - Clinical thermometer - Google Patents
Clinical thermometerInfo
- Publication number
- JPH08178754A JPH08178754A JP32254994A JP32254994A JPH08178754A JP H08178754 A JPH08178754 A JP H08178754A JP 32254994 A JP32254994 A JP 32254994A JP 32254994 A JP32254994 A JP 32254994A JP H08178754 A JPH08178754 A JP H08178754A
- Authority
- JP
- Japan
- Prior art keywords
- temperature
- infrared detector
- opening
- temperature measuring
- thermometer
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
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- Photometry And Measurement Of Optical Pulse Characteristics (AREA)
- Radiation Pyrometers (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、例えば人体の体温測定
に用いられる体温計に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thermometer used for measuring a human body temperature.
【0002】[0002]
【従来の技術】人体の体温等の測定には、従来、水銀を
利用したガラス管型の体温計が使用されていたが、近
年、サーミスタを利用した電子体温計が商品化されてい
る。この電子体温計は、破損した際に人体に毒性が及ぶ
虞れがなく、また、デジタルにより体温が表示されると
いった利点があることから、急速に普及しつつある。2. Description of the Related Art Conventionally, a glass tube type thermometer using mercury has been used to measure the body temperature of a human body, but in recent years, an electronic thermometer using a thermistor has been commercialized. This electronic thermometer is rapidly becoming popular because it has the advantages that it does not cause toxicity to the human body when it is damaged and that the body temperature is displayed digitally.
【0003】[0003]
【発明が解決しようとする課題】ところで、電子体温計
によれば、測温部がサーミスタを樹脂封止した構造で熱
容量が大きいため、測温部を被測温物体の検温部位に接
触させても、測温部が被測温物体と同じ温度となるまで
にある程度の時間が掛かり、このため検温に要する時間
が長いという問題が残されている。By the way, according to the electronic thermometer, since the temperature measuring portion has a structure in which the thermistor is sealed with resin and has a large heat capacity, even if the temperature measuring portion is brought into contact with the temperature measuring portion of the object to be measured. However, it takes a certain amount of time for the temperature measuring unit to reach the same temperature as that of the object to be measured, so that there remains a problem that the time required for temperature measurement is long.
【0004】また、人体の体温測定において、病院など
では正確な体温測定値を得る方法の一つとして、耳の鼓
膜の温度を測定するといった検温法が採用されている
が、従来の水銀体温計や電子体温計ではこれに対応する
ことができないことから、そのような鼓膜の温度測定が
可能な簡易体温計の実現化も望まれつつある。Further, in measuring the temperature of the human body, a temperature measuring method such as measuring the temperature of the eardrum of the ear is adopted as one of the methods for obtaining an accurate measured value of temperature in a hospital or the like. Since an electronic thermometer cannot cope with this, realization of such a simple thermometer capable of measuring the temperature of the eardrum is also desired.
【0005】本発明はこのような事情に鑑みてなされた
もので、被測温物体の温度を正確にかつ短時間で測定す
ることのできる体温計の提供を目的とする。The present invention has been made in view of such circumstances, and an object thereof is to provide a thermometer capable of accurately measuring the temperature of an object to be measured in a short time.
【0006】[0006]
【課題を解決するための手段】上記の目的を達成するた
め、本発明の体温計は、実施例図面である図1,図2に
示すように、中空成形品で先端に開口部1aが設けられ
た本体1と、この本体1の先端から外方に突出する中空
状の部材で、内部が開口部1aを通じて本体1内へと臨
む測温部2と、本体1の内部に開口部1aと対向して配
置された焦電型赤外線検出器3と、この赤外線検出器3
と開口部1aとの間に配置され当該検出器3への入射赤
外線を変調する液晶チョッパ4と、焦電型赤外線検出器
3の出力信号に基づいて温度検出値を求める演算回路1
3と、その温度検出値を表示する表示部7を備えている
ことによって特徴づけられる。In order to achieve the above object, a thermometer according to the present invention is a hollow molded article having an opening 1a at its tip, as shown in FIGS. A main body 1, a hollow member that projects outward from the tip of the main body 1, the inside of which faces the inside of the main body 1 through the opening 1a, and the inside of the main body 1 that faces the opening 1a. And the pyroelectric infrared detector 3 arranged in parallel, and this infrared detector 3
And a liquid crystal chopper 4 arranged between the aperture 1a and the aperture 1a to modulate infrared rays incident on the detector 3, and an arithmetic circuit 1 for obtaining a temperature detection value based on an output signal of the pyroelectric infrared detector 3.
