JP2008232620A - Thermometer for measuring surface temperature of curved surface, method of implementing the thermometer for measuring surface temperature of curved surface of object to be measured with fluid flowing therein, and method of measuring surface temperature of object to be measured having curved surface with fluid flowing therein - Google Patents

Thermometer for measuring surface temperature of curved surface, method of implementing the thermometer for measuring surface temperature of curved surface of object to be measured with fluid flowing therein, and method of measuring surface temperature of object to be measured having curved surface with fluid flowing therein Download PDF

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JP2008232620A
JP2008232620A JP2007055978A JP2007055978A JP2008232620A JP 2008232620 A JP2008232620 A JP 2008232620A JP 2007055978 A JP2007055978 A JP 2007055978A JP 2007055978 A JP2007055978 A JP 2007055978A JP 2008232620 A JP2008232620 A JP 2008232620A
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thermometer
temperature
curved surface
measuring
heat insulating
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JP4949081B2 (en
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Tetsuji Yamada
哲司 山田
Naoki Aizawa
直樹 相澤
Katsuhiko Shibata
克彦 柴田
Keiichi Ishizuka
圭一 石塚
Hideyuki Okamoto
英之 岡本
Hitoshi Yonezawa
仁 米澤
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Takasago Thermal Engineering Co Ltd
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K1/00Details of thermometers not specially adapted for particular types of thermometer
    • G01K1/16Special arrangements for conducting heat from the object to the sensitive element

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Abstract

<P>PROBLEM TO BE SOLVED: To provide a thermometer for measuring a surface temperature of a curved surface, having a shape adapted to measurement of a surface temperature, such as a tank, a heat exchanger, as well as, piping and duct whose surfaces are curved surfaces, a method of constructing the thermometer for measuring the surface temperature of the curved surface of an object to be measured with a fluid flowing therein, using the same in which the measurement condition is constant, and a method of precisely measuring the surface temperature of the object to be measured, having the curved surface with the fluid flowing therein by performing correction from relation between a measured value, obtained by the construction method and an internal temperature of a heat insulating member aperture. <P>SOLUTION: The thermometer for measuring the surface temperature of the curved surface includes a ring-shaped magnet having a hole formed at the center, a metal protective tube whose one end is inserted into the hole of the magnet so as to be fixed, a thermocouple which is disposed in the metal protective tube and whose one end is positioned near a contact surface of the ring-shaped magnet with a piping surface, and a filler, filled into the metal protective tube to provide satisfactory thermal conduction to the thermocouple. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

本発明は、曲面の表面温度計測用温度計、内部に流体が流れる被計測物の曲面の表面温度計測用温度計の施工方法、および曲面を有し内部に流体が流れる被計測物の表面温度の計測方法に関するものである。   The present invention relates to a thermometer for measuring the surface temperature of a curved surface, a method for constructing a thermometer for measuring the surface temperature of a curved surface of a measured object through which fluid flows, and the surface temperature of the measured object having a curved surface through which fluid flows. This relates to the measurement method.

従来、空調設備等の配管やダクトの他、タンクや熱交換器内を流れる気体や液体等の流体の温度を測定するために、配管やダクトの他、タンクや熱交換器の表面に温度計を設置して配管やダクトの他、タンクや熱交換器内の流体の温度を測定する配管やダクトの他、タンクや熱交換器の表面温度の計測が実施されている。
特開2002−195887号公報
Conventionally, in order to measure the temperature of fluids such as gas and liquid flowing in tanks and heat exchangers, as well as piping and ducts for air conditioning equipment, etc., thermometers are installed on the surfaces of tanks and heat exchangers. In addition to pipes and ducts, the surface temperature of tanks and heat exchangers is measured in addition to pipes and ducts that measure the temperature of fluid in tanks and heat exchangers.
JP 2002-195887 A

このような従来の温度計測においては、配管やダクトの他、タンクや熱交換器の適所に、配管やダクトの他、タンクや熱交換器の表面に到達するように、配管やダクトの他、タンクや熱交換器の表面を覆う断熱材に貫通する貫通孔をあけ、貫通孔内に温度計を挿入して配管等の内部を流れる流体の温度を配管等の表面から間接的に測定している。   In such conventional temperature measurement, in addition to pipes and ducts, in addition to pipes and ducts, in addition to pipes and ducts, in addition to pipes and ducts, to the surface of tanks and heat exchangers, Open a through-hole that penetrates the insulation covering the surface of the tank or heat exchanger, insert a thermometer in the through-hole, and indirectly measure the temperature of the fluid flowing inside the pipe etc. from the surface of the pipe etc. Yes.

斯様な温度計測に用いられる温度計の一例として、特開2002−195887号公報に記載されるような管壁温度計が知られている。   As an example of a thermometer used for such temperature measurement, a tube wall thermometer as described in JP-A-2002-195887 is known.

上記公報に記載される管壁温度計は、特定の配管口径にのみ対応した温度計であり、そのために温度計本体の取付部の内周壁面を、取付けるべき配管外周の曲率半径とほぼ同じとし、内周壁面の中央には対向する表面側の壁面に貫通する貫通孔を設け、この貫通孔に弾性体と温度検知部材とを挿入して弾性体によって温度検知部材を配管の外周壁面に押し当てると共に、取付部の表面側の壁面が温度計本体の裏面で貫通孔を覆うように密封固着し、温度計本体の表面に太陽電池部と温度表示部を配設したものである。   The pipe wall thermometer described in the above publication is a thermometer corresponding only to a specific pipe diameter. For this purpose, the inner peripheral wall surface of the thermometer main body is assumed to be substantially the same as the radius of curvature of the outer circumference of the pipe to be attached. In the center of the inner peripheral wall, a through hole is formed through the opposite surface wall, and an elastic body and a temperature detecting member are inserted into the through hole, and the temperature detecting member is pushed to the outer peripheral wall surface of the pipe by the elastic body. At the same time, the wall surface on the front surface side of the mounting portion is hermetically fixed so as to cover the through hole on the back surface of the thermometer body, and the solar cell portion and the temperature display portion are disposed on the surface of the thermometer body.

しかしながら、このような管壁温度計は、同公報に記載されるように特定の配管口径にのみ対応したものであるので、計測配管の口径別に温度計を用意する必要があり、形状の微妙な違いから配管表面と温度計本体との間に隙間のような空気層が形成されて、この空気層の厚みの違いによって個々の温度計ごとの誤差が発生する原因となっている。   However, since such a pipe wall thermometer is only compatible with a specific pipe diameter as described in the publication, it is necessary to prepare a thermometer for each diameter of the measurement pipe, and the shape is delicate. Due to the difference, an air layer such as a gap is formed between the pipe surface and the thermometer body, and this difference in the thickness of the air layer causes an error for each thermometer.

また、上記の管壁温度計と別の配管表面温度計として、図16に示されるような温度計が配管表面計測用温度計として一般的に知られている。   Further, as a pipe surface thermometer different from the above pipe wall thermometer, a thermometer as shown in FIG. 16 is generally known as a pipe surface measuring thermometer.

このような温度計100は、センサータイプの表面温度センサーであり、中央に孔103のあるリング型の磁石102と、この磁石102の中央の孔103の配管表面側に感温部Aが位置するように孔103内に配置される熱電対106とを有し、中央の孔103の隙間に感温部保持用の樹脂108を充填し、この充填された樹脂108に対して熱電対106を支持する脱落防止用補強部材104を設けており、熱電対106の他方の端部に差込み部107が設けられていて所要の計測用計器類に接続できるようになっている。   Such a thermometer 100 is a sensor-type surface temperature sensor, and a ring-type magnet 102 having a hole 103 in the center, and a temperature sensing part A is located on the pipe surface side of the hole 103 in the center of the magnet 102. The thermocouple 106 is disposed in the hole 103 as described above, and a resin 108 for holding the temperature sensitive portion is filled in the gap between the holes 103 in the center, and the thermocouple 106 is supported by the filled resin 108. A drop-off prevention reinforcing member 104 is provided, and an insertion portion 107 is provided at the other end of the thermocouple 10 6 so that it can be connected to required measuring instruments.

このセンサータイプの温度計100は、配管表面を覆う断熱材または保温材に所定の孔を設け、この孔内に温度計の磁石部分を配置して配管表面に吸着することによって設置している。しかし、このようなセンサータイプの温度計100は、表面温度センサーとして、計測対象が平面であることを前提としており、そのために磁石102部分に磁力の弱いフェライト磁石を使用しているのが一般的である。また、感温部Aには通常の熱電対106を使用しているために、熱電対106先端の感温部Aが「点」として計測することになる。   This sensor-type thermometer 100 is installed by providing a predetermined hole in a heat insulating material or a heat insulating material covering the pipe surface, and placing a magnet portion of the thermometer in the hole and adsorbing it on the pipe surface. However, such a sensor type thermometer 100 is based on the premise that the object to be measured is a flat surface temperature sensor. For this reason, a ferrite magnet having a weak magnetic force is generally used for the magnet 102 portion. It is. Moreover, since the normal thermocouple 106 is used for the temperature sensing part A, the temperature sensing part A at the tip of the thermocouple 106 is measured as a “point”.

