TH95805A - Cylindrical battery leak detection method - Google Patents

Abstract

DC60 Cylindrical Battery Leak Detection Method That when transported through a mechanism Examine for leaks (12) by aligning the centers of the axes of the cylindrical battery (Ba), taking X-rays (34) to the closed end (33) of the bellows battery. (Ba) and fluorescence X-rays (40), exiting from the side of the opening (33), projected from the detect window (35) into the detector (39) in the fluorescence radiation (40) projected into. Here we examine the presence of fluorescent X-rays (40) in response to the ingredients in the electrolytic liquid, where separate analysis results are used to determine the liquid leakage of the cylindrical battery (Ba). ) The length proportions (L1, L3, L5) that support the conveying direction of the cylindrical battery (Ba) are smaller than the distance (C1, C2) of the cylinder battery (Ba). Long (L2, L4, L6) that supports the direction perpendicular to the conveyor direction. At large Than the external proportions (R1, R2) of the cross-sectional shape of the perpendicular direction to the central point of the axis of Cylindrical battery (Ba) can also judge the liquid leakage of a cylindrical battery. How to quickly and accurately analyze fluorescence X-ray extraction Cylindrical battery leak detection method That when transported through a mechanism Detect fluid leaks (12) by aligning the center of the cylinder battery's axes (Ba), x-ray radiation (34) to the closed end (33) of the bellows battery. (Ba) and fluorescence X-rays (40), exiting from the side of the opening (33), projected from the detect window (35) into the detector (39) in the fluorescence radiation (40) projected into. Here we examine the presence of fluorescent X-rays (40) in response to the ingredients in the electrolytic liquid, where separate analysis results are used to determine the liquid leakage of the cylindrical battery (Ba). ) The length proportions (L1, L3, L5) that support the conveying direction of the cylindrical battery (Ba) are smaller than the distance (C1, C2) of the cylinder battery (Ba). Long (L2, L4, L6) that supports the direction perpendicular to the conveyor direction. At large Than the external proportions (R1, R2) of the cross-sectional shape of the perpendicular direction to the central point of the axis of Cylindrical battery (Ba) can also judge the liquid leakage of a cylindrical battery. How to quickly and accurately extract fluorescence X-rays

Claims (8)