3 and a display section 7 for displaying the detected temperature value.
【0007】なお、本発明では、図3に示すように、測
温部102の先端に開口部102bを設けておいてもよ
い。In the present invention, as shown in FIG. 3, an opening 102b may be provided at the tip of the temperature measuring unit 102.
【0008】[0008]
【作用】まず、焦電型赤外線検出器は、入射赤外線量の
変化を相対的に検出することはできるが、温度測定のよ
うな一定に入射する赤外線の絶対量を測定するにはチョ
ッパが必要である。そこで、本発明では、焦電型赤外線
検出器への入射赤外線を変調するチョッパとして、メカ
ニカルチョッパに比してきわめて小型で軽量の液晶チョ
ッパを用いることにより、焦電型赤外線検出器を利用し
た温度測定手段を体温計程度の小型なケース内に組み込
むことを可能にしている。First, the pyroelectric infrared detector can relatively detect changes in the amount of incident infrared light, but a chopper is required to measure the absolute amount of infrared light that is constantly incident, such as temperature measurement. Is. Therefore, in the present invention, as a chopper that modulates the incident infrared rays to the pyroelectric infrared detector, by using a liquid crystal chopper that is extremely small and lightweight as compared with a mechanical chopper, the temperature using the pyroelectric infrared detector is increased. This makes it possible to incorporate the measuring means in a case as small as a thermometer.
【0009】また、本発明では、焦電型赤外線検出器3
を本体1の内部に配置し、測温部2は中空構造としてそ
の熱容量を小さくしているので、測温部2を被測温物体
に接触させた時点で、すぐに測温部2が被測定物体と同
じ温度となり、その測温部2の内面2aからの輻射赤外
線が液晶チョッパ4を通じて焦電型赤外線検出器3で検
出される。Further, in the present invention, the pyroelectric infrared detector 3 is used.
Is placed inside the main body 1, and the temperature measuring unit 2 has a hollow structure to reduce its heat capacity. Therefore, when the temperature measuring unit 2 is brought into contact with the object to be measured, the temperature measuring unit 2 is immediately covered. The temperature becomes the same as that of the object to be measured, and infrared radiation emitted from the inner surface 2a of the temperature measuring unit 2 is detected by the pyroelectric infrared detector 3 through the liquid crystal chopper 4.
【0010】なお、図3に示すように、測温部102の
先端に開口部102bを設けておけば、耳の鼓膜からの
赤外線を本体1内の焦電型赤外線検出器3で直接検出す
ることができ、これにより鼓膜の温度測定も可能にな
る。As shown in FIG. 3, if an opening 102b is provided at the tip of the temperature measuring unit 102, infrared rays from the eardrum of the ear are directly detected by the pyroelectric infrared detector 3 in the main body 1. This also allows the temperature of the eardrum to be measured.
【0011】[0011]
【実施例】図1は本発明実施例の構造図、図2はその実
施例の回路構成図である。体温計の本体1はプラスチッ
ク等の中空成形品で先端に開口部1aが設けられてお
り、その先端に測温部2が取り付けられている。この測
温部2はステンレス等により薄肉キャップ状に加工され
ており、その内面2aに金黒または白金黒等の黒化膜が
真空蒸着等により形成されている。1 is a structural diagram of an embodiment of the present invention, and FIG. 2 is a circuit configuration diagram of the embodiment. The body 1 of the clinical thermometer is a hollow molded article such as plastic and has an opening 1a at its tip, and a temperature measuring unit 2 is attached to its tip. The temperature measuring unit 2 is made of stainless steel or the like into a thin cap shape, and a blackened film such as gold black or platinum black is formed on its inner surface 2a by vacuum deposition or the like.
【0012】本体1の内部には、焦電型赤外線検出器3
が開口部1aに対向して配置されており、また、この焦
電型赤外線検出器3と開口部1aとの間にレンズ5及び
液晶チョッパ4が順次に配置されている。液晶チョッパ
4は、強誘電性液晶の電気光学効果を利用して赤外領域
の変調を行うタイプの変調素子で、駆動回路8により数
10Hzの変調周波数で開閉駆動する。A pyroelectric infrared detector 3 is provided inside the main body 1.
