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Resin identification sensor - メーカー・企業と製品の一覧

Resin identification sensorの製品一覧

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RICOH HANDY PLASTIC SENSOR B150

The compact and lightweight resin identification handheld sensor contributes to the promotion of recycling of waste plastics and helps realize a circular society.

COMPACT - A small body that can always be carried around - We have achieved a lightweight and compact body that can be carried at all times. Additionally, it is equipped with Bluetooth(R) for wireless connection to smartphones. You can check the identification results on the spot. *Bluetooth(R) is a trademark or registered trademark of Bluetooth SIG, INC. in the United States and other countries. EASY - Easy to operate even for first-time users - Once you turn on the power, simply place the sensor part on the resin you want to identify and press the button. To avoid confusion during operation, we have thoroughly reduced the number of buttons and switches. SPEEDY - A user-friendly interface for beginners to experts - A dedicated app that identifies resins and informs you of the results through display and sound. By keeping the screen layout as simple as possible, we have achieved excellent operability.

  • 企業:轟産業
  • 価格:500,000 yen-1 million yen
  • Analytical Equipment and Devices

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[Use Case] Identification of waste plastic from scrap and leftover materials generated by our factory.

Proper sorting of our company's waste can also serve as an appeal for our commitment to the environment!

We would like to introduce a case study utilizing the "Resin Discrimination Handy Sensor" for the identification of waste plastic from scrap materials and offcuts. In this case, scrap materials generated in our factory and offcuts produced during the manufacturing process are being disposed of collectively, leading to a lack of proper sorting. By sorting the scrap materials and offcuts, they can be handed over to an intermediate processing company, reducing processing costs and allowing for valuable transactions. [Case Overview] ■ Target Companies: Plastic product manufacturers, package printing manufacturers, electronics manufacturers ■ Challenge: Collective disposal of scrap materials and offcuts, lack of sorting ■ Effect: Sorting materials that should be disposed of, resulting in cost savings of several million yen *For more details, please refer to the PDF document or feel free to contact us.

  • plastic

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Specific example: Increased profits through valuable transactions of waste plastics.

A case of manualizing the method for distinguishing valuable materials using a handheld sensor!

We would like to introduce a case study of the implementation of a "resin identification sensor" at a plastic material manufacturer. At this company, they were unable to determine whether the unknown resins among the waste plastics generated in the factory were suitable for valuable transactions, leading to uniform disposal and significant disposal costs. After the introduction of the resin identification sensor, it became possible to identify previously unknown plastics on-site, achieving both an expansion of valuable transactions and a reduction in disposal costs. [Case Overview] ■ Challenges - Among the waste plastics generated in the factory, there was no way to determine whether the unknown resins were suitable for valuable transactions, resulting in significant disposal costs. ■ Effects - It became possible to identify previously unknown plastics on-site, simultaneously achieving an expansion of valuable transactions and a reduction in disposal costs. *For more details, please refer to the PDF document or feel free to contact us.

  • plastic

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[Case Study] Sensor Reduces Sorting Time by Half! Higashi Nihon Recycling Systems

Using a resin identification handheld sensor reduces sorting work time by half! It also contributes to reducing work load.

We would like to introduce a case study on the introduction of the "RICOH Resin Identification Handy Sensor B150" at East Japan Recycling Systems Co., Ltd. The company previously used identification equipment that weighed around 2 kg, which was very heavy and posed a significant burden on workers who had to identify 300 to 350 items per day. After the introduction of the new sensor, the compact and lightweight design improved work efficiency, reducing the work time by about half. Additionally, the types of resins identified are now displayed, eliminating the hassle of switching screens and shortening measurement time. 【Previous Challenges】 - The weight of the previously used identification equipment was heavy, placing a large burden on workers. - The size of the previously used identification equipment was large, requiring careful selection of a place to temporarily set it down during work. - When the type of resin could not be identified, workers had to switch screens to check the most likely materials, leading to concerns about identification accuracy. *For more details, please refer to the PDF document or feel free to contact us.*

  • Optical Measuring Instruments

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[Case Study] 90% Recycling Rate for Waste Plastics! Meiwa Packs

Recycling collection rate improved to 90%! Significantly enhanced material identification accuracy for waste plastic films.

We would like to introduce a case study from Meiwa Pax Co., Ltd. that solved the challenges of material identification accuracy for the valuable trading of multi-material waste films and improving recycling rates. The company faced difficulties in sorting and collecting waste plastic films that had become leftover materials and offcuts, as the materials were not easily identifiable. As a result, valuable trading and recycling became impossible. By introducing the "RICOH Resin Identification Handheld Sensor," the accuracy of polypropylene identification improved, leading to a recovery rate of up to 90%. [Previous Challenges] - Waste plastic films that had undergone processing, such as laminating and printing, could not be identified by material type, making it impossible to sort and collect them for valuable trading or recycling. - The recycling recovery rate and valuable trading rate for polypropylene remained around 10%, indicating a need for reform. *For more details, please refer to the PDF document or feel free to contact us.*

  • PDAs and handheld terminals

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[Resin Identification Handy Sensor Column] Tips for Measurement: Black Resin Edition

The principle of discrimination is a spectral method using near-infrared light! A column introducing tips for measuring black resin.

The identification principle is a spectroscopic method using near-infrared light. The measurement involves irradiating the resin with near-infrared light and acquiring the spectrum of the diffuse reflected light. The obtained spectrum is transferred to a smartphone, where it is processed by an app, and the resin is identified by comparing the correlation coefficient with the registered resin data. Identification is completed in about 2 seconds, and the results are displayed on the app screen as well as outputted via voice. *For detailed content of the column, please refer to the related links. For more information, feel free to contact us.

