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JP4903487B2 - Eddy current generator and heating fluid flow heating apparatus using the generator - Google Patents
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JP4903487B2 - Eddy current generator and heating fluid flow heating apparatus using the generator - Google Patents

Eddy current generator and heating fluid flow heating apparatus using the generator Download PDF

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JP4903487B2
JP4903487B2 JP2006130524A JP2006130524A JP4903487B2 JP 4903487 B2 JP4903487 B2 JP 4903487B2 JP 2006130524 A JP2006130524 A JP 2006130524A JP 2006130524 A JP2006130524 A JP 2006130524A JP 4903487 B2 JP4903487 B2 JP 4903487B2
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fluid
temperature
heating
pipe
heater
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JP2007301758A (en
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良道 萩原
泰広 藤本
基正 平尾
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Tokuden Co Ltd Kyoto
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Description

本発明は、管内に流れる流体の渦流発生器及びその発生器を用いた加熱流体通流加熱装置に関するものである。   The present invention relates to a vortex generator for fluid flowing in a pipe and a heating fluid flow heating apparatus using the generator.

たとえばローラ内に加熱した流体を通流してローラの表面温度を所定の温度に維持し、樹脂フィルムなどの処理物をローラに当接して通過する間に処理物を所定の温度に加熱したり、高温の処理物を所定の温度にまで奪熱することが行われている。この場合、ローラは熱交換器を設けた流体の循環路中に配置され、その熱交換器により加熱された流体をローラ内に供給し、この流体の通流でローラに熱を加えるように構成されている。そして、ローラの表面温度を所定の温度に維持するためにローラ内へ流入する流体の温度を検出し、その検出とローラの表面温度を所定の温度とするための予め設定した目標値と比較し、その偏差によりたとえば熱交換器の発熱量を制御し、熱交換器を通流する熱媒体の温度を制御し、これによりローラの表面温度を所定の温度に保持している。
特開2004−195888号公報
For example, the heated fluid is passed through the roller to maintain the surface temperature of the roller at a predetermined temperature, and the processed material such as a resin film is heated to a predetermined temperature while passing through the roller while contacting the roller. Heating a high temperature processed product to a predetermined temperature is performed. In this case, the roller is disposed in a fluid circulation path provided with a heat exchanger, and the fluid heated by the heat exchanger is supplied into the roller, and heat is applied to the roller by the flow of the fluid. Has been. Then, the temperature of the fluid flowing into the roller is detected in order to maintain the roller surface temperature at a predetermined temperature, and the detected temperature is compared with a preset target value for setting the roller surface temperature to a predetermined temperature. Based on the deviation, for example, the amount of heat generated by the heat exchanger is controlled, and the temperature of the heat medium flowing through the heat exchanger is controlled, whereby the roller surface temperature is maintained at a predetermined temperature.
JP 2004-195888 A

しかし、この温度制御では、迅速にローラの表面温度を所定の温度とすることができない場合、たとえば流体の物性値(粘度、密度等)が変わると表面温度を所定の温度とすることができないといった問題があった。この問題の発生を究明したところ、配管内を流れる流体の温度が配管外部からの加熱または冷却に影響され、図4に示すように流体2が流れる配管1内で、中央部を流れる流体2bと温度などの異なる流体が流れる境界層2aが発生し、この境界層は流体の熱量、物性値(粘度、密度等)、流速により温度差も境界層の厚みも変化することによるものと判明した。   However, with this temperature control, if the surface temperature of the roller cannot be quickly set to a predetermined temperature, for example, if the physical property value (viscosity, density, etc.) of the fluid changes, the surface temperature cannot be set to the predetermined temperature. There was a problem. As a result of investigating the occurrence of this problem, the temperature of the fluid flowing in the pipe is affected by heating or cooling from the outside of the pipe, and as shown in FIG. It has been found that a boundary layer 2a in which fluids having different temperatures flow is generated, and this boundary layer is caused by the temperature difference and the thickness of the boundary layer changing depending on the heat quantity, physical properties (viscosity, density, etc.) of the fluid and the flow velocity.

本発明が解決しようとする課題は、配管内の中央部を流れる流体と温度などの異なる流体が流れる内壁近くの境界層を確実に薄くし、境界層の発生による問題を解消する点にある。 The problem to be solved by the present invention is to surely reduce the thickness of the boundary layer near the inner wall where a fluid having a different temperature from the fluid flowing in the central portion of the pipe flows, thereby solving the problem caused by the generation of the boundary layer.