このようなセンサータイプの温度計100を使用すると、以下のような問題点が発生する。
1)磁力が弱いために配管表面に使用すると、自重によってセンサーとしての温度計が傾く。
2)製作誤差が発生し易く、また、必要な条件を満たすような製作が困難である。
3)所定の穴への保温材充填時、温度計の計測部が傾く可能性がある。
When such a sensor type thermometer 100 is used, the following problems occur.
1) Because the magnetic force is weak, when used on the pipe surface, the thermometer as a sensor tilts due to its own weight.
2) Production errors are likely to occur, and production that satisfies the necessary conditions is difficult.
3) When filling a predetermined hole with a heat insulating material, there is a possibility that the measurement part of the thermometer is inclined.

上記の問題点について、以下に詳細に検討する。   The above problems will be discussed in detail below.

先ず、取付け時の問題点として、配管表面は曲面であり、底面が平らな磁石を付けると、配管表面に密着できない部分が生じる。これにより、本来、その磁石が持っている磁力を十分に発揮することができず、一般的に吸着力が低下する。このために、表面温度センサーとしての温度計は、磁力の弱い磁石を使用しているために配管表面上に取付けると、温度計自身や配線の重みによって温度計が簡単に傾いてしまい、配管の上面や側面等の取付け場所によっては、温度計と配管との間に空気層が形成されて計測値が変化する原因となる。   First, as a problem at the time of installation, the surface of the pipe is a curved surface, and if a magnet having a flat bottom surface is attached, a portion that cannot be in close contact with the pipe surface is generated. As a result, the magnetic force inherently possessed by the magnet cannot be fully exhibited, and the attractive force generally decreases. For this reason, a thermometer as a surface temperature sensor uses a magnet with weak magnetic force, so if it is installed on the pipe surface, the thermometer easily tilts due to the thermometer itself or the weight of the wiring, and the pipe Depending on the mounting location such as the upper surface or the side surface, an air layer is formed between the thermometer and the piping, which causes the measurement value to change.

この問題点を解決するための手段として、磁力を強くすることが考えられ、例えばフェライト磁石をネオジム磁石に換えることが考えられる。このような方法ならば、強い磁力が得られ、上述の問題点は解決されるが、しかしながら、温度計を配管から取外す際に、配管と磁石との吸着力が強すぎて、熱電対に大きな負荷がかかることになり、熱電対が磁石と接着している樹脂部分から脱落してしまう。つまり、磁石と熱電対との接着部分の補強が問題となる。   As a means for solving this problem, it is conceivable to increase the magnetic force. For example, it is possible to replace the ferrite magnet with a neodymium magnet. With such a method, a strong magnetic force can be obtained and the above-mentioned problems can be solved. However, when the thermometer is removed from the pipe, the adsorption force between the pipe and the magnet is too strong, and the thermocouple is large. A load is applied, and the thermocouple falls off from the resin portion bonded to the magnet. That is, there is a problem of reinforcing the bonded portion between the magnet and the thermocouple.

また、磁石部分を持って取外すことも考えられるが、磁石部分が小さいことや、吸着力が強いこと等によって簡単には外れず、困難である。   Although it is conceivable to remove the magnet part, it is difficult because it cannot be easily removed due to the small magnet part or strong attraction force.

次に、製作時の問題点として、個々の温度計において、熱電対の感温部の位置がリング型の磁石の中心に配置されていることが重要となる。このようなことは、測定精度と製作の困難さとにつながる問題となる。   Next, as a problem at the time of manufacture, it is important that the position of the thermosensitive portion of the thermocouple is arranged at the center of the ring-type magnet in each thermometer. This is a problem that leads to measurement accuracy and difficulty in manufacturing.

さらに、温度計の感温部がリング型の磁石の中心にあれば、感温部が配管の表面の直近に位置するようになるが、感温部が中心からずれていると、温度計取付け向きにより、計測値に誤差が生じるようになる。   In addition, if the temperature sensing part of the thermometer is at the center of the ring-type magnet, the temperature sensing part will be located in the immediate vicinity of the surface of the pipe. An error occurs in the measured value depending on the direction.

また、保温材施工時の問題点としては、冷水や温水の配管等を計測する際、温度計の設置後に結露防止や熱損失防止のために保温材を被覆するようにしている。しかしながら、この保温材の被覆作業中に、センサーとしての温度計が保温材によって押されて傾く可能性がある。温度計が傾いてしまうと、先に説明したと同様な影響が発生することになる。さらに、保温材の種類や施工手順、その他施工法或いは厚み等によって断熱具合が変化するために、施工方法を細かく統一する必要がある。   Moreover, as a problem at the time of heat insulating material construction, when measuring cold water or hot water pipes, the heat insulating material is covered to prevent condensation and heat loss after the thermometer is installed. However, during the covering operation of the heat insulating material, there is a possibility that the thermometer as a sensor is pushed by the heat insulating material and tilted. If the thermometer is tilted, the same effect as described above will occur. Furthermore, since the heat insulation changes depending on the kind of the heat insulating material, the construction procedure, the other construction method, the thickness, etc., it is necessary to unify the construction method finely.

本発明は、上記問題点に鑑み、表面が曲面である配管やダクトの他、タンクや熱交換器等の表面温度の計測に適した形状の曲面の表面温度計測用温度計、それを使用して計測条件が一定となる内部に流体が流れる被計測物の曲面の表面温度計測用温度計の施工方法、および該施工方法によって得られた計測値と保温材開口部内部温度との関係から補正を行って高精度に、配管やダクトの他、タンクや熱交換器内の温度を計測する、曲面を有し内部に流体が流れる被計測物の表面温度の計測方法を提供することを課題とするものである。   In view of the above problems, the present invention uses a thermometer for measuring a surface temperature of a curved surface having a shape suitable for measuring the surface temperature of a tank or a heat exchanger, in addition to a pipe or duct having a curved surface. Correction method based on the construction method of the surface temperature measurement thermometer for the curved surface of the measured object flowing inside the measurement condition is constant, and the relationship between the measured value obtained by the construction method and the temperature inside the heat insulating material opening It is an object to provide a method for measuring the surface temperature of an object to be measured that has a curved surface and a fluid flows inside, in addition to piping and ducts, and measuring the temperature in a tank or heat exchanger with high accuracy. To do.

上記課題を達成するために、本発明の曲面の表面温度計測用温度計は、中央に孔が形成されたリング型の磁石と、該磁石の孔に一端が差し込まれて固着された金属保護管と、該金属保護管内に配置されて一端が前記リング型の磁石の被計測物表面との接触面の近傍に位置された熱電対と、前記金属保護管内に充填されて熱電対への熱伝導を良好にする充填剤とを有することを特徴とする。   In order to achieve the above object, a curved surface temperature measuring thermometer according to the present invention includes a ring-shaped magnet having a hole formed in the center thereof, and a metal protective tube having one end inserted into and fixed to the hole of the magnet. A thermocouple disposed in the metal protective tube and having one end positioned near the contact surface of the ring-type magnet with the surface of the object to be measured, and heat conduction to the thermocouple filled in the metal protective tube It is characterized by having a filler for improving the viscosity.

本発明の内部に流体が流れる被計測物の曲面の表面温度計測用温度計の施工方法は、中央に孔が形成されたリング型の磁石と、この磁石の孔に一端が差し込まれて固着された金属保護管と、金属保護管内に配置されて一端の感温部がリング型の磁石の下面側の被計測物表面との接触面の近傍に位置された熱電対と、金属保護管内に充填されて熱電対への熱伝導を良好にする充填剤とを有する表面温度計測用温度計を、保温材で覆われた曲面の表面に設置するために、保温材の表面に穴あけ治具を用いて穴を開ける工程と、保温材に開けられた穴内に温度計を配置して取付ける工程と、温度計が設置された保温材の開口部をアルミ箔またはアルミテープで塞ぐ工程と、からなることを特徴とする。また、本発明の内部に流体が流れる被計測物の曲面の表面温度計測用温度計の施工方法は、穴あけ治具が、一端に刃が形成された中空の円筒部材を有し、刃先を保温材の表面に押し込んで穴を開けることができ、穴あけ治具の一端部の刃先を保護するように覆う保護キャップを設けることが好適である。   The construction method of the surface temperature measurement thermometer for the curved surface of the object to be measured flowing in the inside of the present invention is a ring-type magnet having a hole formed in the center, and one end is inserted into and fixed to the hole of this magnet. A metal protection tube, a thermocouple placed in the metal protection tube, and a thermocouple located near the contact surface with the surface of the object to be measured on the lower surface of the ring magnet, and filled in the metal protection tube In order to install a thermometer for surface temperature measurement with a filler that improves heat conduction to the thermocouple on the surface of the curved surface covered with the heat insulating material, a drilling jig is used on the surface of the heat insulating material. A step of drilling a hole, a step of placing and attaching a thermometer in a hole opened in the heat insulating material, and a step of closing the opening of the heat insulating material in which the thermometer is installed with aluminum foil or aluminum tape. It is characterized by. Further, the construction method of the thermometer for measuring the surface temperature of the curved surface of the object to be measured, in which the fluid flows in the present invention, the drilling jig has a hollow cylindrical member having a blade formed at one end, and the blade edge is kept warm. It is preferable to provide a protective cap that can be pushed into the surface of the material to open a hole and that covers the cutting edge of one end of the drilling jig.