  • Sensors

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Mix it and it's waste, separate it and it's a resource. Plastic recycling starts with identifying types.

The resin identification handheld sensor contributes to reducing disposal costs of waste plastics and promoting recycling!

The "Resin Identification Handy Sensor" is a product that allows for easy measurement and sorting. It features a lightweight and compact size that can be handled with one hand. You can take it to various locations and explore recycling possibilities. There are many types of plastics, and by sorting them by type, they can be purchased as resources. 【Features】 - Standard registration of 13 commonly used resin data - Ability to add up to 100 unique data types - Safe design intended for both indoor and outdoor use - 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] Contributing to Horizontal Recycling of Label Backing! Nichiei Shinka Co., Ltd.

The RICOH resin identification handheld sensor plays an important role in the "Resource Recycling Project"!

We would like to introduce a case study of the implementation of the "RICOH Resin Identification Handheld Sensor" at Nichirei Shinkawa Co., Ltd. The backing paper for the company's main products, seal and label materials, is a composite material of paper and resin, which has been discarded and incinerated in large quantities without being collected and reused as a resource. In response, we launched the horizontal recycling "Resource Circulation Project" for label backing paper. Our product plays a crucial role in accurately identifying the materials of the label backing paper. [Case Overview] ■ Challenges - As society as a whole works towards achieving the goals of the SDGs, label backing paper has been discarded in large quantities without recycling, highlighting the need to establish a resource circulation system. - To achieve a high level of recycling, it was necessary to accurately determine whether the collected "recycling-specific backing paper" is made of the unique material "Kamis Shine." *For more details, please refer to the PDF document or feel free to contact us.

  • Sensors

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<11/26: Webinar Held> Case Study on the Introduction of a Resin Identification Handheld Sensor

High accuracy in discrimination is the key! Added registration of resin types to the sensor enables efficient material discrimination for "recycling-specific substrates." *Free webinar available.

We would like to introduce a case study on the introduction of the "RICOH Resin Identification Handheld Sensor" to Nichirei Shinka Co., Ltd. The backing paper of the company's main products, seal and label materials, is a composite material of paper and resin, which has been discarded and incinerated in large quantities without being collected and reused as a resource. Driven by the desire to eliminate the disposal of label backing paper and recycle it as a resource, we launched the horizontal recycling project for label backing paper, called the "Resource Circulation Project." Additionally, we will hold a webinar titled "Promoting Material Recycling of Plastics." In addition to case studies from various companies, we will invite Nichirei Shinka to share practical examples of material recycling. [Case Study Overview (Partial)] ■ Challenges - Traditionally, label backing paper has been discarded in large quantities without recycling, highlighting the need to establish a resource circulation system. ■ Implementation Effects - It has become easy and efficient to identify the materials of the collected "recycling-specific backing paper," playing an essential role in the establishment of the "Resource Circulation Project" scheme. *For more details, please refer to the related links or feel free to contact us.

  • Technical Seminar

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[Usage Example] Acceptance/Shipping Inspection of Recycled Pellets

Recycled pellets are easy to use, and sorting them into grades can be expected to improve productivity!

We would like to introduce a case study on the use of the "Resin Discrimination Handheld Sensor" in the acceptance/shipping inspection of recycled pellets. There are cases where variations in the PP and PE ratios occur during the crushing and molding processes of recycled pellets. When the purity of the target material decreases, it ultimately affects the quality of the finished product. Therefore, inspections are conducted during the shipping and acceptance of recycled pellets to categorize them by grade. By using pellets with consistent purity of PP and PE, the quality of recycled material products is stabilized. 【Case Overview】 ■ Target Companies: Pellet manufacturers, waste plastic recycling manufacturers ■ Challenges: Inconsistent purity of PP and PE affecting the quality of recycled material products ■ Effects: Identification by grade to provide products with consistent quality *For more details, please refer to the PDF document or feel free to contact us.

  • plastic

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[Specific Example] Streamlining Inspection Operations and Reducing Outsourcing Costs

Utilizing handheld sensors for random sampling inspections! Check on-site whether the main component of plastic is used according to standards.

We would like to introduce a case study of the implementation of a "resin identification sensor" at a plastic product manufacturer. The company conducted random inspections of products manufactured overseas after they were received and outsourced quality checks. Inefficient inspection operations and costs were problematic. After the introduction of the resin identification sensor, the company internalized random inspections and quality checks, achieving operational efficiency. The lead time to shipment and inventory days were reduced. 【Case Overview】 ■ Issues - After receiving products manufactured overseas, the company conducted random inspections internally and outsourced quality checks, leading to inefficient inspection operations and costs. ■ Effects - Internalization of random inspections and quality checks, achieving operational efficiency. - Reduction in lead time to shipment and inventory days. *For more details, please refer to the PDF document or feel free to contact us.

  • plastic

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Specific example: Streamlining purchasing operations and shortening analysis time.

On-site purchasing decisions using a handheld sensor! Estimates provided on the spot based on resin type.

We would like to introduce a case where a "resin identification sensor" was implemented by an intermediate processing company. In this company, when collecting waste plastics, analysis was necessary for unknown resins, which required bringing them back to their facility for purchasing decisions. The labor costs and time associated with transportation and analysis were challenges. After the introduction of the resin identification sensor, they were able to respond quickly to purchasing decisions and estimate proposals at the customer's site without keeping them waiting, achieving standardization of staff skills and improved customer satisfaction. 【Case Overview】 ■ Challenges - Analysis was necessary for unknown resins during waste plastic collection, requiring them to be brought back for purchasing decisions. ■ Effects - Quick response to purchasing decisions and estimate proposals at the customer's site without keeping them waiting. - Achieved standardization of staff skills and improved customer satisfaction. *For more details, please refer to the PDF document or feel free to contact us.

  • plastic

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