本発明は、流体が通流する管の内部に嵌合配置され、周方向に波状の凹凸を形成した筒体の前記流体の下流側に位置する前記凹部の端縁から前記配管の内壁と平行する切込みを形成し、前記切込みから斜め方向内側に折り曲げた略三角形状の切り越し片を形成し、前記配管の内壁と前記筒体の凹部との間に流れる流体と前記筒体の内部中央部に流れる流体とが入り混じって前記配管内の中央部に収斂する渦流を発生させることを最も主な特徴とする。 The present invention, fluid is fitted arranged inside the piping for flowing, an inner wall of the pipe from the edge of the recess located on the downstream side of the fluid circumferentially wavy unevenness formed by a cylindrical body A parallel notch is formed, a substantially triangular cut-out piece bent diagonally inward from the notch is formed, and the fluid flowing between the inner wall of the pipe and the recess of the cylinder and the inner center of the cylinder mingled and the fluid flowing through the part and most main feature the Rukoto to generate a vortex to converge in the central portion in the pipe.

本発明では、配管内の中央部を流れる流体は略三角形状の切り越し片によって配管内の内壁部にねじ込まれ、内壁近くを流れる流体と中央部を流れる流体とが入り混じって配管内の中央部に収斂する渦流が発生し、この渦流によって配管内を流れる流体の境界層が、小さい流体抵抗で、きわめて薄くなり、配管内の流体のたとえば温度が均一化され、流体の熱量、物性値(粘度、密度等)、流速に関わらず配管内を通流する流体の温度などを簡単かつ正確に検出することができる。 In the present invention, the fluid flowing in the central portion of the pipe is screwed into the inner wall portion of the pipe by a substantially triangular cut piece, and the fluid flowing near the inner wall and the fluid flowing in the central portion are mixed and mixed. A vortex that converges in the part is generated, and the boundary layer of the fluid that flows in the pipe due to this vortex becomes extremely thin with a small fluid resistance, the temperature of the fluid in the pipe is uniformed, for example, the heat quantity of the fluid, Regardless of viscosity, density, etc.), the temperature of the fluid flowing through the pipe can be detected easily and accurately regardless of the flow rate.

配管内の中央部を流れる流体と温度などの異なる流体が流れる内壁近くの境界層を確実に薄くする目的を、周方向に波状の凹凸を形成した筒体からなり、前記筒体凹部の端縁に、内側斜め方向に折り曲げた略三角形状の切り越し片を形成した渦流発生器を配管内に設けることにより実現した。   For the purpose of surely thinning the boundary layer near the inner wall where the fluid flowing in the central part of the pipe and the fluid different in temperature, etc. flows, it is made of a cylindrical body with wavy irregularities formed in the circumferential direction, and the edge of the cylindrical concave part In addition, this was realized by providing in the pipe a vortex generator in which a substantially triangular cut piece bent in an obliquely inward direction was formed.

図1は、本発明の実施例に係る渦流発生器の構成を示すもので、(a)は正面図、(b)はX−X断面図、図2は図1の渦流発生器の端部の一部を拡大して示す図で、(a)は正面図、(b)は側面図である。図1および図2において、11は渦流発生器、18は管である。渦流発生器11は、本例ではSUS(ステンレススチール)製で外径42.7mm、肉厚3.0mmの周方向に波状の凹凸(図示では6箇所)を形成した筒体をなし、その凹部11aの窪みの最大深さは約3mmとされ、筒体凹部11aの端縁に内側に折り曲げた三角形状の切り越し片11bが形成されている。 1A and 1B show a configuration of an eddy current generator according to an embodiment of the present invention, in which FIG. 1A is a front view, FIG. 1B is an XX cross-sectional view, and FIG. 2 is an end portion of the eddy current generator of FIG. It is a figure which expands and shows a part of, (a) is a front view, (b) is a side view. In FIGS. 1 and 2, 11 is a vortex generator, and 18 is a tube. In this example, the eddy current generator 11 is made of SUS (stainless steel) and has a cylindrical body with an outer diameter of 42.7 mm and a wall thickness of 3.0 mm, in which wavy irregularities (six locations in the drawing) are formed. The maximum depth of the recess 11a is about 3 mm, and a triangular cut piece 11b bent inward is formed at the edge of the cylindrical recess 11a.