Is arranged to face the opening 1a, and a lens 5 and a liquid crystal chopper 4 are sequentially arranged between the pyroelectric infrared detector 3 and the opening 1a. The liquid crystal chopper 4 is a modulation element of the type that modulates in the infrared region by utilizing the electro-optical effect of the ferroelectric liquid crystal, and is opened and closed by the drive circuit 8 at a modulation frequency of several tens Hz.
【0013】焦電型赤外線検出器3の出力信号は基板6
に実装された温度検出回路に導かれる。その温度検出回
路は、図2のブロック図に示すように、焦電型赤外線検
出器3の出力信号を増幅する帯域通過(例えば1〜20
Hz)形の演算増幅器10と、この増幅後の信号を液晶チ
ョッパ3の変調周波数で同期整流する全波整流回路11
と、直流化回路(DC)12及び演算回路13によって
構成されている。The output signal of the pyroelectric infrared detector 3 is the substrate 6
It is guided to the temperature detection circuit mounted on. As shown in the block diagram of FIG. 2, the temperature detection circuit has a band pass (for example, 1 to 20) that amplifies the output signal of the pyroelectric infrared detector 3.
Hz) type operational amplifier 10 and full-wave rectifier circuit 11 for synchronously rectifying the amplified signal at the modulation frequency of the liquid crystal chopper 3.
And a direct current circuit (DC) 12 and an arithmetic circuit 13.
【0014】演算回路13は、焦電型赤外線検出器3の
出力信号の変化つまり直流化回路12の出力信号の変化
を、後述する基準値(30℃)と比較して温度検出値に
換算するように構成されており、その換算値が表示部7
に表示される。The arithmetic circuit 13 compares the change in the output signal of the pyroelectric infrared detector 3, that is, the change in the output signal of the direct current conversion circuit 12 with a reference value (30 ° C.) described later and converts it into a temperature detection value. The conversion value is displayed on the display unit 7.
Is displayed in.
【0015】そして、以上の構成において、焦電型赤外
線検出器3は、ペルチェ素子等を利用した温調手段9
(図2参照)によって、一定の温度(例えば30℃)に
保持され、その保持温度が演算回路13での温度換算の
基準値として用られる。In the above structure, the pyroelectric infrared detector 3 has a temperature control means 9 using a Peltier element or the like.
(See FIG. 2), the temperature is held at a constant temperature (for example, 30 ° C.), and the held temperature is used as a reference value for temperature conversion in the arithmetic circuit 13.
【0016】すなわち、本発明実施例では、焦電型赤外
線検出器3を基準温度;30℃に保持しておき、この状
態で検出器3に赤外線が入射したときに生じる出力信号
の変化から絶対温度を求めるように構成している。That is, in the embodiment of the present invention, the pyroelectric infrared detector 3 is kept at the reference temperature of 30 ° C., and in this state, the absolute value is changed from the change of the output signal when the infrared rays are incident on the detector 3. It is configured to determine the temperature.
【0017】なお、以上の構成に加えて、本体1には、
各機能部への電源供給用の電池(図示せず)が内蔵され
ており、また、それらの各機能部はスイッチ(図示せ
ず)によってオン・オフされる。In addition to the above structure, the main body 1 has
A battery (not shown) for supplying power to each functional unit is built in, and each functional unit is turned on / off by a switch (not shown).
【0018】次に、本発明実施例の作用を温度検出の動
作とともに述べる。まず、スイッチオンにより焦電型赤
外線検出器3の温調手段9、液晶チョッパ4及び温度検
出回路等を動作させておく。Next, the operation of the embodiment of the present invention will be described together with the temperature detection operation. First, the temperature adjustment means 9, the liquid crystal chopper 4, the temperature detection circuit, etc. of the pyroelectric infrared detector 3 are operated by turning on the switch.
【0019】さて、体温計の測温部2を、被測温物体の
検温部位に接触させると、測温部2は熱容量が小さいの
ですぐに被測温物体の温度となり、その被測温物体の温
度に相当する量の赤外線が測温部2から輻射し、その赤
外線が開口部1aを通じて本体1内に侵入しレンズ5及
び液晶チョッパ4を通過して焦電型赤外線検出器3に入
射する。これにより、焦電型赤外線検出器3の出力信号
が入射赤外線量に応じて変化し、その信号変化の度合が
演算回路13で温度に換算されて表示部7に表示され
る。When the temperature measuring unit 2 of the thermometer is brought into contact with the temperature measuring portion of the object to be measured, since the temperature measuring unit 2 has a small heat capacity, the temperature of the object to be measured immediately becomes the temperature of the object to be measured. An amount of infrared rays corresponding to the temperature radiates from the temperature measuring section 2, the infrared rays enter the main body 1 through the opening 1a, pass through the lens 5 and the liquid crystal chopper 4, and enter the pyroelectric infrared detector 3. As a result, the output signal of the pyroelectric infrared detector 3 changes according to the amount of incident infrared rays, and the degree of the signal change is converted into temperature by the arithmetic circuit 13 and displayed on the display unit 7.
