	US 11,781,974 B2
	Method for detecting gas concentration in glass bottle with dynamical threshold adjustment
Qiwu Luo, Hunan (CN); Mingyang Zhu, Hunan (CN); Chunhua Yang, Hunan (CN); Zihuai Liu, Hunan (CN); and Weihua Gui, Hunan (CN)
Assigned to CENTRAL SOUTH UNIVERSITY, Changsha (CN)
Appl. No. 17/421,087
Filed by CENTRAL SOUTH UNIVERSITY, Hunan (CN)
PCT Filed Jul. 13, 2020, PCT No. PCT/CN2020/101574 § 371(c)(1), (2) Date Jul. 7, 2021, PCT Pub. No. WO2021/008476, PCT Pub. Date Jan. 21, 2021.
Claims priority of application No. 201910644523.2 (CN), filed on Jul. 17, 2019.
Prior Publication US 2022/0107264 A1, Apr. 7, 2022
Int. Cl. G01N 21/31 (2006.01); G01N 21/84 (2006.01); G01N 33/00 (2006.01)

CPC G01N 21/31 (2013.01) [G01N 21/84 (2013.01); G01N 33/0036 (2013.01)]

6 Claims

1. A method for detecting gas concentration in a glass bottle with dynamical threshold adjustment, comprising:

acquiring an acceptable concentration threshold a % and a reference concentration auxiliary threshold X % of a target gas in a glass bottle, and acquiring second harmonic peaks P₀, P_a, P_Xin the glass bottle respectively under the concentrations of 0%, a %, X % by using a wavelength modulation spectroscopy (WMS) detection method in a current environment, wherein 0%<X %<a %;

calculating an absolute value for a difference between the second harmonic peaks P₀and P_ato get D_a, and calculating an absolute value for a difference between the second harmonic peaks P₀and P_Xto get D_x;

performing quality inspection on a glass bottle to be detected based on the differences D_aand D_xin the calculating as follows:

collecting the second harmonic peaks for the glass bottle to be detected by using the WMS detection method in order to determine whether the peaks are less than or equal to the second harmonic peak P_aunder the acceptable concentration threshold a %, and, if so, the glass bottle to be detected is an acceptable medicinal bottle and the process proceeds to determining whether the second harmonic peak, otherwise the glass bottle is unacceptable and the detection is performed on a next glass bottle to be detected;

determining whether the second harmonic peaks of the glass bottle to be detected are less than or equal to the second harmonic peak P_Xunder the reference concentration auxiliary threshold X %, and, if so, the second harmonic peaks of the glass bottle to be detected are sequentially added into a queue L;

wherein the queue L has a length of M, and the first element in the initial queue L is equal to the second harmonic peak P₀while the rest of the elements are null; and for adding new elements, old elements are sequentially discarded;

calculating a mean P_Lof elements in the current queue L, and updating the second harmonic peak P_aunder the acceptable concentration threshold a % with the sum of the mean P_Land the difference D_a, and updating the second harmonic peak P_Xunder the reference concentration auxiliary threshold X % with the sum of the mean P_Land the difference D_x;

collecting second harmonic peaks for a current glass bottle to be detected by using the WMS detection method; and

determining whether the current glass bottle to be detected is an acceptable medicinal bottle based on the collected second harmonic peaks for the current glass bottle to be detected, the updated second harmonic peak P_a, and the u dated second harmonic peak P_X.