CN-121994937-A - Single-station phased array ultrasonic water immersion detection equipment

CN121994937ACN 121994937 ACN121994937 ACN 121994937ACN-121994937-A

Abstract

The application relates to single-station phased array ultrasonic water immersion detection equipment, which relates to the technical field of ultrasonic detection and comprises a box body, a water tank, a tool, a probe and a circulating filter device, wherein the circulating filter device comprises an input pipe and an output pipe which are used for inputting and outputting water, a filter mechanism which is used for filtering the water, a treatment box, the input pipe is communicated with the treatment box, the bottom end of the treatment box is communicated with the water tank, a limiting component, a degassing mechanism which is slidably arranged in the treatment box, and an inlet pipe which is communicated with the filter mechanism and a degassing cavity. The application floats on the water surface through the degassing mechanism for reducing the generation of water surface corrugation, and the water pushes the degassing mechanism to move upwards, so that the gas in the water is discharged as soon as possible, and the accuracy of the detection result is improved.

Inventors

LI XUQUN
LI RUIQI
CHEN BIN

Assignees

四川科跃热传电子有限公司

Dates

Publication Date: 20260508
Application Date: 20260408

Claims (10)

1. The single-station phased array ultrasonic water logging detection device is characterized by comprising a box body (1), a water tank (11), a tool (12), a probe (13) and a circulating filter device (3), wherein the circulating filter device (3) comprises: an input pipe (31) and an output pipe (32) which are communicated with the water tank (11) and are respectively used for inputting and outputting water; a filtering mechanism (4) which is communicated with the output pipe (32) and is used for filtering water; The treatment box (33) is arranged on the box body (1), the top end of the input pipe (31) is communicated with the top of the treatment box (33), and the bottom end of the input pipe is communicated with the bottom of the water tank (11); the limiting component (6) is arranged on the inner side wall of the box body (1) and positioned at the upper side and the lower side of the joint of the input pipe (31) and the processing box (33); The degassing mechanism (7) is vertically slidably arranged on the inner side wall of the processing box (33) and is matched with the processing box (33) positioned below the degassing mechanism (7) to form a degassing cavity (35), and the degassing mechanism (7) is moved to the upper side and the lower side of the joint of the input pipe (31) and the processing box (33) and then is abutted against the limiting assembly (6) for positioning; and the inlet pipe (34) is communicated with the bottoms of the filtering mechanism (4) and the degassing cavity (35) and is used for inputting the filtered purified water into the degassing cavity (35), so that the water enters the degassing cavity (35) to push the degassing mechanism (7) to move upwards and the gas in the water is discharged through the degassing mechanism (7).
2. The single-station phased array ultrasonic water immersion detection device according to claim 1, wherein the degassing mechanism (7) comprises: A buoyancy plate (71) which floats on the horizontal plane and is provided with a plurality of vent holes (74); A waterproof and breathable film (72) which is arranged on the buoyancy plate (71) and blocks all the ventilation holes (74), wherein the waterproof and breathable film (72) is used for blocking water from passing through and gas from passing through the ventilation holes (74); a plurality of spikes (73) provided on the lower surface of the buoyancy plate (71) and located on the peripheral side of the vent holes (74) for puncturing bubbles; The air guide assembly (8) is arranged on the buoyancy plate (71) and is used for guiding out air passing through the waterproof breathable film (72) and blocking external air from passing through the waterproof breathable film (72); The plugging assembly (9) is arranged on the treatment box (33) in a sliding manner, the plugging assembly (9) is arranged on the bottom of the treatment box (33) in a building manner after the buoyancy plate (71) moves downwards and is used for plugging the joint of the input pipe (31) and the treatment box (33), and the buoyancy plate (71) moves upwards to push the plugging assembly (9) to move upwards and open and is used for enabling the input pipe (31) to be communicated with the degassing cavity (35).
3. The single-station phased array ultrasonic water logging device of claim 2, wherein the air guide assembly (8) comprises: an air guide cover (81) which is arranged on the upper surface of the buoyancy plate (71) and is used for collecting the air passing through the waterproof breathable film (72); An air duct (82) which is arranged on the air duct cover (81) and is provided with an air duct one-way valve (83) for discharging air in the air duct cover (81) only.