本発明の曲面を有し内部に流体が流れる被計測物の表面温度の計測方法は、表面が保温材で覆われた曲面を有し内部に流体が流れる被計測物の表面温度を計測するために、保温材の表面に穴を開けて穴内に表面温度計測用温度計を配置して温度計のリング型の磁石を曲面表面に当接させて温度計を取付ける工程と、開口部内の周囲温度を計測するための別の周囲温度計を開口部内に配置する工程と、周囲温度計を配置した後に保温材の開口部をアルミ箔またはアルミテープで塞ぐ工程と、曲面表面の温度と開口部内の周囲温度とを計測して計測した曲面表面温度と開口部内の周囲温度との差により曲面表面温度の計測値の補正を行う工程と、からなることを特徴とする。また、この計測方法は、曲面の表面を覆う保温材の表面に、一端に刃が形成された中空円筒部材を有する穴あけ冶具を押し込んで穴を開けることができる。   The method for measuring the surface temperature of an object to be measured having a curved surface in which a fluid flows inside is to measure the surface temperature of the object to be measured having a curved surface whose surface is covered with a heat insulating material and in which the fluid flows. In addition, a process for installing a thermometer by making a hole in the surface of the heat insulating material, placing a thermometer for measuring the surface temperature in the hole and bringing the ring-shaped magnet of the thermometer into contact with the curved surface, and the ambient temperature in the opening A step of placing another ambient thermometer in the opening for measuring the temperature, a step of closing the opening of the heat insulating material with aluminum foil or aluminum tape after the placement of the ambient thermometer, the temperature of the curved surface and the inside of the opening And a step of correcting the measured value of the curved surface temperature based on the difference between the curved surface temperature measured by measuring the ambient temperature and the ambient temperature in the opening. Moreover, this measuring method can punch a hole by inserting a drilling jig having a hollow cylindrical member having a blade formed at one end into the surface of the heat insulating material covering the surface of the curved surface.

本発明によれば、曲面の表面温度計測用温度計は、表面が曲面である被計測物曲面の表面温度の計測に適した形状をなしており、誰が計測を行っても慣れや不慣れに拘わらず計測条件が一定となる温度計とその施工方法をもたらすものであり、得られる計測値と被計測物の保温材開口部内部の温度との関係から補正を行って高精度に被計測物内の温度を計測することができる。   According to the present invention, the thermometer for measuring the surface temperature of the curved surface has a shape suitable for the measurement of the surface temperature of the curved surface of the object to be measured, and regardless of who is performing the measurement, the thermometer for measuring the surface temperature is used. This provides a thermometer with a constant measurement condition and its construction method, and corrects the relationship between the measured value obtained and the temperature inside the heat insulation material opening of the object to be measured. Temperature can be measured.

以下に、添付図面を参照して本発明の実施形態を詳細に説明する。
(実施例1)
図1は、本発明での被計測物の一例としての配管またはダクトにおける表面温度計測用温度計を示す断面概要図である。
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
Example 1
FIG. 1 is a schematic cross-sectional view showing a surface temperature measurement thermometer in a pipe or duct as an example of an object to be measured in the present invention.

図示されるように、本発明の表面温度計測用温度計1は、中央に孔3が形成されたリング型の磁石2と、磁石2の孔3に一端が差し込まれて固着された金属保護管4と、金属保護管4内に配置されて一端が磁石2の配管表面との接触面2aの近傍に位置された熱電対6と、金属保護管4内に充填されて熱電対6への熱伝導を良好にする充填剤8とを有している。   As shown in the figure, a thermometer 1 for measuring a surface temperature according to the present invention includes a ring-type magnet 2 having a hole 3 formed in the center, and a metal protective tube having one end inserted into and fixed to the hole 3 of the magnet 2. 4, a thermocouple 6 disposed in the metal protective tube 4 and having one end positioned in the vicinity of the contact surface 2 a with the pipe surface of the magnet 2, and the heat to the thermocouple 6 filled in the metal protective tube 4 And a filler 8 for improving conduction.

本発明の表面温度計測用温度計1は、図示の如く金属保護管4付の熱電対6に、金属保護管4の外径と一致する内径寸法を有するリング型の磁石2をエポキシ樹脂系接着剤で接着しており、熱電対6の他方の端部に差込み部7が設けられていて所要の計測用計器類に接続できるようになっている。   A thermometer 1 for surface temperature measurement according to the present invention includes a ring-type magnet 2 having an inner diameter that matches the outer diameter of a metal protective tube 4 and an epoxy resin adhesive. The plug 7 is provided at the other end of the thermocouple 6 so that it can be connected to required measuring instruments.

図示の実施例においては、配管10の外周面に磁石2によって取付けられる表面温度計測用の温度計1の下方部分が断面で示されると共に、被計測物としての配管10の一部が示されており、配管10の他の部分と配管10の表面を覆っている保温材等は図示されておらず省略されている。また、配管10は、冷水や温水等の流体の流通するパイプだけに限られず、空調用のダクトやタンク、熱交換器等の同様なもの等にも使用可能である。   In the illustrated embodiment, the lower part of the thermometer 1 for surface temperature measurement attached to the outer peripheral surface of the pipe 10 by the magnet 2 is shown in cross section, and a part of the pipe 10 as an object to be measured is shown. The heat insulating material covering the other part of the pipe 10 and the surface of the pipe 10 is not shown and is omitted. Further, the pipe 10 is not limited to a pipe through which a fluid such as cold water or hot water flows, but can be used for a similar one such as a duct, tank, heat exchanger or the like for air conditioning.

このような本発明の表面温度計測用温度計1において、磁石2は、永久磁石の中でも最も磁力の強いネオジム磁石を使用するのが好適であり、熱電対6には金属保護管4付の熱電対を用いており、接着する磁石2と金属保護管4の底面を平らにしていることも重要である。金属保護管4としては、例えばステンレス鋼を使用することができ、円筒形でフラットな底面を有し、上方が開放している。金属保護管4の中に填められる充填剤8には、例えば酸化マグネシウムが用いられる。このような熱伝導性のよい材料を充填した後、樹脂で蓋をすることで温度計1の計測部を構成できる。また、ここでは熱電対6を金属粉で保持する構成としているが、熱伝導性の良い材料を溶融して当該材料周囲に流し、固化させてもよい。   In such a thermometer 1 for surface temperature measurement of the present invention, the magnet 2 is preferably a neodymium magnet having the strongest magnetic force among permanent magnets, and the thermocouple 6 is a thermoelectric with a metal protective tube 4. It is also important to use a pair and to flatten the bottom surfaces of the magnet 2 and the metal protective tube 4 to be bonded. As the metal protective tube 4, for example, stainless steel can be used, which has a cylindrical and flat bottom surface and is open upward. For example, magnesium oxide is used as the filler 8 filled in the metal protective tube 4. After filling such a material with good thermal conductivity, the measuring unit of the thermometer 1 can be configured by covering with a resin. Here, the thermocouple 6 is held by metal powder, but a material having good thermal conductivity may be melted and flown around the material to be solidified.

リング型の磁石2の孔3に一端が差し込まれて接着剤によって固着された金属保護管4の内部に熱電対6が配置される。熱電対6は、金属保護管4の軸心に沿って配置されるように金属保護管4内に配置され、先端部が磁石2の配管10との接触面2aの近傍に位置されるように、すなわち、先端部が接触面2aから僅かに離れて位置するように設けることができる。すなわち、熱電対6の先端は配管表面(外周面)と接触させない。これにより配管に微小電流が流れる場合にも計測部がその影響を受けることを避けることができる。   A thermocouple 6 is disposed inside a metal protective tube 4 that is inserted into the hole 3 of the ring-type magnet 2 and fixed by an adhesive. The thermocouple 6 is disposed in the metal protective tube 4 so as to be disposed along the axis of the metal protective tube 4, and the tip portion is positioned in the vicinity of the contact surface 2 a with the pipe 10 of the magnet 2. That is, the tip portion can be provided so as to be located slightly away from the contact surface 2a. That is, the tip of the thermocouple 6 is not brought into contact with the pipe surface (outer peripheral surface). As a result, the measurement unit can be prevented from being affected even when a minute current flows through the pipe.

これは、熱電対6の先端部が配管10の外周面に接触して損傷するのを防止するようにするものである。これにより、温度計1を配管10の外周面上に設置した時に、磁石2の孔3の接触面2aに対する感温部を温度計1が良好に備えるようになる。   This is to prevent the tip of the thermocouple 6 from coming into contact with the outer peripheral surface of the pipe 10 and being damaged. Thereby, when the thermometer 1 is installed on the outer peripheral surface of the pipe 10, the thermometer 1 is favorably provided with a temperature sensing portion for the contact surface 2 a of the hole 3 of the magnet 2.