切り越し片11bは、図2(b)に示すように長手方向の凹部11aに位置する一端にその端縁から管18の内壁と平行する略10mmの切込み11cを形成し、その切込みから斜め方向内側に略45度折り曲げて形成された頂点の角α略30度の直角三角形状をなしている。なお、以上の各数値は一例であってこれらの数値に限定されるものではない。 As shown in FIG. 2 (b), the cut piece 11b is formed with an approximately 11 mm incision 11c parallel to the inner wall of the tube 18 from one end of the recess 11a in the longitudinal direction. It has a right triangle shape with an apex angle α of approximately 30 degrees formed by bending approximately 45 degrees inside. In addition, each above numerical value is an example, and is not limited to these numerical values.

そして、渦流発生器11は配管18の内壁との間に僅かな隙間を隔てて配管18内に固定されている。配管18の両側の端部には、フランジ18a、18bが設けられ、流体が流れる配管とフランジ18a、18bにより切り越し片11bを流体の流入側に向けて連結する。 The vortex generator 11 is fixed in the pipe 18 with a slight gap between the vortex generator 11 and the inner wall of the pipe 18. Flange 18a, 18b is provided in the edge part of the both sides of the piping 18, and the cutting piece 11b is connected toward the fluid inflow side by piping and the flange 18a, 18b through which a fluid flows.

このように構成された渦流発生器11は、配管内の中央部を流れる流体は切り越し片11bによって配管内の内壁部にねじ込まれ、内壁近くの凹部11aを流れる流体と中央部を流れる流体とが入り混じって配管内の中央部に収斂する渦流が発生し、この渦流によって配管内を流れる流体の境界層が、小さい流体抵抗で、薄くなり、配管内の流体のたとえば温度は均一化される。 In the vortex generator 11 configured in this way, the fluid flowing in the central part in the pipe is screwed into the inner wall part in the pipe by the cut-off piece 11b, and the fluid flowing in the recess 11a near the inner wall and the fluid flowing in the central part A mixed vortex that converges in the center of the pipe is generated, and the boundary layer of the fluid flowing in the pipe is thinned by a small fluid resistance due to this vortex, and the temperature of the fluid in the pipe is made uniform, for example .

図3は、このように構成された渦流発生器11の使用例を示す図で、図3において、3はローラ本体を構成するロールシェル、4は図示しないモータにより回転してロールシェルを回転する回転駆動軸、5は中子、6はロータリジョイント、7はポンプ、8は冷却用熱交換器、9は加熱用熱交換器、10は配管、12は熱媒体の温度検出器、13はローラ表面の温度検出器、14は回転トランス、15は温度調節器、16はサイリスタなどの加熱電力制御回路、17は冷却水調整電磁弁である。 FIG. 3 is a diagram showing an example of use of the vortex generator 11 configured as described above. In FIG. 3, 3 is a roll shell constituting the roller body, and 4 is rotated by a motor (not shown) to rotate the roll shell. Rotation drive shaft, 5 is a core, 6 is a rotary joint, 7 is a pump, 8 is a heat exchanger for cooling, 9 is a heat exchanger for heating, 10 is a pipe, 12 is a temperature detector for the heat medium, and 13 is a roller A surface temperature detector, 14 is a rotary transformer, 15 is a temperature controller, 16 is a heating power control circuit such as a thyristor, and 17 is a cooling water adjusting electromagnetic valve.

ロールシェル3は円筒状をなし、この例ではその肉厚内部に長手方向に沿う密閉室3aと温度検出器を挿入する挿入孔3bが形成され、挿入孔3bには、ロールシェル3の表面温度を検出する温度検出器13が配置され、密閉室3a内には、潜熱移動によってロールシェル3の表面の温度を均一化する水などの気液二相の熱媒体が封入されている。そして、ロールシェル3の中空内部に中子5が配置され、中子5の中央部を貫通して熱媒体通流路5aが形成されている。熱媒体通流路5aは回転駆動軸4内を経てロータリジョイント6の流入口に連結され、ロールシェル3の内周壁と中子5の外周壁との間で形成された熱媒通流路3cは回転駆動軸2内を経てロータリジョイント6の出口に連結されている。 The roll shell 3 has a cylindrical shape, and in this example, a sealed chamber 3a along the longitudinal direction and an insertion hole 3b for inserting a temperature detector are formed inside the wall thickness, and the surface temperature of the roll shell 3 is formed in the insertion hole 3b. A temperature detector 13 for detecting the temperature is disposed, and a gas-liquid two-phase heat medium such as water for equalizing the surface temperature of the roll shell 3 by latent heat transfer is enclosed in the sealed chamber 3a. And the core 5 is arrange | positioned in the hollow inside of the roll shell 3, and the thermal-medium flow path 5a is formed through the center part of the core 5. As shown in FIG. The heat medium flow path 5 a is connected to the inlet of the rotary joint 6 through the rotary drive shaft 4, and the heat medium flow path 3 c formed between the inner peripheral wall of the roll shell 3 and the outer peripheral wall of the core 5. Is connected to the outlet of the rotary joint 6 through the rotary drive shaft 2.