【0020】図3は本発明の他の実施例の構造図であ
る。この例において注目すべきところは、図3(A) に示
すように、測温部102の先端に開口部102bを設け
た点にあり、このように、測温部102の先端を開口し
ておけば、図3(B) に示すように測温部102を耳の外
耳道に差し込むことにより、焦電型赤外線検出器3の視
野に鼓膜が直に臨むことになり、その鼓膜から輻射赤外
線を開口部102bを通じて焦電型赤外線検出器3で直
接検出することができる。ただし、この例では、測温部
102の内面からの輻射赤外線が焦電型赤外線検出器3
に入射すると、鼓膜の温度検出値に影響が及ぶので、そ
の影響を可能な限り軽減するために測温部102はプラ
スチック等により製作する。FIG. 3 is a structural diagram of another embodiment of the present invention. What should be noted in this example is that an opening 102b is provided at the tip of the temperature measuring unit 102 as shown in FIG. 3 (A), and thus the tip of the temperature measuring unit 102 is opened. By inserting the temperature measuring unit 102 into the ear canal of the ear as shown in FIG. 3 (B), the eardrum directly faces the visual field of the pyroelectric infrared detector 3, and the emitted infrared rays are emitted from the eardrum. It can be directly detected by the pyroelectric infrared detector 3 through the opening 102b. However, in this example, the infrared radiation emitted from the inner surface of the temperature measuring unit 102 is the pyroelectric infrared detector 3
When incident on, the temperature detection value of the eardrum is affected, so the temperature measuring unit 102 is made of plastic or the like in order to reduce the effect as much as possible.
【0021】なお、以上の本発明実施例において、液晶
チョッパ4とレンズ5をそれぞれ個別の部品としている
が、液晶チョッパ3として対向セルがシリコン製のもの
を使用する場合、そのセルにレンズ5を一体形成してお
いてもよい。Although the liquid crystal chopper 4 and the lens 5 are separate components in the above embodiments of the present invention, when the opposite cell made of silicon is used as the liquid crystal chopper 3, the lens 5 is attached to the cell. It may be integrally formed.
【0022】また、以上の実施例では、焦電型赤外線検
出器3を一定の温度に保つことで、その保持温度を温度
換算用の基準値としているが、本発明はこれに限られる
ことなく、例えば温度補償用温度センサを設けて、その
検出温度を基準値として用いるように構成してもよい。Further, in the above embodiments, the pyroelectric infrared detector 3 is maintained at a constant temperature, and the held temperature is used as the reference value for temperature conversion. However, the present invention is not limited to this. For example, a temperature compensating temperature sensor may be provided and the detected temperature may be used as a reference value.
【0023】さらに、本発明の体温計は人体の体温測定
のほか、他の動物の体温測定にも利用できる。Furthermore, the thermometer of the present invention can be used not only for measuring the body temperature of the human body but also for measuring the body temperature of other animals.
【0024】[0024]
【発明の効果】以上説明したように、本発明によれば、
焦電型赤外線検出器を絶対温度の測定に使用するための
入射赤外線の変調手段として液晶チョッパを用いている
ので、これらの温度測定機器を体温計程度の小型なケー
ス内に組み込むことが可能となり、しかも、その赤外線
検出器を本体側に配置して測温部を中空の熱容量の小さ
い構造としたので、従来の電子体温計に比して検温時間
が短縮された体温計の実現化が可能となった。As described above, according to the present invention,
Since a liquid crystal chopper is used as a means for modulating the incident infrared rays for using the pyroelectric infrared detector for measuring the absolute temperature, it becomes possible to incorporate these temperature measuring devices in a small case such as a thermometer, Moreover, since the infrared detector is arranged on the main body side and the temperature measuring unit is hollow and has a structure with a small heat capacity, it is possible to realize a thermometer with a shorter temperature measuring time than the conventional electronic thermometer. .