このような本発明の表面温度計測用温度計1においては、磁力の強いネオジム磁石を使用することで、温度計1の自重による傾きを防止することができ、取付け場所の制限をなくすことが可能となる。また、金属保護管を使用することにより、温度計1の取外しに対する問題の危惧も解消されるようになる。すなわち、温度計1の脱着に際しては、配管10の外周面上に直立状態に起立している温度計1の金属保護管4の上部を持って倒すように温度計1を傾ければ、磁石2の接触面2aの外周縁の一部を支点としてテコの作用によって磁石2が配管10の外周面から斜めに起こされ、これによって磁石2が配管10の外周面から離れるようなる。次いで、金属保護管4部分を持って上方に持ち上げれば、温度計1は容易に配管10から取外されるようになる。これにより、温度計1の脱着に際して熱電対6の配線には何等力が掛からないために磁石2に対する金属保護管4の脱落防止用の補強も不要となる。   In such a thermometer 1 for measuring a surface temperature of the present invention, by using a neodymium magnet having a strong magnetic force, it is possible to prevent the thermometer 1 from being inclined due to its own weight, and to eliminate the restriction of the mounting location. It becomes. Further, the use of the metal protective tube also eliminates the concern about the problem of removing the thermometer 1. That is, when the thermometer 1 is attached or detached, if the thermometer 1 is tilted so as to be tilted by holding the upper portion of the metal protective tube 4 of the thermometer 1 standing upright on the outer peripheral surface of the pipe 10, the magnet 2 The magnet 2 is raised obliquely from the outer peripheral surface of the pipe 10 by the action of the lever with a part of the outer peripheral edge of the contact surface 2 a as a fulcrum, whereby the magnet 2 is separated from the outer peripheral surface of the pipe 10. Next, if the metal protective tube 4 is held and lifted upward, the thermometer 1 can be easily detached from the pipe 10. Thereby, since no force is applied to the wiring of the thermocouple 6 when the thermometer 1 is attached / detached, reinforcement for preventing the metal protective tube 4 from falling off the magnet 2 is not required.

また、このような金属保護管4を使用することによって、温度計1の配管10に対する磁石2の接触面2aにおける感温部、金属保護管4内に充填された充填剤8の接触部分が面となり、リング型の磁石2の金属保護管4の底面を一致させることで、感温部が配管10と確実に接触するようになり、金属保護管4内部に充填された酸化マグネシウムのような熱伝導率の高い充填剤8が充填されているために、個々の温度計1によって熱電対6の測温接点の位置が金属保護管4内部で多少違っていても、このような違いが計測値に与える影響は極めて少なくなる。従って、結果的に、熱電対6の測温接点の位置に厳密な制限が無くなるために製作も容易となる。   Further, by using such a metal protective tube 4, the temperature-sensitive portion on the contact surface 2 a of the magnet 2 with respect to the pipe 10 of the thermometer 1 and the contact portion of the filler 8 filled in the metal protective tube 4 are surfaced. Thus, by matching the bottom surface of the metal protective tube 4 of the ring-shaped magnet 2, the temperature sensing part comes into contact with the pipe 10 reliably, and heat such as magnesium oxide filled in the metal protective tube 4 is obtained. Even if the position of the temperature measuring junction of the thermocouple 6 is slightly different inside the metal protective tube 4 by the individual thermometers 1 due to the filling with the high conductivity filler 8, this difference is the measured value. The impact on the is extremely small. Therefore, as a result, since there is no strict restriction on the position of the temperature measuring junction of the thermocouple 6, the manufacture is facilitated.

このように構成された本発明の表面温度計測用温度計1によって以下のような利点が得られる。
1)表面が曲面である被計測物に対しても強力な磁力を発揮し、強固な取付けが可能となり、これによって被計測物の振動や外部からの衝撃に対しても、容易に外れたり、ずれたりすることがなくなる。
2)上記により、取付け姿勢が一定となり、温度計の自重や配線の重さによる傾きが少なくなる。
3)上記から取付けにおける個人差が無くなり、常に一定した計測が可能になる。
4)金属保護管付熱電対を使用して金属保護管内部に酸化マグネシウムのような充填剤を充填することで、熱電対の測温接点が多少ずれても問題が無く、製作誤差を少なくでき、かつ製作も容易となる。
5)磁石と金属保護管の底面を平らにすることで、曲面状の被計測物表面においても必ず金属保護管の底面が被計測物と接触するようになる。
6)温度計の脱着を容易に行うことができる。
7)金属保護管の脱落防止用の補強の必要性がなくなる。
The following advantages are obtained by the thermometer 1 for measuring a surface temperature of the present invention configured as described above.
1) A strong magnetic force can be exerted even on an object to be measured whose surface is curved, and it can be firmly attached, so that it can be easily removed even when the object to be measured is vibrated or shocked from the outside. It will not shift.
2) Due to the above, the mounting posture is constant, and the inclination due to the weight of the thermometer and the weight of the wiring is reduced.
3) From the above, there is no individual difference in installation, and constant measurement is always possible.
4) By using a thermocouple with a metal protection tube and filling the metal protection tube with a filler such as magnesium oxide, there is no problem even if the thermocouple's temperature measuring contact is slightly displaced, and manufacturing errors can be reduced. In addition, manufacturing is also easy.
5) By flattening the bottom surface of the magnet and the metal protective tube, the bottom surface of the metal protective tube always comes into contact with the object to be measured even on the curved surface of the object to be measured.
6) The thermometer can be easily attached and detached.
7) The need for reinforcement for preventing the metal protective tube from falling off is eliminated.

上記利点に関連し、以下に温度計の取付け施工用に製作した穴あけ治具とその施工実施例について詳細に説明する。   In relation to the above advantages, a drilling jig manufactured for thermometer mounting and its working examples will be described in detail below.

なお、上記実施例においては、本発明の温度計を配管表面温度の計測用の温度計として説明したが、配管に限らず、空調用のダクトやタンク、熱交換器等にも適用できることは勿論である。
(実施例2)
上記のような本発明の表面温度計測用温度計を用いて温度計測を行う場合の温度計の施工方法について次に説明する。
In the above-described embodiments, the thermometer of the present invention has been described as a thermometer for measuring the pipe surface temperature. However, the present invention can be applied not only to pipes but also to air conditioning ducts, tanks, heat exchangers, and the like. It is.
(Example 2)
Next, the construction method of the thermometer in the case of performing temperature measurement using the above-described surface temperature measurement thermometer of the present invention will be described.

本発明の内部に流体が流れる被計測物の曲面の表面温度計測用温度計の施工方法は、
中央に孔が形成されたリング型の磁石と、この磁石の孔に一端が差し込まれて固着された金属保護管と、金属保護管内に配置されて一端の感温部がリング型の磁石の下面側の被計測物表面との接触面の近傍に位置された熱電対と、金属保護管内に充填されて熱電対への熱伝導を良好にする充填剤とを有する表面温度計測用温度計を、保温材で覆われた被計測物曲面の表面に設置するために、保温材の表面に穴あけ治具を用いて穴を開ける工程(第1工程)と、
保温材に開けられた穴内に温度計を配置して取付ける工程(第2工程)と、
温度計が設置された保温材の開口部をアルミ箔またはアルミテープで塞ぐ工程(第3工程)と、
から構成されており、これら第1乃至第3の工程が図2乃至図4に各工程毎に示されている。
The construction method of the thermometer for measuring the surface temperature of the curved surface of the measured object through which the fluid flows in the present invention,
A ring-type magnet with a hole formed in the center, a metal protective tube with one end inserted into and fixed to the hole of the magnet, and a temperature-sensing portion disposed at one end of the bottom surface of the ring-type magnet A thermometer for measuring a surface temperature having a thermocouple located in the vicinity of the contact surface with the surface of the object to be measured on the side, and a filler filled in a metal protective tube to improve heat conduction to the thermocouple, A step (first step) of making a hole on the surface of the heat insulating material using a drilling jig in order to install it on the surface of the object to be measured covered with the heat insulating material;
A process (second process) in which a thermometer is placed and installed in the hole opened in the heat insulating material,
A process (third process) of closing the opening of the heat insulating material in which the thermometer is installed with aluminum foil or aluminum tape;
These first to third steps are shown for each step in FIGS. 2 to 4.

このような本発明の内部に流体が流れる被計測物の曲面の表面温度計測用温度計の施工方法においては、先に説明した表面温度計測用温度計を被計測物に対して設置する際に、被計測物を覆っている保温材の除去を始めに行うことが必要である。すなわち、既設はもちろん新設であっても被計測物の外周全面に保温材が被覆してあり、これに対し計測部位を露出させる。   In the construction method of the surface temperature measurement thermometer of the curved surface of the object to be measured in which fluid flows inside the present invention, when the surface temperature measurement thermometer described above is installed on the object to be measured, It is necessary to first remove the heat insulating material covering the object to be measured. That is, even if it is an existing installation or a new installation, the entire outer periphery of the object to be measured is covered with a heat insulating material, and the measurement site is exposed to this.