ロールシェル3内を通流する熱媒体は、ポンプ7により配管10内を通流して冷却用熱交換器8、加熱用熱交換器9を順に経由して循環する。加熱用熱交換器9には電熱ヒータが配置され、このヒータにより所定の温度に加熱された熱媒体をロールシェル3内へ送る。加熱用熱交換器9からロールシェル3内へ送る配管10には、温度検出器12が配置され、この温度検出器12の温度検出信号と、ロールシェル3に配置された温度検出器13の温度検出信号が温度調節器15に入力され、予め設定した目標値と比較し、その偏差信号を加熱電力制御回路に送り、電熱ヒータに供給する電力、すなわち熱媒体の温度を制御する。また、温度調節器15の出力信号は、冷却水調整電磁弁17を制御し温度変動に伴う熱媒体の応答速度を高める。 The heat medium flowing through the roll shell 3 flows through the pipe 10 by the pump 7 and circulates through the cooling heat exchanger 8 and the heating heat exchanger 9 in this order. The heating heat exchanger 9 is provided with an electric heater, and a heat medium heated to a predetermined temperature by the heater is sent into the roll shell 3. A temperature detector 12 is arranged in the pipe 10 sent from the heat exchanger 9 for heating into the roll shell 3, and the temperature detection signal of the temperature detector 12 and the temperature of the temperature detector 13 arranged in the roll shell 3. The detection signal is input to the temperature controller 15 and compared with a preset target value, and the deviation signal is sent to the heating power control circuit to control the power supplied to the electric heater, that is, the temperature of the heat medium. Further, the output signal of the temperature regulator 15 controls the cooling water adjusting electromagnetic valve 17 to increase the response speed of the heat medium accompanying the temperature fluctuation.

図1に示す渦流発生器11は、加熱用熱交換器9と温度検出器12との間に挿入されている。この渦流発生器11の挿入により、渦流発生器11を通過した直後の配管内を流れる熱媒体は均温化され温度検出器12の挿入位置に影響されず、配管内を通流する熱媒体の温度を正確に検出することができ、迅速にローラなどの加熱装置の表面温度を所定の温度にすることができる。 The eddy current generator 11 shown in FIG. 1 is inserted between the heat exchanger 9 for heating and the temperature detector 12. By inserting this vortex generator 11, the heat medium flowing in the pipe immediately after passing through the vortex generator 11 is equalized and is not affected by the insertion position of the temperature detector 12, and the heat medium flowing through the pipe is not affected. The temperature can be accurately detected, and the surface temperature of a heating device such as a roller can be quickly set to a predetermined temperature.

なお、以上の使用例は加熱装置がローラであるが、加熱装置はローラに限らずたとえば平板状の加熱板であっても良い。また、熱媒体の温度を検出して熱媒体の温度を制御するものであるが、熱媒体の温度を検出して熱媒体の通流量を制御する場合にも適用される。 In the above use examples, the heating device is a roller, but the heating device is not limited to a roller, and may be a flat heating plate, for example. Further, the temperature of the heat medium is controlled by detecting the temperature of the heat medium. However, the present invention is also applied to the case where the temperature of the heat medium is detected to control the flow rate of the heat medium.

本発明の実施例に係る渦流発生器の構成を示す図で、(a)は正面図、(b)は断面図である。It is a figure which shows the structure of the eddy current generator concerning the Example of this invention, (a) is a front view, (b) is sectional drawing. 図1の渦流発生器の端部の一部を拡大して示す図で、(a)は正面図、(b)は側面図である。It is a figure which expands and shows a part of edge part of the eddy current generator of FIG. 1, (a) is a front view, (b) is a side view. 本発明の使用例に係る熱媒体通流ローラ装置の構成を示す図である。It is a figure which shows the structure of the heat-medium flow-through roller apparatus which concerns on the usage example of this invention. 配管内を流れる流体の温度分布の説明図である。It is explanatory drawing of the temperature distribution of the fluid which flows through piping.

