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Handy Sensor Product List

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In-house implementation of plastic material acceptance inspection using a resin identification handheld sensor.

Contributes to cost reduction and shortened lead times! Easy operation for anyone, anywhere.

The "Resin Identification Handy Sensor" is a product that allows for quick identification of various incoming materials, with results available in just 2 seconds. It features a lightweight and compact design that can be handled with one hand. Simply take it to the field, place the resin you want to identify against the measurement area, and press the measurement button. We have independently developed an optical engine that has achieved miniaturization and significant cost reduction. 【Features】 ■ Standard registration of 13 commonly used resin data types ■ Ability to add up to 100 custom data types ■ Capable of determining mixed resins and calculating their ratios ■ Ability to save images of the measured resins ■ Data can be exported to a computer *For more details, please refer to the PDF document or feel free to contact us.

  • plastic

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[Case Study] Achieving Waste Plastic Separation at Construction Sites Using Sensors! Nishimatsu Construction Co., Ltd.

Achieving plastic waste separation at construction sites! Improving material recycling rates through diligent sorting activities.

We would like to introduce a case study on the introduction of the "RICOH Resin Discrimination Handy Sensor" in the efforts of Nishimatsu Construction Co., Ltd. for the separation of waste plastics. The company is promoting initiatives to enhance the accuracy of sorting on-site and aims to gradually expand material recycling and chemical recycling from feasible points, while exploring specific methods. By introducing our handy sensor, sorting has become possible for anyone by using the sensor for identification and displaying samples with photos. 【Case Overview】 ■ Previous Issues - In construction sites, waste plastics were disposed of in a single container and collected as is, with no initiatives for recycling being advanced. ■ Implementation Effects - Sorting of four frequently generated types of waste plastics can now be done instantly, accelerating verification towards improving material recycling and chemical recycling rates. *For more details, please refer to the PDF document or feel free to contact us.

  • PDAs and handheld terminals

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[Case Study] Strengthening Quality Control with Sensor Utilization! Takeda Corporation

Enhancing quality control quickly and without increasing costs through the use of the RICOH resin identification handheld sensor! A case where speed has dramatically improved.

We would like to introduce a case study of the implementation of the "RICOH Resin Identification Handheld Sensor" at Takeda Corporation. The company develops and plans its products in-house, while manufacturing is done at overseas partner factories. They faced challenges with time lags and costs associated with external material inspections. Previously, inspections took about two weeks, but after implementation, results can now be obtained in just a few seconds, significantly improving speed. [Challenges] - Due to the increasing consumer interest in quality and materials, there was a need to strengthen quality control. - Relying on third-party organizations for material inspections took about two weeks to receive results, lacking in speed. - When sending samples for external inspection, there were specifications regarding the size and shape of the submissions, necessitating the processing/destruction of sample products. *For more details, please refer to the PDF document or feel free to contact us.

  • Sensors

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Column on Resin Identification Handy Sensor: What is the Circular Economy?

A detailed explanation of the differences with 3R and initiatives in Japan and abroad in a column format!

Due to mass production and mass consumption in modern times, the speed of consumption is increasing to the point where it seems likely to destroy natural resources in the future. Currently, marine resources are gradually being ravaged by plastic waste in the ocean. When faced with such a situation, many people are likely to feel anxiety and a sense of crisis. In response to these issues, global initiatives such as the SDGs are being implemented. To fundamentally resolve environmental problems, it is necessary to transition to a circular economy, where the elimination of waste and pollution becomes the guiding principle. *For more details on the column, please refer to the related links. For further information, feel free to contact us.*

  • Sensors

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RICOH HANDY PLASTIC SENSOR B150

Even if you are operating for the first time, you can easily identify the resin! With various functions and settings, sorting work is highly efficient.

The "RICOH HANDY PLASTIC SENSOR B150" is a handheld resin identification sensor that allows for the quick and easy identification of various types of plastics. It features a lightweight and compact design that can be handled with one hand. Since resin identification can be performed on-site, there is no need to take samples back, contributing to an efficient workflow. Once the power is turned on, simply place the resin to be identified against the measurement area and press the measurement button. We have pursued a simple operability so that many people can easily use it. 【Features】 ■ Compact and always portable ■ Simple operability that is easy for beginners as well as experts ■ Wireless connection with smartphones ■ Application that informs results through voice and screen ■ Selection of identification model data to improve resin identification efficiency *For more details, please refer to the PDF document or feel free to contact us.

  • plastic

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With the resin identification handheld sensor, recycle waste plastic without throwing it away!

Proper sorting of waste can also appeal as an environmental initiative!

We would like to introduce the utilization proposal for our "Resin Identification Handheld Sensor." This is effective for addressing the issue of collectively disposing of plastic waste and offcuts generated in our own factory's production process. By sorting the materials that should be discarded, we can achieve cost savings of millions. Please feel free to contact us when you need assistance. 【Overview】 ■ Issue: Collectively disposing of waste and offcuts generated in our own factory ■ Solution: Sorting materials to be discarded, achieving cost savings of millions *For more details, please refer to the PDF document or feel free to contact us.