この第1の工程の保温材の除去は、図2に示されるように穴あけ治具を用いて行われる。なお、穴あけ治具の詳細な構成については後に詳しく説明するものとする。   The removal of the heat insulating material in the first step is performed using a drilling jig as shown in FIG. The detailed configuration of the drilling jig will be described in detail later.

これにより誰が施工しても常に同じ大きさの開口部が、被計測物の保温材に対して得られるようにしている。   As a result, an opening of the same size is always obtained for the heat insulating material of the object to be measured, regardless of who constructs it.

なお、本実施例においては、本発明での被計測物の一例としての配管またはダクトにおける表面温度計測用温度計の施工方法について説明するものとする。   In this embodiment, a method for constructing a thermometer for measuring a surface temperature in a pipe or duct as an example of an object to be measured in the present invention will be described.

図2に示されるように、穴を開けるべき配管10の保温材12の表面に対して、穴あけ治具20の刃24の先を当てがい、穴あけ治具20を保温材12に対してねじ込むように押圧する。これにより、穴あけ治具20の刃24の先が保温材12に食い込んで保温材12の外装材を切断する。これにより開口部14を形成するようになる。   As shown in FIG. 2, the tip of the blade 24 of the drilling jig 20 is applied to the surface of the heat insulating material 12 of the pipe 10 to be drilled, and the drilling jig 20 is screwed into the heat insulating material 12. Press on. Thereby, the tip of the blade 24 of the drilling jig 20 bites into the heat insulating material 12 and cuts the exterior material of the heat insulating material 12. Thereby, the opening 14 is formed.

このようにして、保温材12に穴が開けられて開口部14が形成されたならば、第2工程として保温材12の開口部14内に温度計1が設置される。この第2工程が図3に示されている。   In this way, when the hole is formed in the heat insulating material 12 and the opening 14 is formed, the thermometer 1 is installed in the opening 14 of the heat insulating material 12 as the second step. This second step is illustrated in FIG.

図示されるように、温度計1には先に説明された配管またはダクトの表面温度計測用温度計が使用され、この温度計1が配管10の保温材12に開けられた開口部14内に設置される。設置された表面温度計測用温度計1は、下部の磁石2が配管10の外周面に吸着して開口部14内に真っ直ぐに起立した状態に設置されるようになる。この第2工程の状態が図3に示されている。   As shown in the figure, a thermometer for measuring the surface temperature of the pipe or duct described above is used as the thermometer 1, and the thermometer 1 is placed in the opening 14 opened in the heat insulating material 12 of the pipe 10. Installed. The installed thermometer 1 for surface temperature measurement is installed in a state where the lower magnet 2 is attracted to the outer peripheral surface of the pipe 10 and stands upright in the opening 14. The state of this second step is shown in FIG.

こうして表面温度計測用温度計1が保温材12の開口部14内に設置されたならば、温度計1のリード線等の配線9を配管10の保温材12の外周面に沿って延出するように配置して、開口部14の入口にアルミ箔やアルミテープ16などの外装材を貼って開口部14を塞ぐようにする。この第3工程が図4に示されている。このようにして配管10の保温材12の開口部14内に温度計1が設置されたならば、この開口部14内に何ら充填することなく保温をしないまま開口部14の入口をアルミ箔またはアルミテープ16で塞ぐようになる。この保温をしないまま開口部14をアルミ箔やアルミテープ16で塞ぐことには、次のような利点と欠点とが見られる。
(利点)
1)保温材充填の作業時に保温材により温度計が傾かない。
2)温度計の設置手順を統一することができる。
3)温度計設置時の作業性を向上することができる。
(欠点)
1)周囲温度の影響が温度計に伝わり易い。
2)アルミテープやアルミ箔の表面での結露の可能性がある。
When the surface temperature measuring thermometer 1 is thus installed in the opening 14 of the heat insulating material 12, the wiring 9 such as a lead wire of the thermometer 1 extends along the outer peripheral surface of the heat insulating material 12 of the pipe 10. Arranged in such a manner that an exterior material such as aluminum foil or aluminum tape 16 is attached to the entrance of the opening 14 to close the opening 14. This third step is illustrated in FIG. Thus, if the thermometer 1 is installed in the opening part 14 of the heat insulating material 12 of the pipe 10, the inlet of the opening part 14 is made of an aluminum foil or an inlet without filling the opening part 14 without being heated. It is closed with aluminum tape 16. The following advantages and disadvantages are observed when the opening 14 is closed with the aluminum foil or the aluminum tape 16 without keeping the temperature.
(advantage)
1) The thermometer is not tilted by the heat insulating material during the work of filling the heat insulating material.
2) The thermometer installation procedure can be unified.
3) Workability at the time of thermometer installation can be improved.
(Disadvantage)
1) The influence of ambient temperature is easily transmitted to the thermometer.
2) There is a possibility of condensation on the surface of aluminum tape or aluminum foil.

上記の欠点において、1)の周囲温度の影響については保温材の開口部内部の温度と計測値、配管内の温度との関連性をとらえることによって解決することが可能である。この問題を解決すると、周囲温度の影響を受け易いことは、逆に利点となる。この点についての理由とその計測方法とについては、後に説明する。   In the above disadvantage, the influence of the ambient temperature in 1) can be solved by grasping the relationship between the temperature inside the opening of the heat insulating material, the measured value, and the temperature in the pipe. When this problem is solved, it is advantageous in that it is easily influenced by the ambient temperature. The reason for this point and the measurement method will be described later.

また、保温を行わないことに対する結露の可能性については、アルミテープまたはアルミ箔の表面温度は、配管内の温度の影響より周囲温度の影響を強く受ける。そのため、アルミテープまたはアルミ箔の表面温度は結露を発生させるほどまでは低下しないために何ら問題がない。   In addition, regarding the possibility of condensation for not performing heat insulation, the surface temperature of the aluminum tape or the aluminum foil is more strongly affected by the ambient temperature than the temperature inside the pipe. Therefore, there is no problem because the surface temperature of the aluminum tape or aluminum foil does not decrease to the extent that condensation occurs.

このような本発明の配管またはダクトの表面温度計測用温度計の施工方法の実施に伴って使用される穴あけ治具とその使用状態と保護キャップとが図5乃至図7に示されている。   5 to 7 show a drilling jig used in connection with the construction method of the thermometer for measuring the surface temperature of the pipe or duct of the present invention, its use state, and a protective cap.

図5に示されるように、穴あけ治具20は、例えばステンレス鋼から成る中空の円筒部材22から成り、一端に刃24が形成されている。刃24は略10゜〜20゜の角度が好適であり、一例として、例えば外径が略40mmで、長さが略100mmとすることができる。   As shown in FIG. 5, the drilling jig 20 is composed of a hollow cylindrical member 22 made of, for example, stainless steel, and a blade 24 is formed at one end thereof. The blade 24 preferably has an angle of approximately 10 ° to 20 °. As an example, the blade 24 may have an outer diameter of approximately 40 mm and a length of approximately 100 mm.

このような穴あけ冶具20は、空調用の配管10の冷水、温水系統に施工してあるアルミ箔付保温筒等の保温材12に配管表面温度計測用温度計1を取付けるための穴を、開口部14として開ける場合に使用されるものである。   Such a drilling jig 20 has an opening for attaching the pipe surface temperature measuring thermometer 1 to a heat insulating material 12 such as an aluminum foil heat insulating cylinder constructed in cold water or hot water system of the air conditioning pipe 10. It is used when opening as the part 14.

このように、穴あけ冶具20は、ステンレス鋼の円筒部材22にて構成され、一端を先端が鋭くなるように切削されて、刃24が設けられており、配管10を覆っている保温材12を貫通しやすくなっていて配管12の任意、または所定の場所に一定の大きさの開口部14を容易に開けることが可能となると共に、誰が施工しても同じ大きさの開口部14を得ることができるようになっている。また、配管10の保温材12は、保温材自体が層状に重なっているために、一度穴あけ冶具20を用いて保温材12に対して押し込んで挿入した後、穴あけ治具20を抜き取ると、穴あけ治具20が挿入されたところの保温材12は穴あけ冶具20の内部にとどまり、きれいに開口部14を形成することができる。この状態が図7に示されている。なお、本実施例では配管10の保温材12は、グラスウールなどの保温材12外周面が外装材としてのアルミシートで覆われている。   Thus, the drilling jig 20 is constituted by the stainless steel cylindrical member 22, one end is cut so that the tip is sharp, the blade 24 is provided, and the heat insulating material 12 covering the pipe 10 is provided. It is easy to penetrate and it is possible to easily open the opening 14 of a certain size at an arbitrary or predetermined place of the pipe 12, and the opening 14 of the same size can be obtained regardless of who constructs it. Can be done. Moreover, since the heat insulating material 12 of the pipe 10 is layered, the heat insulating material 12 is once pushed into the heat insulating material 12 using the drilling jig 20 and then inserted. The heat insulating material 12 into which the jig 20 has been inserted stays inside the drilling jig 20, and the opening 14 can be formed cleanly. This state is shown in FIG. In this embodiment, the heat insulating material 12 of the pipe 10 has an outer peripheral surface of the heat insulating material 12 such as glass wool covered with an aluminum sheet as an exterior material.

