Ultrasonic treatment apparatus and fine bubble supply method

What is claimed is: 1 . An ultrasonic treatment apparatus, comprising: a treatment part capable of accommodating a treatment liquid and an object to be treated; an ultrasonic generator that is provided in the treatment part and applies ultrasonic waves to the object to be treated; and a circulation path for circulating the treatment liquid in the treatment part, wherein: the circulation path has a circulating pump for circulating the treatment liquid, a treatment liquid extraction pipe that connects a treatment liquid extracted from the treatment part to the circulating pump, and a treatment liquid discharge pipe that discharges a treatment liquid passed through the circulating pump to the treatment part; and a fine bubble generator which performs deaeration on the extracted treatment liquid and generates fine bubbles in the treatment liquid, is provided to the circulation path, in series with the treatment liquid extraction pipe, wherein the fine bubble generator has two or more narrow portions each having an opening flow path of the treatment liquid with a size narrower than an inside diameter of the treatment liquid extraction pipe, in which the opening flow paths of the narrow portions adjacent to each other are configured to prevent the treatment liquid from proceeding straight, wherein: regarding each of the narrow portions, when an opening cross-sectional area of the inside diameter of the treatment liquid extraction pipe is set to A 0 , and an opening cross-sectional area of the inside diameter of the treatment liquid extraction pipe at an i (i is an integer of 1 or more)-th narrow portion from the treatment part side toward the circulating pump side is represented as A i , an opening cross-sectional area ratio R i of the i-th narrow portion represented as A i /A 0 satisfies the following formula (1); and when an interval between the i-th narrow portion and an i+1-th narrow portion is represented as L i , the following formula (2) is satisfied, and when the number of the narrow portions is set to N, and an N-th opening area ratio from the treatment part side toward the circulating pump side is represented as R N , the following formula (3) and formula (4) are satisfied, R i =0.10 to 0.50  Formula (1) 1.0≤ L i /2( A 0 /π) 0.5 ≤5.0  Formula (2) R i+1 ≥R i   Formula (3) R N /R 1 ≥1.10  Formula (4). 2 . The ultrasonic treatment apparatus according to claim 1 , wherein when the treatment liquid extraction pipe is seen from a pipe axis direction, positions of the opening flow paths of the narrow portions adjacent to each other are not overlapped with each other. 3 . The ultrasonic treatment apparatus according to claim 1 , wherein: a treatment tank which contains the treatment liquid is provided as the treatment part; and the ultrasonic generator indirectly applies ultrasonic waves to the object to be treated via the treatment liquid. 4 . The ultrasonic treatment apparatus according to claim 1 , wherein the ultrasonic generator directly applies ultrasonic waves to the object to be treated that is immersed in the treatment liquid in the treatment part. 5 . The ultrasonic treatment apparatus according to claim 1 , wherein the number N of the narrow portions is 2 to 10. 6 . The ultrasonic treatment apparatus according to claim 1 , comprising one or a plurality of the narrow portions each formed by a projecting member projecting from an inner surface of the treatment liquid extraction pipe. 7 . The ultrasonic treatment apparatus according to claim 6 , comprising, as the narrow portion, a movable projecting member projecting from the inner surface of the treatment liquid extraction pipe. 8 . The ultrasonic treatment apparatus according to claim 1 , comprising one or a plurality of the narrow portions each formed by an opening member provided with one or a plurality of through holes. 9 . The ultrasonic treatment apparatus according to claim 1 , wherein the ultrasonic generator can select a frequency of the ultrasonic waves from a frequency band of 20 kHz to 200 kHz. 10 . The ultrasonic treatment apparatus according to claim 1 , wherein the ultrasonic generator can apply ultrasonic waves to the treatment liquid while performing a sweep within a range of ±0.1 kHz to ±10 kHz centered on a selected frequency of the ultrasonic waves. 11 . A fine bubble supply method, comprising supplying, when performing a predetermined treatment on an object to be treated while applying ultrasonic waves to a treatment part capable of accommodating a treatment liquid and the object to be treated, the treatment liquid containing fine bubbles to the treatment part, wherein an ultrasonic generator that is provided in the treatment part and applies ultrasonic waves to the object to be treated, and a circulation path for circulating the treatment liquid in the treatment part are provided with respect to the treatment part, wherein: the circulation path has a circulating pump for circulating the treatment liquid, a treatment liquid extraction pipe that connects a treatment liquid extracted from the treatment part to the circulating pump, and a treatment liquid discharge pipe that discharges a treatment liquid passed through the circulating pump to the treatment part; and a fine bubble generator which performs deaeration on the extracted treatment liquid and generates fine bubbles in the treatment liquid, is provided to the circulation path, in series with the treatment liquid extraction pipe, wherein the fine bubble generator has two or more narrow portions each having an opening flow path of the treatment liquid with a size narrower than an inside diameter of the treatment liquid extraction pipe, in which the opening flow paths of the narrow portions adjacent to each other are configured to prevent the treatment liquid from proceeding straight, wherein: regarding each of the narrow portions, when an opening cross-sectional area of the inside diameter of the treatment liquid extraction pipe is set to A 0 , and an opening cross-sectional area of the inside diameter of the treatment liquid extraction pipe at an i (i is an integer of 1 or more)-th narrow portion from the treatment part side toward the circulating pump side is represented as A i , an opening cross-sectional area ratio R i of the i-th narrow portion represented as A i /A 0 satisfies the following formula (1); and when an interval between the i-th narrow portion and an i+1-th narrow portion is represented as L i , the following formula (2) is satisfied, and when the number of the narrow portions is set to N, and an N-th opening area ratio from the treatment part side toward the circulating pump side is represented as R N , the following formula (3) and formula (4) are satisfied, R i =0.10 to 0.50  Formula (1) 1.0≤ L i/ 2( A 0 /π) 0.5≤ 5.0  Formula (2) R i+1 ≥R i   Formula (3) R N /R 1 ≥1.10  Formula (4). 12 . The fine bubble supply method according to claim 11 , wherein the fine bubble generator generates the fine bubbles to make a dissolved gas amount to be 50% or less of a saturated dissolved gas amount in the treatment liquid to be discharged to the treatment part. 13 . The fine bubble supply method according to claim 11 , wherein the fine bubble generator generates the fine bubbles to make the fine bubbles having an average bubble diameter of 1 μm to 100 μm exist at a bubble number density in a range of 1×10 3 pieces/mL to 1×10 10 pieces/mL in the treatment liquid to be discharged to the treatment part. 14 . The fine bubble supply method according to cla