Disclaimer (all) which will not appear on the advertisement page: EDIT 24/04/15 1. How to check for leakage from cylinder battery. Its characteristic is this: feeding a cylindrical battery with its corresponding axial center, arranged Parallel to allow it to pass through the leak check section, which is placed opposite the detect window. Of the leak detection mechanism; Rendering of the sealed tip of a cylindrical battery in the probe. X-ray leakage through the detected window opening and emission of fluorescent X-rays. Coming out of the end surface that is sealed To enter the machine detects fluorescent X-rays via Window openings detected; And analysis of fluorescence X-rays in response to a mixture of electrolytic liquid separation. It is assembled in a radiant X-ray beam projected to determine if a battery leak has occurred. The cylindrical shape or not where the window is detected is determined in such a way that the contours at its length in the direction of The feeder of a cylindrical battery is less than the distance between the fed cylindrical battery and its length in position perpendicular to the direction of conveying larger than the side size. Outside the cross-section of a cylindrical battery in a position perpendicular to the axis center. 2. A method for detecting a leak from a cylindrical battery according to claim 1, where the occurrence of the leak is determined according to the strength per unit time of the fluorescent X-ray. enter Go in the machine detects continuous fluorescent x-rays From each cylindrical battery which enters In order from the opposite side to the detected window while being transported Or according to the strength Area unit of the sealed end surface of the cylindrical battery 3. Method for detecting leakage from cylindrical battery according to claim 1 or 2, where: the detection window of the inspection mechanism. Leakage Was placed opposite the surface The sealed ends of the cylindrical battery that are fed at a predetermined distance between them; Inspection mechanism housing It consists of an X-ray source for emitting X-rays to a cylindrical battery, a mask for condensing X-rays, a fluorescent glow emitted from the X-ray source into a beam of light, and a fluorescent X-ray detector where the fluorescent X-ray incident occurs; And the interior of the housing is kept in the helium atmosphere. 4. Method for detecting the leakage from the cylindrical battery according to one of claims 1 to 3, where the cylindrical battery is Feed while held on the turntable parallel to the Fixed distance 5. Method for checking for leakage from cylindrical battery according to claim 3, where housing containing x-ray source, mask and fluorescent x-ray detector. Is installed Tool frame page In which the rotating disc for delivering cylindrical batteries is fixed For the next channel Each cylinder is detected, which is placed on the housing opposite to the turntable. 6. Method for detecting cylinder battery leakage according to claim 4 or 5 where each cylindrical battery is Brace it in position on the turntable to pass through the mechanism. Check for leaks so that the defective cylindrical battery was detected as a leak as a result of the Inspections in the leak detection mechanism were rejected from the turntable on the flaw collection route. 7. How to detect leakage from cylindrical batteries according to claims 1 to 6, where alkaline dry batteries, which do From electrolytic liquids containing Dissolve the potassium hydroxide in it. It was examined for the occurrence of leaks on the basis that fluorescent X-rays (40) responding to the potassium mixture were contained in the X-ray radiation. The glow that hits on Fluorescence X-ray detector 8. Method for detecting leakage from cylindrical battery according to claim 3, where the metal mask that X-rays cannot penetrate. This causes the X-rays emitted by the X-ray source to be forced into a beam of light, and then the beam is passed through a channel through the detection window on it. The housing to the sealed end surface of the fed cylindrical battery and where at least the length of the window is detected in the direction of the feed of the cylindrical battery. Can be adjusted -------------------------------------------------- ------------------ 1.How to determine the leakage from a cylindrical battery Its characteristic is this: feeding a cylindrical battery with its corresponding axial center, arranged Parallel to each other to pass through a leak check loop, which was placed opposite the detected window opening. Of the leak detection mechanism; Irradiation of the sealed end surface of the cylindrical battery in the probe. X-ray leakage through the detected window opening and emission of fluorescent X-rays. Coming out of the end surface that is sealed To enter the machine detects fluorescent X-rays via The window cavity detects and analyzes whether fluorescent X-rays in response to a mixture of electrolytic liquid separators. It is assembled in a radiant X-ray beam projected to determine if a battery leak has occurred. Whether or not the cylinder in which the window is detected is determined in the way that the t-shape, its length, in the direction of The feeder of a cylindrical battery is less than the distance between the fed cylindrical battery and its length in position perpendicular to the direction of conveying larger than the side size. Outside of the viper, the cross-section of the cylindrical battery is positioned perpendicular to the center axis. A little bit of it 2. A method for detecting a leak from a cylindrical battery according to claim 1, where the occurrence of the leak is determined according to the strength per unit time of the incoming x-ray radiation. Going in the machine detects continuous fluorescent x-rays From each cylindrical ripple battery, which enters In order from the opposite side to the detected window while being transported Or according to the strength Area unit of the sealed end surface of a cylindrical battery 3. Method for checking for leakage from cylindrical battery according to claim 1 or 2, where: the detected window of the leak detection mechanism. Was placed opposite the surface The sealed ends of the cylindrical battery that are fed at a predetermined distance between them; Inspection mechanism housing It consists of an X-ray source for emitting X-rays to a cylindrical battery, a mask for condensing X-rays, a fluorescent glow emitted from the X-ray source into a beam of light, and a fluorescent X-ray detector where the fluorescent X-ray incident occurs; And the interior of the housing is preserved in the helium atmosphere. 4. Method for checking for leakage from a cylindrical battery according to one of Claims 1 to 3, where the cylindrical battery is fed while held on the turntable parallel to each other at a distance. Constant 5. Method for determining the leakage from a cylindrical battery according to claim 3, where the housing containing the x-ray source, mask and fluorescent x-ray detector. Is installed Tool frame page In which the rotating disc for delivering cylindrical batteries is fixed For the next channel Each detected, which is located on the housing opposite to the turntable 6. Method for checking for leakage from a cylindrical battery according to claim 4 or 5, where each cylindrical battery is positioned on the turntable to pass through the mechanism. Check for leaks so that the defective cylindrical battery was detected as a leak as a result of the An examination in the leak detection mechanism was rejected from the transmission turntable on the flaw collection route. To be separated from the good battery carriage. 7. Method for checking for leakage from cylindrical battery according to one of Claims 1 to 6, where alkali-type dry batteries are made. From electrolytic liquids containing Dissolve the potassium hydroxide in it. It was examined for the occurrence of leaks on the basis that fluorescent X-rays (40) responding to the potassium mixture were contained in the X-ray radiation. The glow that hits on Fluorescence X-ray detector 8. Method for testing for leakage from cylindrical battery according to Clause 3, where the metal mask that X-rays cannot penetrate. This causes the X-rays emitted by the X-ray source to be forced into a beam of light, and then the beam is passed through that detection window on top. The housing goes to the sealed end surface of the fed cylindrical battery, and where at least the length of the window is detected in the direction of the feed of the cylindrical battery. Can be adjusted