TW200907312A - Temperature measuring method for moving surface and temperature measuring device thereof - Google Patents

Abstract

The present invention relates to a temperature measuring method for a moving surface and a temperature measuring device thereof. The device comprises a heating space and a temperature measuring element. The temperature measuring element is disposed in the heating space and has a hollow tube and a plurality of thermocouples which penetrate the hollow tube from inside to outside with intervals therebetween so that the thermocouples are exposed to the outside of the tube. The thermocouples touch a surface of a moving object to be tested to measure a temperature of the surface of the to-be-tested object. With the method, it is able to measure the surface temperature of the to-be-tested object continuously on multiple points, and the temperature inside the heating space is adjusted by analyzing the temperature variation of the surface of the to-be-tested object so as to make the temperature inside the heating space distribute uniformly and therefore produce high quality products.

Description

200907312 IX. INSTRUCTIONS: [Technical Field] The present invention relates to a temperature measuring method and a temperature measuring device, and the detailed description of the method relates to a temperature measuring method and a temperature measuring method for a moving surface. Device. [Prior Art]

In a drying oven, the temperature uniformity of the metal box (for example, aluminum falling) has a great influence on the quality of the back-end product. In order to be able to accurately grasp the temperature distribution characteristic curve, it is necessary to measure each in the metal knot production process. The difference in the temperature of the part is changed. The temperature in the drying furnace is different. In the main dry furnace, some 疋 is selected, and the temperature is measured by the temperature measuring rod. - At the entrance and exit of the drying furnace, the surface of a metal book is irradiated with infrared rays to obtain the temperature distribution of the metal foil. However, the first temperature measurement method using the temperature measuring rod to measure the temperature of the furnace atmosphere has an insurmountable problem because it is not directly measured by the gold, for example, (1) the furnace temperature does not mean that the metal falls. Surface temperature; (7) The change in furnace temperature does not represent a change in the surface temperature of the metal foil. In addition, the second method of measuring the surface temperature of the metal foil by using infrared rays can only show the surface temperature change of the metal box before and after heating. However, this method cannot obtain the change of the surface temperature of the metal crucible. The surface temperature changes when the dry furnace is heated, so the temperature distribution in the oven cannot be dried during the heating process, so that the temperature in the drying furnace is evenly distributed. Therefore, it is necessary to provide an innovative and progressive temperature measurement method and temperature measuring device for solving the above problems. SUMMARY OF THE INVENTION One object of the present invention is to provide a temperature measuring device for a moving surface, comprising: a heating space and a temperature measuring element. The temperature measuring component is disposed in the heating space, which has a hollow tubular member and a plurality of thermocouples. The hollow thermocouple is spaced apart from the hollow tubular member to form the hollow tubular member, so as to be more than 7 The thermocouple contacts—moving one surface of the object to be tested' to measure the temperature of the surface of the object to be tested. Another object of the present invention is to provide a temperature measuring method for a moving surface. The temperature measuring method includes: (4) providing a sample to be tested, the surface to be tested has a surface, and (b) moving the object to be tested Passing through a heating space; and (c) measuring the temperature of the surface of the object to be tested by using a temperature measuring component, wherein the shell J μ element is placed in a 5 litre heating space, and has a hollow tube member and a plurality of The thermocouples are disposed through the hollow tube member to be spaced apart from the hollow tube member to be exposed outside the hollow tube member, and the thermocouples contact the surface of the object to be tested to measure the object to be tested The temperature of the surface. According to the temperature measuring method and the temperature measuring device for a moving surface of the present invention, the surface temperature of the object to be tested can be measured continuously in multiple points. Further, 纟' can adjust the temperature in the heating space according to the change of the surface temperature difference of the object to be tested, so that the temperature distribution in the heating space is uniform, thereby obtaining a product of better quality. [Embodiment] Fig. 1 is a flow chart showing a temperature measuring method for a moving surface of the present invention. Fig. 2 shows a schematic view of a temperature measuring device 2 for moving a surface of the present invention. Referring to the reference step S11 and FIG. 2, first, a test object 21 is provided. The 120760.doc 200907312 test object 21 has a surface 211. In the present embodiment, the object to be tested 21 is a piece of material. With reference to step S12 and FIG. 2, the object to be tested 21 is moved through a heating space 22 (in the present embodiment, the heating space 22 is defined by a heating furnace body 20, for example, the heating furnace body 20 can be a Drying furnace). Wherein, the heating space 22 has an inlet and an outlet (not shown). The object to be tested 21 enters the heating space 22' from the inlet of the heating space 22 and exits from the outlet of the heating space 22. The space 22 is heated. With reference to step S13 and Fig. 2, the temperature of the surface 211 of the object to be tested 21 is measured by a temperature measuring element 23. The temperature measuring element 23 is disposed in the heating space 22, and the temperature measuring element 23 has a hollow tube member 231 and a plurality of thermocouples 232. The thermocouples 232 are separated from the hollow teeth 231 by the S-shaped hollow tubular member 23 1 in the hollow tubular member 231 to be exposed outside the hollow tubular member 23 1 . The thermocouple 232 contacts the surface 21 i of the object 21 to measure the temperature of the surface 211 of the object 21 to be tested. Referring to step S14, preferably, a rotating device 24 is used to rotate the hollow tubular member 231 to bring the thermocouples 232 into contact with the surface 211 of the object to be tested 21. , may also include a step S15, benefit