4. The single-station phased array ultrasonic water logging device according to claim 2, wherein the plugging assembly (9) comprises: the plugging plate (91) is vertically arranged on the inner side wall of the treatment box (33) in a sliding manner; The plugging ring (92) is arranged at the top of the plugging plate (91), and after the plugging plate (91) moves downwards, the plugging ring (92) is arranged on the top of the treatment box (33) in a building mode to be positioned and used for plugging the joint of the input pipe (31) and the treatment box (33).
5. The single-station phased array ultrasonic water logging detection device according to claim 2, wherein the limiting assembly (6) comprises: The first limiting block (61) and the second limiting block (62) are vertically arranged on the inner side wall of the processing box (33) at intervals, the buoyancy plate (71) is downwards moved and then placed on the first limiting block (61) for positioning, and the buoyancy plate (71) upwards moves to the position above the joint of the input pipe (31) and the processing box (33) and then abuts against the lower surface of the second limiting block (62) for positioning.
6. The single-station phased array ultrasonic water logging detection device of claim 5, wherein the first limiting block (61) and the second limiting block (62) are detachably arranged on the inner side wall of the processing box (33), two buoyancy plates (71) are vertically arranged at intervals and are detachably connected, and the waterproof breathable film (72) is located between the two buoyancy plates (71) and is clamped and positioned through the two buoyancy plates (71).
7. The single-station phased array ultrasonic water logging detection device according to claim 1, wherein the filtering mechanism (4) comprises: the filter box (41) is arranged on the box body (1); the mounting box (42) is arranged on the upper surface of the filter box (41), the bottom of the mounting box is communicated with the inside of the filter box (41), and the mounting box and the filter box (41) are in a closed state; The filtering component (5) is arranged on the mounting box (42) and is positioned above the filtering box (41), and the output pipe (32) is communicated with the bottom of the water tank (11) and the upper surface of the mounting box (42) and enables water and impurities in the water tank (11) to be filtered through the filtering component (5); And a pump body (43) which is arranged on the upper surface of the filter tank (41) and is communicated with the inlet pipe (34) and the inside of the filter tank (41) so that water in the filter tank (41) flows into the degassing cavity (35) through the inlet pipe (34).
8. The single-station phased array ultrasonic water logging device as claimed in claim 7, wherein said mounting box (42) is provided with mounting holes (44), said filter assembly (5) comprises: a filter frame (51) slidably mounted on the mounting hole (44) and used for filtering water and provided with a mounting plate (45) which is abutted against the mounting box (42) for positioning; an exhaust pipe (52) provided on the upper surface of the mounting case (42) for exhausting the gas in the mounting case (42) and provided with an exhaust check valve (53) for blocking the entry of the external gas.
9. The single-station phased array ultrasonic water logging detection device of claim 1, wherein two vertical partition plates (23) are arranged in the water tank (11) at intervals, the tool (12) is located between the two partition plates (23), a plurality of corresponding water through holes (24) are respectively formed in the vertical intervals of the two partition plates (23), a water through cavity (25) is formed in the bottoms of the two partition plates (23) and the water tank (11), and the input pipe (31) is communicated with the bottoms of the water through cavity (25) and enables water to flow out through the water through cavity (25) and the water through holes (24) and enables laminar flow to be formed at a workpiece.
10. The single-station phased array ultrasonic water logging device of claim 1, wherein a lifting assembly (2) connected with a tool (12) is arranged in the water tank (11), the lifting assembly (2) is used for driving the tool (12) to move above a water surface or driving the tool (12) and a workpiece to be immersed in water, and the lifting assembly (2) comprises: The lifting table (21) is vertically arranged on the inner side wall of the water tank (11) in a sliding manner and extends to the outer side of the water tank (11); The lifting piece (22) is arranged on the outer side wall of the water tank (11), is connected with the lifting table (21) and is used for driving the lifting table (21) to vertically move.