図7に示されるように、配管10に対して所要の場所の保温材12に穴あけをする場合に、配管10を覆っている保温材12に対して穴あけ治具20の刃24を保温材12の外装材表面に押し当てて回転させ、外装材を切断した後に押して挿入すれば、穴あけ治具20の刃24の先端が保温材12を切断して食い込むので、十分に押し込んだ後に穴あけ治具20を引き抜けば、穴あけ治具20の内部にとどまった保温材12は、穴あけ治具20の先端の刃24が削ってあると反対側から押し出されるように除去することができる。このようにして、配管10の保温材12に温度計1を設置するための開口部14を設けることができる。   As shown in FIG. 7, when drilling the heat insulating material 12 at a required place with respect to the pipe 10, the blade 24 of the drilling jig 20 is attached to the heat insulating material 12 with respect to the heat insulating material 12 covering the pipe 10. If the outer material is pressed against the surface of the outer material and rotated, and the outer material is cut and then inserted, the tip of the blade 24 of the drilling jig 20 cuts the heat insulating material 12 and bites in. By pulling out 20, the heat insulating material 12 staying inside the drilling jig 20 can be removed so as to be pushed out from the opposite side when the blade 24 at the tip of the drilling jig 20 is shaved. Thus, the opening part 14 for installing the thermometer 1 in the heat insulating material 12 of the pipe 10 can be provided.

上述するように、穴あけ治具20だけを用いて配管10の保温材12に開口部14を設けることが十分に可能であるが、穴あけの度に手の平で穴あけ治具20の他方の端部を押圧しなければならず、手を痛める恐れがある。このような手を痛める可能性を除去するために、穴あけ治具20と一緒に使用する保護キャップが図6に示されている。   As described above, it is sufficiently possible to provide the opening 14 in the heat insulating material 12 of the pipe 10 using only the drilling jig 20, but the other end of the drilling jig 20 can be placed with a palm every time a hole is drilled. You have to press it and you may hurt your hands. In order to eliminate the possibility of hurting such a hand, a protective cap for use with the drilling jig 20 is shown in FIG.

図示されるように、保護キャップ30は、ゴムや軟質の合成樹脂材料、断熱性の高いウレタンゴムから作られており、円筒部32と頂部34とから形成されている。円筒部32は、内径寸法が、穴あけ治具20の外形寸法よりも僅かに小さな寸法に作られ、穴あけ治具20に嵌めて装着した時に、脱落しないようにピッタリと嵌まる寸法に作られることが好適である。   As shown in the drawing, the protective cap 30 is made of rubber, a soft synthetic resin material, or urethane rubber having high heat insulation properties, and is formed of a cylindrical portion 32 and a top portion 34. The cylindrical portion 32 has an inner diameter dimension that is slightly smaller than the outer dimension of the drilling jig 20, and has a dimension that fits perfectly so that it does not fall off when fitted into the drilling jig 20. Is preferred.

このような保護キャップ30を穴あけ治具20に装着して配管10の保温材12に穴を開けるように用いれば、保護キャップ30がゴムまたは軟質の合成樹脂材料で作られているために手が滑らずに良好に穴を開けることができ、手を痛めることがない。しかも、保護キャップ30は、穴あけ治具20の外形寸法よりも僅かに小さな寸法に作られているために自然に脱落することが無く脱落を防止することができる。   If such a protective cap 30 is attached to the drilling jig 20 and used to make a hole in the heat insulating material 12 of the pipe 10, the protective cap 30 is made of rubber or a soft synthetic resin material. You can pierce well without slipping and do not hurt your hands. Moreover, since the protective cap 30 is made to be slightly smaller than the outer dimension of the drilling jig 20, it does not drop out naturally and can be prevented from falling off.

また、穴あけ治具20の使用後は、保護キャップ30を穴あけ治具20の刃24の側に装着することで、穴あけ治具20の持ち運び中に刃24が欠けるのを防いだり、人体を傷つけたりすることを防ぐことができる。
(応用例)
上述した穴あけ治具20を使用した応用例について、次に説明する。
In addition, after the drilling jig 20 is used, the protective cap 30 is attached to the blade 24 side of the drilling jig 20 to prevent the blade 24 from being chipped while the drilling jig 20 is being carried or to damage the human body. Can be prevented.
(Application examples)
Next, an application example using the above-described drilling jig 20 will be described.

図8および図9に示されるように、この応用例においては、穴あけ治具20は、配管10の保温材12の厚さよりも10mm程度長く作られて用意されている。また、保護キャップ30には、断熱性の高いウレタンゴムを用いて製作している。   As shown in FIGS. 8 and 9, in this application example, the drilling jig 20 is prepared by being made approximately 10 mm longer than the thickness of the heat insulating material 12 of the pipe 10. Further, the protective cap 30 is made of urethane rubber having high heat insulation properties.

このような穴あけ治具20と保護キャップ30とを用いて、図8に示されるように穴あけ治具20を配管10の保温材12に対して押し込んで穴を開け、穴あけ治具20の内部を空にし、穴あけ治具20の内部に温度計1を装着する。温度計1のリード線等の配線9を穴あけ治具20の外方に延ばして計測用計器に接続し、断熱性の高いウレタンゴムの保護キャップ30を穴あけ治具20の上端に嵌めて装着する。ウレタンゴムのような断熱性の高い保護キャップ30を使用することによって、センサーとしての温度計1が設置されている穴あけ治具20の内部が配管挿入型の保護管と似たような条件になる。   Using such a drilling jig 20 and the protective cap 30, as shown in FIG. 8, the drilling jig 20 is pushed into the heat insulating material 12 of the pipe 10 to make a hole, and the inside of the drilling jig 20 is Empty and place the thermometer 1 inside the drilling jig 20. A wire 9 such as a lead wire of the thermometer 1 is extended to the outside of the drilling jig 20 and connected to a measuring instrument, and a protective cap 30 of urethane rubber with high heat insulation is fitted to the upper end of the drilling jig 20 and attached. . By using a protective cap 30 with high heat insulation such as urethane rubber, the inside of the drilling jig 20 in which the thermometer 1 as a sensor is installed is similar to a pipe insertion type protective tube. .

こうして、必要な配管10の表面温度の計測を行って、計測が終了したならば、温度計1のみを撤去することにより、開口した保温材12を修復する手間が省けると同時に、後日、例えば1年後などに再度計測を行う場合において、再度の穴あけが不要となり、かつ計測条件を一定に保って計測を行うことができ、精度の高い測定値を得ることが可能となる。
(実施例3)
このような本発明の表面温度計測用温度計を用いて温度計測を行う場合の計測方法について次に説明する。
In this way, when the necessary surface temperature of the pipe 10 is measured and the measurement is completed, by removing only the thermometer 1, the trouble of repairing the opened heat insulating material 12 can be saved and at the same time, for example, 1 When the measurement is performed again after a year or the like, it is not necessary to make a hole again, and the measurement can be performed while keeping the measurement conditions constant, and a highly accurate measurement value can be obtained.
(Example 3)
Next, a measurement method in the case of performing temperature measurement using such a surface temperature measurement thermometer of the present invention will be described.

本発明の曲面を有し内部に流体が流れる被計測物の表面温度の計測方法は、
表面が保温材で覆われた曲面を有し内部に流体が流れる被計測物の表面温度を計測するために、保温材の表面に穴を開けて穴内に表面温度計測用温度計を配置して温度計のリング型の磁石を曲面表面に当接させて温度計を取付ける工程(第1工程)と、
開口部内の周囲温度を計測するための別の周囲温度計を開口部内に配置する工程(第2工程)と、
周囲温度計を配置した後に保温材の開口部をアルミ箔またはアルミテープで塞ぐ工程(第3工程)と、
曲面表面の温度と開口部内の周囲温度とを計測して計測した曲面の表面温度と開口部内の周囲温度との差により曲面の表面温度の計測値の補正を行う工程(第4工程)と、
からなることを特徴とする。
The method for measuring the surface temperature of an object to be measured which has a curved surface and a fluid flows inside the
In order to measure the surface temperature of an object to be measured that has a curved surface covered with a heat insulating material and fluid flows inside, a hole is made in the surface of the heat insulating material, and a thermometer for measuring the surface temperature is placed in the hole. Attaching the thermometer by bringing the ring-shaped magnet of the thermometer into contact with the curved surface (first step);
Placing another ambient thermometer in the opening for measuring the ambient temperature in the opening (second step);
A step (third step) of closing the opening of the heat insulating material with aluminum foil or aluminum tape after the ambient thermometer is arranged;
A step of correcting the measured value of the surface temperature of the curved surface by a difference between the surface temperature of the curved surface measured by measuring the temperature of the curved surface and the ambient temperature in the opening and the ambient temperature in the opening (fourth step);
It is characterized by comprising.

また、本実施例においては、本発明での被計測物の一例としての配管またはダクトにおける表面温度の計測方法について説明するものとする。   In this embodiment, a method for measuring the surface temperature of a pipe or duct as an example of the object to be measured in the present invention will be described.

