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Blow disk type discharge device - List of Manufacturers, Suppliers, Companies and Products

Blow disk type discharge device Product List

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0405 No knockers and aeration issues, solved with this equipment!

0405 No knockers and aeration issues, solved with this equipment!

Not only in this case, but most users are improving powder discharge using this device alone!

This is a case study of our adoption by an industrial waste disposal contractor. In a quicklime silo, compressed air is being pulsed through several 1/4 air nozzles as a bridge prevention measure, but bridging continues to occur. Even after installing air knockers in addition to the air nozzles, the issue was not resolved, leading them to contact us. When introducing our product, they considered using it alongside the already installed air knockers, but after operating solely with the blow discs for a certain period, they informed us that no bridging had occurred with just this solution. [Overview] ■ Silo diameter: Approximately 3000φ ■ Discharge section: 200φ ■ Target material: Quicklime ■ Equipment control: Controlled by a controller with 6 built-in solenoid valves, sequentially turning on 12 blow discs in pairs with a time delay. * For more details, please refer to the PDF document or feel free to contact us. * Our website features numerous implementation examples, which can be checked via the link below.

  • Other powder equipment

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0218 Promoting discharge from the bentonite silo

0218 Promoting discharge from the bentonite silo

Easily solve powder bridges that cannot be resolved with knockers or vibrators!

We have been adopted by an engineering company. According to the customer, there have been several discharge trouble cases with equipment they previously handled using standard aeration, which led to the introduction of this new system. They have given us high praise for the fact that the new equipment operates without any issues thanks to the blow disc. 【Overview】 ■ Material Name: Bentonite ■ Apparent Specific Gravity: 0.7 ■ Particle Diameter: Approximately 10 microns in volume average diameter ■ Silo Diameter: 2500φ 【Key Points of Our Equipment】 ■ The elastic disc (silicone) is very important in terms of strength and durability, especially considering the risk of foreign material contamination. The silicone disc in our equipment is exceptionally strong and durable. Once you use it, you will understand! ■ Control (how to aerate?) is crucial! We provide guidance on what should be done. We also have a dedicated controller available. *For more details, please refer to the catalog. Feel free to contact us with any inquiries. *Our website features numerous implementation examples, which you can check via the link below.

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  • Other powder equipment
  • Powder Conveyor Device

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0277 Prevention of bridging of carbon black, PE powder, and other mixtures.

0277 Prevention of bridging of carbon black, PE powder, and other mixtures.

Introducing examples of Brody disks adopted by manufacturing plants for compounds and similar products.

This is a case that we received contact about from a manufacturing plant for functional resin compounds. They consulted us because the hopper's slope was gentle, and the flowability of the powder material was poor, making it difficult to discharge smoothly. After installing our equipment, they were able to discharge stably. Even with a gentle hopper slope, the effects of our equipment's features (airation along the inner surface of the hopper) were highly appreciated by the customer. [Overview] ■ Hopper diameter: 600φ ■ Hopper slope: 45° ■ Discharge diameter: 150φ (gate valve) ■ Materials: A mixture of carbon black, PE powder, and others... (quite fine powder) * For more details, please refer to the PDF document or feel free to contact us. * Our website features numerous examples of implementations. You can check them from the link below.

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  • Other powder equipment

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0528 Solving the discharge issues of magnesium oxide-based powder.

0528 Solving the discharge issues of magnesium oxide-based powder.

Three standard Brodisk (BD-15 type) units were installed in the hopper and testing was conducted.

This is an example of how our equipment resolved issues that could not be solved by the installation of knockers and aeration (socket welding) on the bridge. The installation of the blow disk involves making holes in the hopper wall for attachment. In this case, the customer expressed, "We have tried various methods, so we absolutely do not want to fail this time." Therefore, it was decided to first test with a φ500 hopper that the customer could prepare (with holes drilled, and it was acceptable if it did not work). As a result, the discharge issues were resolved, but after discussions between the customer and our company, we concluded that it would be better to install a total of 8 blow disks of this type in 2 tiers using a φ800 hopper. The customer proceeded with this installation. The control system uses a controller (C-SV4) with 4 built-in solenoid valves to sequentially turn on the air for the 8 blow disks in pairs at 4 locations with a time delay. [Conditions] ■ Hopper diameter: φ800 ■ Discharge diameter: 150A ■ Knockers: 2 electromagnetic (before the introduction of this equipment) ■ Sockets: 4 locations (before the introduction of this equipment) *For more details, please refer to the PDF document or feel free to contact us.

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