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Daikin Device (Suzhou) Co., Ltd.

Daikin Device (Suzhou) Co., Ltd.

Summary:

Visualization of human movements to achieve improved work quality.
The evolving Smart Factory is transforming the future of manufacturing.

Introduced service:

Company name
Daikin Device (Suzhou) Co., Ltd.
Location
No.256 Changyang Street, Suzhou Industrial Park, Suzhou City, Jiangsu Province, China
Industry
Manufacturing
Employee size
More than 1,001 people
Publication date
March , 2024

Client interview

Summary

Issues and support

Issues to be tackled

Testing quality was inconsistent due to reliance on operator experience

KDDI support

KDDI helped visualize the inspection process, eliminating the variation in quality caused by individual operators

Issues to be tackled

Wanted to reduce the workload and management burden within testing process

KDDI support

The system automatically judges the accuracy of the inspection, reducing the workload for both operators and managers

Issues to be tackled

Aimed to automate testing operations that are challenging to perform

KDDI support

The system can record the movements of inspectors, which can be used to train automated robots

Reason and Background for Introduction

They developed a cutting-edge system
that visualizes human movement.

Photo of the meeting with KDDI Shanghai Staff
Photo of the meeting with KDDI Shanghai Staff

Daikin Device (Suzhou) Co., Ltd., a group company of Daikin Industries, Ltd., produces compressors and control printed circuit boards for air conditioners.
In the face of growing difficulties to secure human resources in China, the company is promoting the standardization and automation of manufacturing operations in order to further improve product quality.
As part of these efforts, the company decided to implement major improvements in compressor airtightness testing, which had previously relied on the skill level of operators.
In addition to adopting a new testing method, a motion monitoring system that visualizes the movements of the testers was developed with the cooperation of KDDI Shanghai. 

Mr.Kagiya explains the background and why KDDI Shanghai was selected:
"After consulting with several companies about system development, we decided to entrust KDDI Shanghai with the project. Their motion capture-based motion monitoring system was the most likely to meet out required accuracy, and we also felt their passion for cutting-edge technology development."

Effects of Introduction

Development of a motion monitoring system
that will lead to full automation in the future

The motion monitoring system developed by KDDI Shanghai has standardized inspection work and opened the path to automating difficult testing tasks, which is the ultimate goal.

Mr.Kagiya talks about the achievements:
"The introduction of a new testing method using a detection gun was a major factor in improving inspection work quality. As the testing method relies on human skill to move the detection gun along the compressor joint at a specific speed and interval, a system to objectively determine whether the test was performed correctly was essential. After consulting with several companies regarding system development, we were presented with a motion monitoring system proposal from KDDI Shanghai, utilizing motion capture technology.
Given its strong potential to meet our accuracy requirements, we engaged KDDI Shanghai in the collaboration. The development of the system was extremely difficult, but after several months of trial and error, a system that could capture the trajectory of the detection gun in millimeter increments and determine testing accuracy was successfully developed. In addition, the motion data obtained from this system can be used for robot learning, marking a significant step towards the full automation of testing performed by robots.”

Mr. Kagiya is wearing work clothes and smiling
Keita Kagiya
Deputy Section Manager
Technology Section
Technology Department

Monitors detection gun trajectory and
eliminates variations in testing operations

Ms. Qian is wearing work clothes and smiling
Ye Qian
Technology Section
Technology Department

The Challenge of variation in inspection work has been brilliantly solved by the motion monitoring system. By capturing the movements of the inspection gun, the accuracy and stability have been improved, enabling high-quality inspection at all time.

Ms.Qian explains:
"As the motion monitoring system automatically determines testing accuracy, compared to the conventional method in which operator made subjective judgments, this new system has reduced variations in testing operations. Results are displayed on a monitor on the spot, and if a problem is identified the corresponding point is indicated, meaning that only that specific point needs to be retested, eliminating the need to start from scratch. Our technical staff sometimes have a hard time grasping the operational aspects of what is a very sophisticated system, but KDDI Shanghai is very helpful in providing detailed support."


Tester workload and management burden
also greatly reduced

The new testing method and motion monitoring system have also reduced operator workload.

Ms.Wang explains the effects of the introduction:
"Whereas in the past testing was performed by moving a heavy compressor by hand, now testing can be performed by simply operating the detection gun, with the system providing support so that even physically weak operators can perform testing with confidence.
This system has also reduced manpower by enabling a single operator to perform testing that used to be performed by four operators. In addition, training of new operators has become easier, and the ability to look back on past testing operations by saving motion data and video footage has reduced management workload."

Ms. Wang is wearing work clothes and smiling
Hui Wang
Manufacturing Section Chief
Manufacturing Section 2
Manufacturing Department

Service Introduction Overview Diagram

Airtightness testing method for compressors
at Daikin Device (Suzhou) Co., Ltd.

Image of airtightness inspection: An operator can detect leakage by moving the tip of the detection gun close to the compressor joint and inspecting it at a certain distance and speed. The trajectory of four infrared reflective markers attached to the detection gun is captured with high precision by six motion capture cameras, and the inspection operation is recorded by two monitoring cameras. The monitor determines in real time whether the detection gun has been operated correctly, and displays any areas that have not been inspected correctly.  Translated with DeepL.com (free version)
  • *The listed information was from the date of the interview.

Message from the project leaders

Two smiling KDDI representatives stand in front of KDDI Shanghai

Qifeng Zhang (left)
Suzhou Branch
KDDI Shanghai Corporation


Nan Li (right)
Digital Transformation Division
Suzhou Branch
KDDI Shanghai Corporation


Factories have many management challenges. Advancements in technology are enabling us to address issues that were previously technically impossible to solve. As a group of information and communication technology (ICT) and digital transformation (DX) professionals, we have a global presence spanning over 100 locations and are driving factory DX projects that utilize cutting-edge technologies all around the world. We have many experienced engineers, so please feel free to consult with us at KDDI about your challenges.

Customer Profile

Customer profile

Company name Daikin Device (Suzhou) Co., Ltd.
Location No.256 Changyang Street, Suzhou Industrial Park, Suzhou City, Jiangsu Province, China
URL https://www.daikin-china.com.cn/

Customer profile

Company name Daikin Industries, Ltd.
Location Osaka Umeda Twin Towers South,1-13-1,Umeda,Kita-ku,Osaka,530-0001,Japan
URL https://www.daikin.co.jp/

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