本発明での曲面を有し内部に流体が流れる被計測物である配管またはダクトの表面温度(外周面の温度)の計測方法においては、保温材12の開口部14内の保温をしても周囲温度の影響を完全に抑えることが不可能であり、周囲温度が10℃変化すると、その影響は計測値として0.4℃〜0.5℃も変化することになる(図10参照)。   In the method for measuring the surface temperature (temperature of the outer peripheral surface) of a pipe or duct, which is a measurement object having a curved surface and in which a fluid flows, in the present invention, the temperature inside the opening 14 of the heat insulating material 12 is kept warm. It is impossible to completely suppress the influence of the ambient temperature. When the ambient temperature changes by 10 ° C., the influence changes by 0.4 ° C. to 0.5 ° C. as a measured value (see FIG. 10).

ここで、一般的な補正方法は、計測箇所近傍の保温外部に設置した別の温度計で周囲温度を計測し、その周囲温度と配管表面温度計の計測値と、配管内温度との関係を導き出して補正を行うようにしている。   Here, a general correction method is to measure the ambient temperature with another thermometer installed outside the heat insulation near the measurement location, and measure the relationship between the ambient temperature, the measured value of the pipe surface thermometer, and the temperature in the pipe. It is derived and corrected.

しかしながら、この方法では、配管表面温度計測中に周囲温度が急変した場合、周囲温度を計測している温度計は、その変化に合わせて計測値も変化するが、配管表面温度を計測している温度計は、開口部内の保温の影響によって、その影響は直ぐには温度計に伝わらない。つまり、周囲温度計と配管表面温度計の時定数が違うために、周囲温度と計測値、配管内温度の関係は容易に適用できず、さらに、保温材開口部内を熱が伝わる速度も考慮する必要が出てくる。   However, with this method, if the ambient temperature changes suddenly during pipe surface temperature measurement, the thermometer that measures the ambient temperature measures the pipe surface temperature, although the measured value also changes according to the change. The thermometer is not immediately transmitted to the thermometer due to the effect of heat retention in the opening. In other words, because the time constants of the ambient thermometer and the pipe surface thermometer are different, the relationship between the ambient temperature, the measured value, and the temperature in the pipe cannot be easily applied, and the speed at which heat is transferred through the heat insulating material opening is also considered. Necessity comes out.

これに対し、図2乃至図4の施工方法で施工した場合に、周囲温度が10℃変化することで、計測値は0.7℃〜0.8℃変化することになり(図11参照)、開口部内を保温した場合と較べて周囲温度の影響を強く受けるようになる。しかしながら、その影響は周囲温度に対して線形であり、補正を容易に行うことができる。   On the other hand, when the construction method of FIG. 2 to FIG. 4 is used, the measured value changes by 0.7 ° C. to 0.8 ° C. when the ambient temperature changes by 10 ° C. (see FIG. 11). As compared with the case where the inside of the opening is kept warm, the influence of the ambient temperature is stronger. However, the effect is linear with respect to the ambient temperature and can be easily corrected.

計測値の補正には、従来、外部の周囲温度を計測するところの温度、すなわち本発明では周囲温度計1Aにより計測した保温材開口部内部温度、を使用する(図12)。図示されるように配管10の保温材12に形成された開口部14内に、配管表面温度計測用温度計1に加えて周囲温度計1Aを配置して配管10の表面の温度と開口部14内の周囲温度とを計測する。これによって、配管表面温度計測用温度計1と周囲温度計1Aの時定数の差が少なくなり、結果として、周囲温度が急変する環境下においても精度の高い計測、並びに補正が可能となる。   For correction of the measured value, conventionally, the temperature at which the external ambient temperature is measured, that is, the temperature inside the heat insulating material opening measured by the ambient thermometer 1A in the present invention is used (FIG. 12). As shown in the drawing, in the opening 14 formed in the heat insulating material 12 of the pipe 10, an ambient thermometer 1 </ b> A is arranged in addition to the pipe surface temperature measuring thermometer 1, and the surface temperature of the pipe 10 and the opening 14 are arranged. Measure the ambient temperature inside. As a result, the difference in time constant between the pipe surface temperature measuring thermometer 1 and the ambient thermometer 1A is reduced, and as a result, highly accurate measurement and correction are possible even in an environment where the ambient temperature changes suddenly.

図12に示されるようにして、図1の本発明の配管表面温度計測用温度計1を使用して図2乃至図4の手順で温度計1を取付けた際の実験結果としての配管内温度に対する計測値が図13乃至図15に示されている。   As shown in FIG. 12, the temperature in the pipe as an experimental result when the thermometer 1 for pipe surface temperature measurement of the present invention of FIG. 1 is used and the thermometer 1 is attached according to the procedure of FIGS. The measured values for are shown in FIGS.

上記図13乃至図15において、計測値の補正は、周囲温度計としての別の温度計によって計測した周囲温度としての保温材開口部内部温度と、保温材開口部内の配管表面温度計測用温度計によって計測した配管表面温度との両計測値の関係をとらえることで行っている。   In FIG. 13 to FIG. 15, the measurement values are corrected by the temperature inside the heat insulating material opening as the ambient temperature measured by another thermometer as the ambient thermometer and the thermometer for measuring the pipe surface temperature in the heat insulating material opening. This is done by grasping the relationship between both measured values and the pipe surface temperature measured by.

図13は、図2乃至図4の手順で、配管表面温度計測用温度計を設置した時の、配管内温度に対する計測値と配管内温度による誤差を周囲温度別に示すグラフであり、図14は、配管内温度と保温材開口部内部温度の差に対する計測値と配管内温度との誤差の関係を示すグラフであり、図15は、配管内温度に対する計測値の補正後の誤差を示すグラフである。   FIG. 13 is a graph showing the measured value for the temperature in the pipe and the error due to the temperature in the pipe according to the ambient temperature when the pipe surface temperature measuring thermometer is installed according to the procedure of FIGS. FIG. 15 is a graph showing the relationship between the measured value for the difference between the temperature in the pipe and the temperature inside the heat insulating material opening and the temperature in the pipe, and FIG. 15 is a graph showing the error after correction of the measured value with respect to the temperature in the pipe. is there.

これら図13乃至図15の状況により、計測値と保温材開口部内部温度とから補正を行い、±0.2℃の精度で計測することが可能である。   13 to 15, it is possible to perform correction with accuracy of ± 0.2 ° C. by correcting the measured value and the temperature inside the heat insulating material opening.

すなわち、図13において、配管内温度の変化に関連して、計測値としての配管内温度に対する誤差(計測値−配管内温度)は、周囲温度により大きくなる。   That is, in FIG. 13, an error (measurement value−in-pipe temperature) with respect to the in-pipe temperature as a measurement value increases with the ambient temperature in relation to the change in the in-pipe temperature.

これにより、保温材開口部内部温度と、配管内温度との関係が、次式で表される。   Thereby, the relationship between the heat insulating material opening internal temperature and the pipe internal temperature is expressed by the following equation.

誤差=Ax(配管内温度−保温材開口部内部温度)+B
但し、Aは、本発明の計測方法による時定数で、Bは、測定器ごとの器差である。
Error = Ax (Temperature in piping-Temperature inside heat insulation material opening) + B
However, A is a time constant according to the measuring method of the present invention, and B is an instrumental difference for each measuring instrument.

従って、図15に示されるように、配管内温度と保温材開口部内部温度との差に対する誤差が、±0.2℃以内の精度で計測することが可能になる。   Therefore, as shown in FIG. 15, an error with respect to the difference between the temperature inside the pipe and the temperature inside the heat insulating material opening can be measured with an accuracy within ± 0.2 ° C.

以上に説明したように、本発明の曲面の表面温度計測用温度計は、金属保護管付熱電対を使用することで、製作を容易にし、かつ取付け取外し作業を向上させる機能を有するものであり、このような温度計を使用する施工方法は、穴あけ治具の使用と相俟って施工条件を統一することを可能とし、曲面を有し内部に流体が流れる被計測物の表面温度の計測方法は、保温材開口部内部温度による計測値の補正によって、高い精度で計測することが可能である。   As described above, the curved surface temperature measuring thermometer according to the present invention has a function of facilitating the manufacture and improving the attachment / detachment work by using a thermocouple with a metal protective tube. The construction method using such a thermometer, combined with the use of a drilling jig, makes it possible to unify the construction conditions and measure the surface temperature of the object to be measured with a curved surface through which fluid flows. The method can measure with high accuracy by correcting the measurement value based on the internal temperature of the heat insulating material opening.

配管内を流れる流体の温度計測は勿論のこと、空調用ダクトやタンク、熱交換器等における流体の温度計測に利用することが可能である。   It can be used not only for measuring the temperature of the fluid flowing in the piping but also for measuring the temperature of the fluid in an air conditioning duct, tank, heat exchanger, or the like.