Description

Single-station phased array ultrasonic water immersion detection equipment Technical Field The application relates to the technical field of ultrasonic detection, in particular to single-station phased array ultrasonic water immersion detection equipment. Background With the development of industry and the progress of technology, the requirements of the field of industrial detection on ultrasonic nondestructive inspection detection equipment are also increasing. The existing water immersion detection equipment comprises a frame, a water tank, a tool, a probe and a circulating filtration system, wherein a workpiece is clamped on the tool, the workpiece is immersed in water, the probe is used for detecting the workpiece, accurate positioning and complex path detection in a three-dimensional space are achieved, and the circulating filtration system is used for circulating and filtering purified water in the water tank and ensuring accuracy of detection results. In the flowing process of the purified water, air easily enters the purified water to form bubbles, and meanwhile, the purified water flows to form waves on the surface of the purified water, so that water flow is disturbed, the bubbles, the waves and the disturbed water flow can have adverse effects on the detection of the probe, and the accuracy of the detection result is reduced. Disclosure of Invention In order to improve the accuracy of a detection result, the application provides single-station phased array ultrasonic water immersion detection equipment. The application provides single-station phased array ultrasonic water immersion detection equipment, which adopts the following technical scheme: The utility model provides a single-station phased array ultrasonic water logging check out test set, includes box, basin, frock, probe and circulation filter equipment, circulation filter equipment includes: The input pipe and the output pipe are communicated with the water tank and are respectively used for inputting and outputting water; the filtering mechanism is communicated with the output pipe and is used for filtering water; the treatment box is arranged on the box body, the top end of the input pipe is communicated with the top of the treatment box, and the bottom end of the input pipe is communicated with the bottom of the water tank; The limiting component is arranged on the inner side wall of the box body and positioned at the upper side and the lower side of the joint of the input pipe and the processing box; The gas removal mechanism is vertically arranged on the inner side wall of the treatment box in a sliding manner and is matched with the treatment box positioned below the gas removal mechanism to form a gas removal cavity, and the gas removal mechanism is positioned against the limiting assembly after moving to the upper side and the lower side of the joint of the input pipe and the treatment box; And the inlet pipe is communicated with the filtering mechanism and the bottom of the degassing cavity and is used for inputting the filtered purified water into the degassing cavity, so that the water enters the degassing cavity to push the degassing mechanism to move upwards and the gas in the water is discharged through the degassing mechanism. By adopting the technical scheme, the workpiece is mounted on the tool, the workpiece is immersed in water, the probe is started to extend into the water to detect the workpiece, the workpiece is taken down to be replaced after detection is completed, water in the water tank is input into the filtering mechanism through the output pipe to be filtered, the filtered water is input into the bottom of the degassing cavity through the inlet pipe, then the water moves upwards to be in contact with the degassing mechanism and pushes the degassing mechanism to move upwards until the degassing mechanism moves upwards and is abutted against the limiting assembly to be positioned, and the water is input through the input pipe, so that the circulating filtration of pure water in the water tank is realized. The deaeration mechanism floats on the water surface to enable the water surface to be stable, the generation of water surface waves can be reduced, when water enters the deaeration cavity, the air in the deaeration cavity can be pushed to move upwards and then discharged through the deaeration mechanism, the water moves upwards to enable gas in the water to move upwards simultaneously, then the gas in the water can be discharged through the deaeration mechanism, so that the gas in the water can be discharged as soon as possible, the water is downwards input into the water tank through the input pipe, the gas in the water is discharged after moving upwards continuously, the gas in the water is discharged faster and more effectively, interference of the gas in the water and the water surface waves on detection is reduced, and the accuracy of detection results is improved. The gas removal mechanism is firstly p