符号の説明Explanation of symbols

1、10、18 配管
3 ロールシェル
4 回転駆動軸
5 中子
6 ロータリジョイント
7 ポンプ
8 冷却用熱交換器
9 加熱用熱交換器
10 配管
11 渦流発生器
11a 凹部
11b 切り越し片
12 熱媒体の温度検出器
13 ローラ表面の温度検出器
14 回転トランス
15 温度調節器
16 加熱電力制御回路
17 冷却水調整電磁弁
19 回転接続器
1, 10, 18 Piping 3 Roll shell 4 Rotating drive shaft 5 Core 6 Rotary joint 7 Pump 8 Cooling heat exchanger 9 Heating heat exchanger 10 Piping 11 Eddy current generator 11a Recess 11b Cutting piece 12 Temperature of heat medium Detector 13 Roller surface temperature detector 14 Rotating transformer 15 Temperature controller 16 Heating power control circuit 17 Cooling water adjusting solenoid valve 19 Rotating connector

Claims (4)

流体が通流する管の内部に嵌合配置され、周方向に波状の凹凸を形成した筒体の前記流体の下流側に位置する前記凹部の端縁から前記配管の内壁と平行する切込みを形成し、前記切込みから斜め方向内側に折り曲げた略三角形状の切り越し片を形成し、前記配管の内壁と前記筒体の凹部との間に流れる流体と前記筒体の内部中央部に流れる流体とが入り混じって前記配管内の中央部に収斂する渦流を発生させることを特徴とする渦流発生器。 Fluid is fitted arranged inside the piping for flowing a cut parallel with the inner wall of the pipe from the edge of the recess located on the downstream side of the fluid circumferentially to form a wavy uneven cylindrical body Forming a substantially triangular cut piece bent diagonally inward from the cut, and flowing between the inner wall of the pipe and the concave portion of the cylindrical body, and flowing into the inner central portion of the cylindrical body vortex generators, characterized in Rukoto to generate a vortex which bets converge in the central portion in the pipe commingled. 流体を加熱する加熱器と、前記加熱器で加熱された流体を通流して加熱する加熱体と、前記加熱体と前記加熱器とを連結し前記加熱器で加熱された流体を前記加熱体へ送る配管と、前記配管内に流れる流体の温度を検出する検出器と、前記検出器が検出した温度と予め設定した目標温度と比較し、その偏差を出力する温度調節器とを有し、前記温度調節器の出力により前記加熱器による流体の温度を制御して前記加熱体の表面温度を制御してなる流体通流加熱装置において、前記配管内に、請求項1に記載の渦流発生器を設け、前記渦流発生器を介した後の配管内に流れる流体の温度を前記検出器で検出してなることを特徴とする加熱流体通流加熱装置。 A heater that heats the fluid; a heater that heats the fluid heated by the heater; and the fluid that is heated by the heater by connecting the heater and the heater to the heater A pipe for sending, a detector for detecting the temperature of the fluid flowing in the pipe, a temperature regulator for comparing the temperature detected by the detector with a preset target temperature and outputting the deviation, In the fluid flow heating apparatus which controls the surface temperature of the said heating body by controlling the temperature of the fluid by the said heater by the output of a temperature controller, the eddy current generator of Claim 1 is provided in the said piping. A heating fluid flow heating apparatus, characterized in that the detector detects the temperature of the fluid flowing through the vortex generator and flowing into the pipe after the vortex generator. 加熱体が加熱流体を通流するローラであることを特徴とする請求項に記載の加熱流体通流加熱装置。 The heating fluid flow heating device according to claim 2 , wherein the heating body is a roller through which the heating fluid flows. 加熱体が加熱流体を通流する平板であることを特徴とする請求項に記載の加熱流体通流加熱装置。 The heating fluid flow heating device according to claim 2 , wherein the heating body is a flat plate through which the heating fluid flows.
JP2006130524A 2006-05-09 2006-05-09 Eddy current generator and heating fluid flow heating apparatus using the generator Expired - Lifetime JP4903487B2 (en)

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