本発明における曲面の表面温度計測用温度計を示す断面概要図、Cross-sectional schematic diagram showing a thermometer for measuring the surface temperature of a curved surface in the present invention, 図1の温度計を取付ける施工方法の手順を示す図で、穴あけ工程を示す図、The figure which shows the procedure of the construction method which attaches the thermometer of FIG. 1, The figure which shows a drilling process, 図2に続く温度計の取付け工程を示す図、The figure which shows the attachment process of the thermometer following FIG. 図3に続いて温度計を設置した後に穴を塞ぐ工程を示す図、The figure which shows the process of plugging a hole, after installing a thermometer following FIG. 穴あけ治具を示す拡大断面図、An enlarged cross-sectional view showing a drilling jig, 図5の穴あけ治具に装着される保護キャップを示す拡大断面図、The expanded sectional view which shows the protective cap with which the drilling jig of FIG. 5 is mounted, 図5の穴あけ治具で配管の保温材に穴を開けて開口部を形成する状態を示す拡大断面概要図、FIG. 5 is an enlarged schematic cross-sectional view showing a state in which a hole is formed in the heat insulating material of the pipe with the drilling jig of FIG. 図5の穴あけ治具を使用した応用例を示す拡大断面概要図、An enlarged cross-sectional schematic diagram showing an application example using the drilling jig of FIG. 図8の応用例で、計測終了後に温度計を撤去した状態を示す拡大断面概要図、In the application example of FIG. 8, an enlarged cross-sectional schematic diagram showing a state where the thermometer is removed after the measurement is completed, 本発明の被計測物の表面温度の計測方法において、保温材開口部内の保温施工時の温度誤差を示すグラフ、In the method for measuring the surface temperature of the object to be measured of the present invention, a graph showing a temperature error at the time of heat insulation construction in the heat insulation material opening, 保温材開口部をアルミテープで塞いだ時の温度誤差を示すグラフ、Graph showing temperature error when the heat insulation material opening is closed with aluminum tape, 保温材開口部内部に温度計と周囲温度計とを設置した計測方法を示す断面概要図、Cross-sectional schematic diagram showing a measurement method in which a thermometer and an ambient thermometer are installed inside the heat insulating material opening, 図2乃至図4の手順で温度計を設置した時の配管内温度に対する計測値と配管内温度による誤差を周囲温度別に示すグラフ、A graph showing the measured value for the temperature in the pipe when the thermometer is installed in the procedure of FIGS. 2 to 4 and the error due to the temperature in the pipe for each ambient temperature, 配管内温度と保温材開口部内部温度の差に対する計測値と配管内温度との誤差の関係を示すグラフ、A graph showing the relationship between the measured value for the difference between the temperature inside the pipe and the temperature inside the heat insulating material opening and the temperature inside the pipe, 配管内温度に対する計測値の補正後の誤差を示すグラフ、A graph showing the error after correction of the measured value relative to the temperature in the pipe 従来の配管表面温度計測用温度計の一例を示す断面概要図である。It is a cross-sectional schematic diagram which shows an example of the conventional thermometer for piping surface temperature measurement.

符号の説明Explanation of symbols

1 配管の表面温度計測用温度計
2 リング型の磁石
2a 接触面
3 孔
4 金属保護管
6 熱電対
8 充填剤
10 配管
12 保温材
14 開口部
20 穴あけ治具
22 円筒部材
24 刃
30 保護キャップ
32 円筒部
34 頂部
DESCRIPTION OF SYMBOLS 1 Thermometer for surface temperature measurement of piping 2 Ring-type magnet 2a Contact surface 3 Hole 4 Metal protective tube 6 Thermocouple 8 Filler 10 Piping 12 Heat insulating material 14 Opening part 20 Drilling jig 22 Cylindrical member 24 Blade 30 Protection cap 32 Cylindrical part 34 Top part

Claims (6)

中央に孔が形成されたリング型の磁石と、該磁石の孔に一端が差し込まれて固着された金属保護管と、該金属保護管内に配置されて一端が前記リング型の磁石の配管表面との接触面の近傍に位置された熱電対と、前記金属保護管内に充填されて熱電対への熱伝導を良好にする充填剤とを有することを特徴とする曲面の表面温度計測用温度計。   A ring-type magnet having a hole formed in the center; a metal protective tube having one end inserted into and fixed to the hole of the magnet; and one end disposed in the metal protective tube and the pipe surface of the ring-type magnet A thermometer for measuring the surface temperature of a curved surface, comprising: a thermocouple located in the vicinity of the contact surface; and a filler filled in the metal protective tube to improve heat conduction to the thermocouple. 中央に孔が形成されたリング型の磁石と、該磁石の孔に一端が差し込まれて固着された金属保護管と、該金属保護管内に配置されて一端の感温部が前記リング型の磁石の下面側の配管表面との接触面の近傍に位置された熱電対と、前記金属保護管内に充填されて前記熱電対への熱伝導を良好にする充填剤とを有する表面温度計測用温度計を、保温材で覆われた曲面の表面に設置するために、該保温材の表面に穴あけ治具を用いて穴を開ける工程と、
前記保温材に開けられた穴内に前記温度計を配置して取付ける工程と、
前記温度計が設置された保温材の開口部をアルミ箔またはアルミテープで塞ぐ工程と、
からなることを特徴とする内部に流体が流れる被計測物の曲面の表面温度計測用温度計の施工方法。
A ring-type magnet having a hole formed in the center, a metal protective tube having one end inserted into and fixed to the hole of the magnet, and a temperature-sensing portion at one end disposed in the metal protective tube. A thermometer for measuring the surface temperature, comprising a thermocouple located in the vicinity of the contact surface with the pipe surface on the lower surface side, and a filler filled in the metal protective tube to improve heat conduction to the thermocouple In order to install on the surface of the curved surface covered with a heat insulating material, a step of making a hole using a drilling jig on the surface of the heat insulating material;
Arranging and attaching the thermometer in a hole opened in the heat insulating material;
A step of closing the opening of the heat insulating material on which the thermometer is installed with aluminum foil or aluminum tape;
The construction method of the surface temperature measurement thermometer of the curved surface of the to-be-measured object into which a fluid flows into the inside characterized by comprising.
前記穴あけ治具は、一端に刃が形成された中空の円筒部材を有し、刃先を保温材の表面に押し込んで穴を開けることを特徴とする請求項2記載の内部に流体が流れる被計測物の曲面の表面温度計測用温度計の施工方法。   3. A measurement object in which a fluid flows inside according to claim 2, wherein the drilling jig includes a hollow cylindrical member having a blade formed at one end thereof, and the hole is formed by pushing the blade tip into the surface of the heat insulating material. Construction method of thermometer for surface temperature measurement of curved surface of objects. 前記穴あけ治具の一端部の刃先を保護するように覆う保護キャップを設けたことを特徴とする請求項3記載の内部に流体が流れる被計測物の曲面の表面温度計測用温度計の施工方法。   The construction method of the thermometer for surface temperature measurement of the curved surface of the to-be-measured object which the fluid flows into the inside of Claim 3 provided with the protective cap which covers so that the blade edge | tip of the one end part of the said drilling jig may be protected . 表面が保温材で覆われた曲面を有し内部に流体が流れる被計測物の表面温度を計測するために、該保温材の表面に穴を開けて穴内に表面温度計測用温度計を配置して該温度計のリング型の磁石を曲面表面に当接させて前記温度計を取付ける工程と、
前記開口部内の周囲温度を計測するための別の周囲温度計を前記開口部内に配置する工程と、
前記周囲温度計を配置した後に前記保温材の開口部をアルミ箔またはアルミテープで塞ぐ工程と、
曲面表面の温度と前記開口部内の周囲温度とを計測して計測した曲面表面温度と前記開口部内の周囲温度との差により曲面表面温度の計測値の補正を行う工程と、からなることを特徴とする曲面を有し内部に流体が流れる被計測物の表面温度の計測方法。
In order to measure the surface temperature of an object to be measured that has a curved surface covered with a heat insulating material and fluid flows inside, a hole is made in the surface of the heat insulating material, and a thermometer for measuring the surface temperature is arranged in the hole. Attaching the thermometer by bringing the ring-shaped magnet of the thermometer into contact with the curved surface;
Placing another ambient thermometer in the opening for measuring the ambient temperature in the opening;
A step of closing the opening portion of the heat insulating material with an aluminum foil or an aluminum tape after the ambient thermometer is disposed;
Correcting the measured value of the curved surface temperature based on the difference between the curved surface temperature measured by measuring the temperature of the curved surface and the ambient temperature in the opening and the ambient temperature in the opening. A method for measuring the surface temperature of an object to be measured that has a curved surface and in which a fluid flows.
曲面の表面を覆う保温材の表面に、一端に刃が形成された中空円筒部材を有する穴あけ冶具を押し込んで穴を開けることを特徴とする請求項5記載の曲面を有し内部に流体が流れる被計測物の表面温度の計測方法。   6. A fluid having a curved surface according to claim 5, wherein a hole is formed by pushing a drilling jig having a hollow cylindrical member having a blade formed at one end into the surface of the heat insulating material covering the surface of the curved surface. A method for measuring the surface temperature of an object to be measured.
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