【0025】なお、本発明の体温計において測温部の先
端に開口部を設けておけば、耳の鼓膜の体温計として利
用可能で、この場合、体温をより正確にかつ短時間で測
定できる。さらに、このように鼓膜の温度測定が可能と
なることにより、例えば寝たきり病人などのように脇の
下や口などに測温部を接触させることが難しい人の体温
を測定する場合、本発明の体温計を使用すれば測温部を
耳に差し込むだけで、鼓膜の温度から体温を測ることが
できるので、その検温が非常に簡単になるという効果を
達成できる。If the thermometer of the present invention is provided with an opening at the tip of the temperature measuring portion, it can be used as a thermometer for the eardrum of the ear, and in this case, the body temperature can be measured more accurately and in a short time. Further, since it becomes possible to measure the temperature of the eardrum in this way, when measuring the body temperature of a person who has difficulty contacting the temperature measuring unit with the armpit or mouth such as a bedridden patient, the thermometer of the present invention is used. If used, the body temperature can be measured from the temperature of the eardrum just by inserting the temperature measuring unit into the ear, and the effect that the temperature measurement is very simple can be achieved.
【図1】本発明実施例の構造図FIG. 1 is a structural diagram of an embodiment of the present invention.
【図2】その実施例の回路構成図FIG. 2 is a circuit configuration diagram of the embodiment.
【図3】本発明の他の実施例の構造図FIG. 3 is a structural diagram of another embodiment of the present invention.
1 本体 1a 開口部 2,102 測温部 102b 開口部 3 焦電型赤外線検出器 4 液晶チョッパ 5 レンズ 6 基板 7 表示部 8 駆動回路 9 温調手段 10 演算増幅器 11 全波整流回路 12 直流化回路 13 演算回路 1 Main Body 1a Opening 2,102 Temperature Measuring Part 102b Opening 3 Pyroelectric Infrared Detector 4 Liquid Crystal Chopper 5 Lens 6 Substrate 7 Display 8 Drive Circuit 9 Temperature Control Means 10 Operational Amplifier 11 Full Wave Rectifier 12 DC Directing 13 Operation circuit
Claims (1)
本体と、この本体の先端から外方に突出する中空状の部
材で内部が上記開口部を通じて上記本体内へと臨む測温
部と、上記本体の内部に上記開口部と対向して配置され
た焦電型赤外線検出器と、この赤外線検出器と上記開口
部との間に配置され当該検出器への入射赤外線を変調す
る液晶チョッパと、上記赤外線検出器の出力信号に基づ
いて温度検出値を求める演算手段と、その温度検出値を
表示する表示部を備えてなる体温計。1. A temperature-measuring unit, the interior of which is a hollow-molded product having an opening at its tip and a hollow member projecting outward from the tip of the body so that the inside faces the inside of the body through the opening. A pyroelectric infrared detector disposed inside the main body so as to face the opening, and a liquid crystal disposed between the infrared detector and the opening to modulate infrared rays incident on the detector. A thermometer comprising a chopper, a calculation means for obtaining a temperature detection value based on the output signal of the infrared detector, and a display section for displaying the temperature detection value.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP32254994A JPH08178754A (en) | 1994-12-26 | 1994-12-26 | Clinical thermometer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP32254994A JPH08178754A (en) | 1994-12-26 | 1994-12-26 | Clinical thermometer |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH08178754A true JPH08178754A (en) | 1996-07-12 |
Family
ID=18144919
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP32254994A Pending JPH08178754A (en) | 1994-12-26 | 1994-12-26 | Clinical thermometer |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH08178754A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH10104080A (en) * | 1996-09-25 | 1998-04-24 | Shuchi Koden Kagi Kofun Yugenkoshi | Absolute radiation thermometer and method for measuring temperature |
CN103712697A (en) * | 2014-01-06 | 2014-04-09 | 浙江荣胜工具有限公司 | Non-contact multi-purpose infrared thermometer |
-
1994
- 1994-12-26 JP JP32254994A patent/JPH08178754A/en active Pending
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH10104080A (en) * | 1996-09-25 | 1998-04-24 | Shuchi Koden Kagi Kofun Yugenkoshi | Absolute radiation thermometer and method for measuring temperature |
CN103712697A (en) * | 2014-01-06 | 2014-04-09 | 浙江荣胜工具有限公司 | Non-contact multi-purpose infrared thermometer |
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