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CN-224231093-U - Infrared thermometer for amorphous material smelting

CN224231093UCN 224231093 UCN224231093 UCN 224231093UCN-224231093-U

Abstract

The utility model discloses an amorphous material smelting infrared thermometer, which comprises a temperature measuring shell and a display shell, wherein the display shell is positioned at the front side of the temperature measuring shell, the left end of the temperature measuring shell is fixedly connected with the left end of the display shell through a connecting wire tube, a photoelectric detector is arranged in the middle of the inside of the temperature measuring shell, and the infrared thermometer further comprises a heat radiating mechanism, the heat radiating mechanism comprises a heat radiating shell, a partition plate and a hollow heat conducting plate, the heat radiating shell is arranged on the outer arc surface of the temperature measuring shell, the partition plate is arranged on the inner wall of the left side of the heat radiating shell, the amorphous material smelting infrared thermometer is matched with the partition plate and the hollow heat conducting plate, cooling liquid is guided to radiate the specific position of the infrared thermometer, the cooling liquid after absorbing heat is timely discharged, the heat is accurately absorbed and timely discharged, the heat radiating effect of the infrared thermometer is improved, the influence of high temperature on the detection result of the infrared thermometer is reduced, and the accuracy of amorphous material smelting temperature detection is ensured.

Inventors

  • XU XIAOFEI
  • NIU PENGFEI
  • ZHAO ZHENFENG
  • ZHAO YUEWEI
  • WANG YALING
  • NIU CHAOJUN
  • SHEN XUEHONG

Assignees

  • 河南嵩岳清诚新材料科技有限公司

Dates

Publication Date
20260512
Application Date
20250607

Claims (7)

  1. 1. The infrared thermometer for amorphous material smelting comprises a temperature measuring shell (1) and a display shell (2), wherein the display shell (2) is positioned at the front side of the temperature measuring shell (1), the left end of the temperature measuring shell (1) is fixedly connected with the left end of the display shell (2) through a connecting wire tube, and a photoelectric detector (3) is arranged in the middle of the inside of the temperature measuring shell (1), and the infrared thermometer is characterized by further comprising a heat dissipation mechanism (4); The heat radiation mechanism (4) comprises a heat radiation shell (41), a partition plate (42) and a hollow heat conducting plate (43), wherein the heat radiation shell (41) is arranged on the outer arc surface of the temperature measurement shell (1), the partition plate (42) is arranged on the inner wall of the left side of the heat radiation shell (41), the hollow heat conducting plates (43) are respectively arranged on the inner arc surface of the temperature measurement shell (1), and the hollow heat conducting plates (43) are matched with the partition plate (42).
  2. 2. The infrared thermometer for smelting amorphous materials, as set forth in claim 1, characterized in that the hollow heat conducting plate (43) comprises a heat conducting ring (431) and a liquid outlet pipe (432), the heat conducting ring (431) is arranged at the left end of the inner cambered surface of the temperature measuring shell (1), the outer cambered surface of the heat conducting ring (431) is of an opening structure, the right side surface of the heat conducting ring (431) is attached to the left side surface of the photoelectric detector (3), the liquid outlet pipe (432) is respectively arranged in the mounting hole of the outer cambered surface of the temperature measuring shell (1), one end of the liquid outlet pipe (432) close to the center of the temperature measuring shell (1) is communicated with the heat conducting ring (431), the other end of the liquid outlet pipe (432) is respectively penetrated out of the abdicating hole on the surface of the partition plate (42), and the inner left end of the heat conducting ring (431) is communicated with the inclined hole I of the outer cambered surface of the temperature measuring shell (1) and the inclined hole of the inner cambered surface of the heat radiating shell (41).
  3. 3. The infrared thermometer for smelting amorphous materials, as set forth in claim 2, wherein the hollow heat-conducting plate (43) further comprises a liquid inlet ring (433), a liquid outlet ring (434) and a hollow spiral plate (435), wherein the liquid inlet ring (433) and the liquid outlet ring (434) are respectively arranged at the right end of the intrados of the temperature measuring shell (1), the liquid inlet ring (433) and the liquid outlet ring (434) are transversely distributed at intervals, the hollow spiral plate (435) is respectively arranged between the right side surface of the liquid inlet ring (433) and the adjacent liquid outlet ring (434), the liquid inlet ring (433) and the liquid outlet ring (434) are respectively communicated with the hollow spiral plate (435), and the liquid inlet pipe of the liquid inlet ring (433) is communicated with the intrados of the heat dissipation shell (41) and the intrados of the partition plate (42), and the liquid outlet pipe of the liquid outlet ring (434) is communicated with the extrados of the heat dissipation shell (41) and the extrados of the partition plate (42).
  4. 4. The infrared thermometer for smelting amorphous materials of claim 3, wherein the heat dissipation mechanism (4) further comprises conical rings (45), the conical rings (45) are respectively arranged on the inner arc wall of the heat dissipation shell (41), and the inclined holes II of the heat dissipation shell (41) and the liquid inlet pipe of the liquid inlet ring (433) are respectively matched with the adjacent conical rings (45).
  5. 5. The infrared thermometer for smelting amorphous materials as set forth in claim 1, wherein the heat dissipation mechanism (4) further comprises a dispersion hole (44) and a spiral sheet (46), the spiral sheet (46) is disposed at the left end between the inner arc wall of the heat dissipation shell (41) and the inner arc surface of the partition plate (42), and the surface of the spiral sheet (46) is provided with the dispersion hole (44).
  6. 6. The infrared thermometer for smelting amorphous materials according to claim 2, wherein the inner cambered surface of the temperature measuring shell (1) is provided with an inner partition plate (5), and the inner partition plate (5) is positioned in the heat conducting ring (431).
  7. 7. The infrared thermometer for smelting amorphous materials according to claim 1, wherein the outer arc wall of the heat dissipation shell (41) is provided with a heat insulation rubber pad (6).