  • Spectroscopic Analysis Equipment

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[Case Study] Successful "Monetization" of Waste Plastics through Sensor Utilization! Japan Special Ceramics Co., Ltd.

The introduction of the RICOH handheld sensor has successfully converted about 20% of waste plastic into "valuable materials."

We would like to introduce a case study of the introduction of the "RICOH Resin Identification Handheld Sensor" at Nippon Tokushu Tōgyō Co., Ltd. At the company's Komaki plant, 111 tons of waste plastic are generated annually, and until now, thermal recycling has been conducted. However, they have decided to aim for the monetization of waste plastics. After the introduction of the RICOH handheld sensor, they were able to accurately sort materials, resulting in the monetization of 20 tons of waste plastic out of the 111 tons. 【Previous Challenges】 - They aimed to transition from thermal recycling of 111 tons of waste plastic to monetization. - To have recyclers accept the materials for a fee, sorting by material type is necessary, but there are limitations to manual sorting. - There was a lack of awareness regarding the sorting of waste that could be monetized among the production staff, necessitating a change in mindset across various production departments. *For more details, please refer to the PDF document or feel free to contact us. ★ Webinar Announcement! ★ We will hold a webinar introducing other case studies. For more details, please refer to the related link or feel free to contact us. Date: December 11 (Wednesday) 15:00 - 15:50 Participation fee: Free

  • Optical Measuring Instruments

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[Usage Example] Distinguishing between different packaging materials for each supplier.

Not through intuition or experience, but by using sensors to distinguish! A case where waste disposal costs were easily improved.

We would like to introduce a case study on the use of the "Resin Discrimination Handy Sensor" for identifying packaging materials. The types of packaging materials handled vary by supplier, but due to the vast quantity and the labor-intensive sorting process, there are cases where they are simply discarded. By just applying the sensor, the material can be identified instantly and accurately. With data accumulation, trends in the materials used by each supplier can also be understood, enabling valuable transactions that were not possible before. [Case Overview] ■ Target Companies: Food manufacturers, automotive manufacturers, electronics manufacturers ■ Challenge: A wide variety of materials from each supplier, which cannot be identified in-house ■ Effect: Materials that could not be identified before can be specified in just 2 seconds *For more details, please refer to the PDF document or feel free to contact us.

  • plastic

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[Usage Example] Quality inspection of incoming goods from domestic and international sources.

If you can easily perform quality checks in-house, you can prevent issues such as foreign matter contamination!

We would like to introduce a case study on the use of the "Resin Discrimination Handy Sensor" in quality inspections of incoming goods from both domestic and international sources. When accepting recycled products or parts manufactured overseas, there is a lack of know-how in quality inspection, leading to the use of external organizations. This sometimes results in the need for on-site visits to factories both domestically and internationally for sampling inspections. Even toy parts, which have strict standards, can be easily inspected, ensuring product quality and preventing unnecessary costs. 【Case Overview】 ■ Target Companies: Plastic product manufacturers, electronics manufacturers, toy manufacturers, cosmetics manufacturers ■ Challenges: Quality inspections are outsourced, with on-site visits required for sampling inspections ■ Benefits: In-house quality inspections, reducing outsourcing and travel costs *For more details, please refer to the PDF document or feel free to contact us.

  • plastic

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[Usage Example] Used as a tool in experiential environmental education.

Utilizing technology for experiential environmental learning effectively captures the hearts of the younger generation!

We would like to introduce a case study of using the "resin identification handheld sensor" as a tool in experiential environmental education. Education about recycling tends to become a one-sided lecture with only blackboard writing or slides. By holding the sensor and experiencing sorting, knowledge acquisition is accelerated. Participants become aware of the reality that recyclable materials are being discarded and learn that sorting can be easily done due to technological advancements, which raises their awareness of environmental conservation. [Case Overview] ■ Target Institutions: Schools, local governments, environmental organizations ■ Challenge: Difficult to relate to environmental learning that is primarily classroom-based ■ Effect: Learning in a fun and active way that can be applied to daily actions *For more details, please refer to the PDF materials or feel free to contact us.

  • plastic

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The resin identification handheld sensor contributes to quality control in food manufacturing sites!

Check the plastic material in 2 seconds! You can respond smoothly to foreign matter contamination issues!

We would like to introduce the utilization proposal for the "Resin Identification Handy Sensor" that we handle. It is effective for challenges such as "wanting to understand the materials used in equipment that comply with HACCP" and "external inspection agencies cannot identify materials non-destructively." Since it allows for non-destructive identification of materials in food manufacturing equipment, it enables reliable quality control. [Overview] ■ Challenge: Unable to identify plastic materials of existing equipment ■ Solution - On-site material identification - Quality control can be performed - Reduction of inspection outsourcing costs *For more details, please refer to the PDF document or feel free to contact us.

  • Sensors

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