Development of Concrete Inspection Robot with Dual Stage Suckers

Matsumoto, Yuta; Kurashige, Isao; Yoneda, Kan

doi:10.20965/jrm.2019.p0816

Cited by 2 publications

(2 citation statements)

References 4 publications

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“…Sponge vacuum suction cups are gradually becoming popular due to the n structive fixation between equipment and walls, and their good sealing performan ability to absorb objects with uneven surfaces [42,43]. Their working pressure r usually between 50 kPa and 80 kPa.…”

Section: Fixed System Designmentioning

confidence: 99%

“…Their wo usually between 50 kPa and 80 kPa. When the diameter is 75 m mm) and the working pressure is 40 kPa (considering the differen according to the equation for calculating the suction force of the force that a single suction cup can withstand is 113 N. Accordin position calculation, the weight of the spray system is about 4 kg Sponge vacuum suction cups are gradually becoming popular due to the non-destructive fixation between equipment and walls, and their good sealing performance and ability to absorb objects with uneven surfaces [42,43]. Their working pressure range is usually between 50 kPa and 80 kPa.…”

Section: Fixed System Designmentioning

confidence: 99%

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Development and Application of Non-Destructive Testing Instrument for Wall Impermeability Based on a Water Drenching Method

2022

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This article introduces a new type of on-site non-destructive testing instrument for the impermeability measurement of walls. The research and development of this instrument is based on the water drenching method. The influence of symmetry is mainly considered in the design process, and it has on-site testing functions such as water pressure adjustment and wind pressure simulation. The water seepage of the four types of masonry walls under the combined working conditions of three levels of spray strength and wind pressure strength was tested by using instruments. The results show that the weak location regarding the impermeability of the masonry wall is the junction of mortar joints. Parameters such as wall leakage time, seepage area and water seepage amount are significantly affected by wind pressure. Furthermore, during on-site inspection, the influence of wind pressure on water seepage conditions must be considered when simulating the real wind-driven rain conditions. The testing instrument will be promoted and used according to the compiled industry regulations.

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Section: Fixed System Designmentioning

confidence: 99%

Section: Fixed System Designmentioning

confidence: 99%

Development and Application of Non-Destructive Testing Instrument for Wall Impermeability Based on a Water Drenching Method

2022

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Multi-Legged Inspection Robot with Twist-Based Crouching and Fine Adjustment Mechanism

Phlernjai¹,

Ratsamee²

2022

JRM

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The monitoring and inspection of buildings, towers, and large chemical tanks can be dangerous and costly. A wall climbing multi-legged robot can climb and crouch to move the inspection probe closer to the wall surface. The typical wall-sticking crouching motion of multi-legged robot is unable to achieve this without an additional actuator at the foot base. This limits the design of a magnetic leg that is bulky enough to keep the robot stable during inspections. This paper provides the concept and implementation details of a coarse-to-fine inspection using a novel twisting motion to crouch the robot towards the steel surface without the need for an additional actuator at the magnetized foot joint. The center position error of this method is reported as less than 1 cm in radius. Additionally, this paper suggests using a linear motor to provide fine-tuning capability for the gentle touch of the ultrasonic inspection probe to the steel surface, protecting the probe from a direct crash during the coarse twisting crouch movement. Experiments have been conducted to confirm the validity of this concept on horizontally flat steel plates. The robot successfully crouch towards the surface and gently touch it with the ultrasonic probe. The results were reliable and comparable to manual inspection. For the 2 mm and 3 mm sample plates, the average measurement error compared to the ground truth from a vernier caliper was less than 2%, which is better than the measurement error (3%) of humans. The total time used was 2.475 seconds per inspection spot, which is 5.6 times faster compared to the expected time used to cover the same distance with a typical probe extension using a lead screw drive.

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Development of Concrete Inspection Robot with Dual Stage Suckers

Cited by 2 publications

References 4 publications

Development and Application of Non-Destructive Testing Instrument for Wall Impermeability Based on a Water Drenching Method

Development and Application of Non-Destructive Testing Instrument for Wall Impermeability Based on a Water Drenching Method

Multi-Legged Inspection Robot with Twist-Based Crouching and Fine Adjustment Mechanism

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