Description

Infrared thermometer for amorphous material smelting Technical Field The utility model relates to the technical field of amorphous material smelting, in particular to an infrared thermometer for amorphous material smelting. Background The amorphous material smelting refers to a process of smelting and rapidly cooling a material through a specific process to form an amorphous structure, wherein the amorphous material is also called metallic glass, the internal atomic arrangement is disordered and has no crystal structure, the characteristic enables the amorphous material to have a plurality of unique physical and chemical properties, in the amorphous material smelting process, an infrared thermometer is required to be used for detecting the smelting temperature in order to ensure the accuracy of smelting temperature, in the prior art, an infrared thermometer is proposed by an authorized publication No. CN 213021974U, and the amorphous material smelting device comprises a thermometer shell, which is columnar, the front end and the rear end of the thermometer shell are respectively provided with a front outer cylinder and a rear outer cylinder, an optical path processing component, which is arranged in the thermometer shell, and comprises an infrared laser, a full-medium reflector and a spectroscope, wherein the full-medium reflector is fixedly arranged on the top wall in the thermometer shell at a preset angle, the spectroscope is arranged in parallel with the bottom wall in the thermometer shell, and the infrared laser is arranged on one side of the full-medium reflector, which is close to the rear outer cylinder, and in spite of being capable of detecting the temperature of detecting the amorphous material, the temperature is easy to detect the temperature in the detecting process because the temperature is close to the inner part, and the temperature is easy to detect the temperature accurately. Disclosure of utility model The utility model aims to overcome the existing defects, and provides the amorphous material smelting infrared thermometer, which guides cooling liquid to radiate heat to specific positions of the infrared thermometer and discharges the cooling liquid after absorbing heat in time, so that the heat is accurately absorbed and discharged in time, the radiating effect of the infrared thermometer is improved, the influence of high temperature on the detection result of the infrared thermometer is reduced, the accuracy of amorphous material smelting temperature detection is ensured, and the problems in the background technology can be effectively solved. The infrared thermometer for amorphous material smelting comprises a temperature measuring shell and a display shell, wherein the display shell is positioned on the front side of the temperature measuring shell, the left end of the temperature measuring shell is fixedly connected with the left end of the display shell through a connecting wire tube, a photoelectric detector is arranged in the middle of the inside of the temperature measuring shell, and the infrared thermometer further comprises a heat dissipation mechanism; The heat radiation mechanism comprises a heat radiation shell, a partition plate and a hollow heat conducting plate, wherein the heat radiation shell is arranged on the outer cambered surface of the temperature measurement shell, the partition plate is arranged on the inner wall of the left side of the heat radiation shell, the hollow heat conducting plates are respectively arranged on the inner cambered surface of the temperature measurement shell, the hollow heat conducting plates are matched with the partition plate for installation, and through the matching of the partition plate and the hollow heat conducting plates, cooling liquid is guided to radiate the specific position of the infrared thermometer and timely discharge the cooling liquid after absorbing heat, the heat is accurately absorbed and timely discharged, the heat radiation effect of the infrared thermometer is improved, the influence of high temperature on the detection result of the infrared thermometer is reduced, and the accuracy of the smelting temperature detection of amorphous materials is ensured. Further, the hollow heat-conducting plate comprises a heat-conducting ring and a liquid outlet pipe, the heat-conducting ring is arranged at the left end of the intrados of the temperature measuring shell, the extrados of the heat-conducting ring is of an opening structure, the right side face of the heat-conducting ring is attached to the left side face of the photoelectric detector, the liquid outlet pipe is respectively arranged in the mounting holes of the extrados of the temperature measuring shell, one end of the liquid outlet pipe, which is close to the center of the temperature measuring shell, is communicated with the heat-conducting ring, the other end of the liquid outlet pipe is respectively penetrated out of the abdicating holes on the surface