RU2022121646A - DEVICE FOR MEASURING THE TEMPERATURE OF A CIGARETTE RODS AND METHOD FOR MEASURING THE TEMPERATURE OF A CIGARETTE RODS - Google Patents

Claims (11)

1. A device for measuring the temperature of a cigarette rod, characterized in that it contains a plurality of tubular convex lenses, the design of said tubular convex lenses being as follows: an approximately elliptical cross-section obtained by cutting a circular convex lens with a plane passing through a vertical center line, the lines being parallel , located at a certain distance relative to the major axis of the indicated approximately elliptical section, when rotated once around the central axis, form a tubular body in which the middle wall is the thickest and the two outer walls are the thinnest. 2. A device for measuring the temperature of a cigarette rod according to claim 1, characterized in that said multiple tubular convex lenses are located coaxially to each other, and the number of said multiple lenses is two or more than two; These tubular convex lenses are double convex convex lenses or single convex convex lenses and have a radius of curvature of 2–60 mm. 3. A device for measuring the temperature of a cigarette rod according to claim 2, characterized in that the number of said tubular convex lenses is three, and from the inside out they are respectively the first tubular convex lens (T1), the second tubular convex lens (T2) and the third tubular convex lens (T3); wherein the inner diameter of the first tubular convex lens (T1) is 7–15 mm, the inner diameter of the second tubular convex lens (T2) is 15–60 mm, and the inner diameter of the third tubular convex lens (T3) is 20–120 mm. 4. A device for measuring the temperature of a cigarette rod according to claim 1, characterized in that said device for measuring the temperature of a cigarette rod further comprises a tubular diffraction grating (S) and a tubular infrared detector (D); said tubular diffraction grating (S) surrounds said plurality of tubular convex lenses, said tubular infrared detector (D) surrounds said tubular diffraction grating (S), wherein said tubular infrared detector (D) is located on a focal ring of said tubular convex lenses, and a plurality of tubular convex lenses, a tubular diffraction grating and a tubular infrared detector are installed coaxially to each other. 5. A device for measuring the temperature of a cigarette rod according to claim 4, characterized in that the inner diameter of said tubular diffraction grating is greater than the outer diameter of the outermost tubular convex lens by 1 mm or more; the inner diameter of said tubular infrared detector is larger than the outer diameter of the tubular diffraction grating by 1 mm or more. 6. A device for measuring the temperature of a cigarette rod according to claim 4, characterized in that in the specified tubular infrared detector for measuring temperature, infrared rays are provided, the wavelength of which is 5–10 μm. 7. A device for measuring the temperature of a cigarette rod according to claim 4, characterized in that said device for measuring the temperature of a cigarette rod further comprises an internal casing (Kn) with a channel for the cigarette rod and an outer casing (Kw); said inner housing (Kn) with a passage for a cigarette rod is located in the innermost tubular convex lens and is coaxial with said tubular convex lenses, a tubular diffraction grating and a tubular infrared detector; said outer casing (Kw) surrounds said tubular infrared detector. 8. The cigarette wand temperature measuring device according to claim 7, characterized in that the material of said tubular convex lenses and the inner casing (Kn) with the cigarette wand channel is one of far-infrared quartz glass, polyester material (PC) IR-transmitting, clear acrylic, other clear polymer, or 8-14UM silicon lens; the material of said tubular diffraction grating is a special diffraction grating material used in infrared imaging devices; The material of said tubular infrared detector is amorphous silicon. 9. A method for measuring the temperature of a cigarette rod, characterized in that it uses a device for measuring the temperature of a cigarette rod according to any one of claims. 1–8, and it includes the following stages, in which: a cigarette rod extending from the cigarette rod forming member of the cigarette machine is inserted into said inner housing (Kn) with a cigarette rod channel; after focusing the infrared rays on the peripheral surface of the cigarette rod along a certain 360º annular line by means of several said tubular convex lenses and after isolating other incident interference rays by means of the said tubular diffraction grating (S), the infrared rays with a wavelength of 5-10 µm are projected onto the said tubular infrared detector (D) to obtain a focal ring; several temperature measurement points are taken on the focal ring, which are then processed to obtain the average temperature of the peripheral surface of the cigarette rod along a 360º annular line; In the case of cigarette rods continuously passing at a uniform speed, the cigarette rod temperature measuring device through an infrared detector (D) measures the temperature of the entire peripheral surface of the continuous cigarette rod for a certain period of time in the continuous focal ring region; selects a focal ring annular line at a rate of at least 1 frame/12 seconds to measure temperature, which is then processed to obtain an average constant temperature curve; that is, it obtains the temperature of the entire peripheral surface of a continuous cigarette rod over a certain period of time.