It should be noted that it is necessary to read 'after step S14,' to control the rotating device 24 with the controller 25 (for example, controlling the rotation angle of the rotating device, rotating the six-a β A* 1 1 ~ 120760.doc 200907312 The information stored in the temperature recorder 26 'and analyzes the temperature difference of the surface 211 of the object 21 to be tested. Among them, the thermocouples 232 are elastically tightly utilized by their own rigid stresses. Contacting the surface 211 of the object to be tested 21 to achieve the effect of multi-point continuous measurement temperature. Preferably, each thermocouple 2 3 2 has a combined temperature measuring portion 23 3 , and the combined temperature measuring portion 233 can After the grinding step is performed to form a sheet shape, the combined temperature measuring portion 233 of the thermocouples 232 contacts the surface 211 of the object 21 to be measured to measure the temperature of the surface 211. Referring again to FIG. 2, the present invention The temperature measuring device 2 includes a heating space 22 and a temperature measuring element 23. In the embodiment, the heating space 22 is defined by a heating furnace body 20, for example, the heating furnace body 2 can be a Drying furnace. With reference to Fig. 2 and Fig. 3, the temperature measuring element 23 is provided. The temperature measuring element 23 has a hollow tube member 231 and a plurality of thermocouples 232. Preferably, the hollow tube member 231 is made of metal, for example, the hollow member 23 1 is a steel tube. It should be noted that the temperature measuring component 23 can further include a filling body 234 ′′. The filling body 234 is disposed in the hollow tubular member 23 1 for fixing and protecting the thermocouples 232. The thermocouples 232 are The hollow tube member 231 is spaced apart from the hollow tube member 231 to be exposed outside the hollow tube member 231. The thermocouples 232 are elastically in close contact with the object to be tested by utilizing the rigid stress of the hollow tube member 231. The surface 211 of 21 is used to achieve the effect of continuously measuring the temperature at multiple points. Preferably, each thermocouple 232 can have a combined temperature measuring portion 233. In this embodiment, the combined temperature measuring portion 233 is a piece. The test object 21 is movably passed through the heating space 22, and the combination of the thermocouples 232 is 120760.doc 200907312. The temperature portion 233 contacts the surface 211 of the object to be tested 21 for measuring the object to be tested. The temperature of the surface 211 of 21 In the example, the object to be tested is called a piece of material. 吕 较佳 Preferably, the shape of the temperature measuring element 23 matches the shape of the surface 211 of the (4). In this embodiment, the object to be tested The surface of the object is called a plane 'the hollow tube 231 is a straight tube, and the thermocouples 232 are substantially placed in the same-horizontal position. In other applications, the surface 2U of the object to be tested can be For the curved surface, the hollow tubular member 231 can be a curved tube, and the thermocouples 232 are disposed substantially along the curvature of the surface 211. The temperature measuring skirt 2 can further include a rotating device 24, the rotating device 24 is connected to the hollow tubular member 231 to rotate the hollow tubular member to further ensure that the thermocouples 232 contact the object to be tested 21 Surface 2 ιι. To be phonetic, the rotating device 24 can be a handle, or the rotating device (4) can be a motor. Wherein the thermocouples 232 utilize their own rigid stresses to elastically closely contact the surface of the object 21 to be tested 2 (the general surface has a wave surface of unevenness) to achieve multi-point continuous Measuring the effect of temperature. Preferably, the temperature measuring skirt 2 may further comprise a controller & the control device 25 is connected to the rotating device 24' for controlling and rotating the hollow tubular member (1) such as & the rotating device 24 to interlock the hollow tubular member Such as the angle, the rotation force and the interval between rotations). Bu: 'The degree measuring device 2 may further include a temperature recorder 26, which is connected to the 笠 笠 + / / / 荨 荨 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 The temperature of the surface 211 of the test object 21 is measured by the even 232. Preferably, 120760.doc •10-200907312 The temperature measuring device 2 can additionally and additionally include an analyzing device 27, which is connected to the Θ / dish degree, ', 己录益 26 ' The temperature of the surface of the sample to be tested 21 is changed by reading the information of the temperature recorder to tear the storage. In the present embodiment, the folding device 27#m _ quasi (4) analyzes and calculates the temperature difference of the surface 2 ιι of the (four) object 21.

藉 By the temperature measuring method for the moving surface and the temperature measuring crack 2 of the present invention, the surface of the object to be tested η can be measured continuously continuously in multiple points, and the surface can be measured according to the analysis. The surface 211 temperature difference changes 'adjust the temperature in the heating space 22 to make the temperature distribution in the heating space 22 uniform' to produce a better quality product. The above examples are merely illustrative of the principles of the invention and its limitations, and are not intended to limit the invention. Therefore, those skilled in the art can modify and improve the above embodiments without departing from the spirit of the invention. The scope of the invention should be as set forth in the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a temperature measuring method for a moving surface according to the present invention; FIG. 3 is a schematic view showing a temperature measuring device for moving a surface of the present invention; schematic diagram. [Main component symbol description] 20 Heating furnace body 21 Object to be tested 22 Heating space 120760.doc -11- 200907312 23 Temperature measuring element 24 Rotating device 25 Controller 26 Temperature recorder 27 Analysis device 211 Surface 231 Hollow pipe fitting 232 Thermocouple 233 Combined with the temperature measuring portion 234 filling body 120760.doc

Claims (1)

200907312 X. Patent application scope: 1 · A temperature measuring device for moving surface, comprising: · a heating space; and 70 temperature measuring devices, arranged in the heating space, having a hollow pipe member and a plurality of thermocouples The thermocouples are spaced apart from the hollow tube by a second tube member to be exposed outside the hollow tube member, and the thermocouples contact-move the surface of the object to be tested for measuring the to-be-tested The temperature of the surface of the object. 2. If requested! The temperature measurement is set, wherein the heating space is defined by a heating furnace body. 3' The temperature measuring device of the item 2, wherein the furnace system is a drying oven. 4. A temperature measuring device as claimed, wherein the temperature measuring element is shaped to match the shape of the surface. 5. The temperature measuring device of claim 4, wherein the surface is a plane, The hollow tubular member is a straight tube, and the thermocouples are disposed substantially at the same position. 6. The temperature measuring device of claim 4, wherein the surface is a curved surface, the hollow tubular member is a curved tube, and the thermocouples are disposed substantially along the curvature of the surface. For example, the temperature measuring device of claim 1 is combined with the temperature measuring portion. Each of the thermocouples has a junction, wherein the combined temperature measurement portion is 8. The temperature measuring device of claim 7 is in the form of a sheet. A further rotating device is provided. 10. For example, the temperature measurement device of item 9 is used to measure the temperature of the item 9. The r 5 hai rotating device is a horse 12 · The temperature measuring device 5 of claim 9 逵 4 I I I I I I 控制器 , , , 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器The temperature measuring device of i is filled, the test is further included, and the filling body is disposed in the hollow tubular member. 14. If the temperature of request i is measured as metal. The material of a hollow hollow official part is 1 5. If the temperature is measured, the tube is measured. Wherein the hollow tubular member is a steel 16. If the temperature measuring device of the request item is connected, the temperature recorder is connected to the thermocouples, including: a temperature recorder, the surface temperature of the object to be tested is measured. (4) storing the thermocouples 1 7. According to the temperature measuring device of claim 1, the analyzing device is connected to the temperature recording stomach, and the analyzing device is configured to analyze the information of the object to be tested. The temperature recorder stores the difference between the temperature measurement of the request item 丨7 and the surface temperature difference. brain. Wherein the analysis device is an electric i9. The temperature measuring device of claim i, aluminum. The object to be tested is in the form of a piece. 120760.doc 200907312 2〇. The temperature measuring device of claim 1, the heating space.垓 The object to be tested moves through 21. The temperature measurement for (4) the surface, (4) provides a to-be-tested*, and the object to be tested has the following steps: (b) moving the object to be tested through-plus埶 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , An empty pipe member and a plurality of thermocouples, 兮, etc., wherein the hollow pipe fitting thermocouple is disposed outside the hollow pipe member, and the thermocouple is exposed to be exposed to the hollow pipe member to be tested. The surface of the temperature of the surface of the object is measured by the 22. (c), each thermocouple has a step through a grinding step to form the method of claim 21, wherein in step 1 the temperature measuring portion is combined, The combined temperature measuring unit is in the form of a sheet. 23. The method of claim 21, wherein in the step (4), the step of rotating the hollow tube to rotate the hollow tube to contact the surface of the object to be tested is further included. 24. The method of claim 23, wherein in step (c), the step of using a control benefit to control the rotating device is further included. 25. The method of claim 21, wherein after the step, further comprising the step of recording the temperature information measured by the thermocouples using a temperature recorder (4). 26. The method of claim 25, wherein after step (d), further comprising the step of using the analyzing device to purchase the information stored by the temperature recorder to analyze the change in the surface temperature difference of the object to be tested. 120760.doc