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nozzle Product List and Ranking from 282 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Mar 04, 2026~Mar 31, 2026
This ranking is based on the number of page views on our site.

nozzle Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Mar 04, 2026~Mar 31, 2026
This ranking is based on the number of page views on our site.

  1. スプレーイングシステムスジャパン Tokyo//Industrial Machinery
  2. H. IKEUCHI & CO., LTD. Osaka//Machine elements and parts
  3. ティックコーポレーション 本社 Tokyo//Machine elements and parts
  4. 4 荒川工業 Aichi//Machine elements and parts
  5. 5 null/null
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nozzle Product ranking

Last Updated: Aggregation Period:Mar 04, 2026~Mar 31, 2026
This ranking is based on the number of page views on our site.

  1. [Free Materials Available] A Professional's Guide to "Three Ways to Choose Nozzles Without Making Mistakes" スプレーイングシステムスジャパン
  2. Nano Bubble Generation Nozzle [AUFB Ark] 荒川工業
  3. Remove dirt and chips from the tap hole! Tornado Air Nozzle Ando Co.,Ltd.
  4. 4 Mist water and oil at an air pressure of 50 kPa! Ultra-compact resin nozzle. ノズルネットワーク
  5. 5 Washing nozzle - Rotating type (Pipe and piping cleaning nozzle) スプレーイングシステムスジャパン

nozzle Product List

271~300 item / All 1391 items

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Improving the cutting of machine tools with fine bubbles! *Case study collection available.

Improving the cutting of machine tools with fine bubbles! *Case study collection available.

By simply installing the microbubble generation device "OK Nozzle," there are cases of reduced processing time and prevention of coolant liquid contamination and decay!

Fine bubbles refer to the general term for microbubbles and ultrafine bubbles (nanobubbles). Ultrahigh fine bubbles (UFB) are nanobubbles (NB). *Defined in June 2017 by ISO TC281. Our "OK Nozzle" is an ultrafine bubble generation device with a very high generation efficiency of [480 million bubbles/mL]. The effects of fine bubbles are diverse and are effective even in cutting and grinding situations. **Effects of using the microbubble generation device "OK Nozzle":** - Improved cutting and grinding performance - Cleaning and purification of coolant tanks - Prevention of edge chipping during aluminum cutting - Separation of lubricating oil and cutting oil - Purification of cutting fluid and prevention of spoilage This document details cases where the "OK Nozzle" was used in cutting with machine tools. It includes examples where the cutting depth increased from 4μm to 7μm, reducing processing time, and cases where the generation of biofilms on the inner surface of water-soluble coolant tanks was suppressed. *For more details, please contact OK Engineering. If you would like the document, please refer to the PDF materials.

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  • Piping Materials
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[Case] New release of loop flow OK nozzle for draft beer.

[Case] New release of loop flow OK nozzle for draft beer.

Fine bubbles rise for a long time! A case of the server's self-cleaning ability and the beer becoming smoother.

The "fine bubble generation nozzle for draft beer" was developed over three years starting in 2014 with the support of the national "monozukuri subsidy." The goal was to enable self-cleaning of draft beer servers, but it was discovered as a byproduct that the draft beer became "mellow." It is hypothesized that this is due to ultra-fine bubbles (nanobubbles). Additionally, we requested an investigation from the National Institute of Advanced Industrial Science and Technology to understand why draft beer with fine bubbles becomes "mellow." They conducted comparisons of floating Pocky, foam generation with Mentos, and analyses using an electron microscope. *For detailed information on the case, please refer to the related links. For more details, feel free to contact us.*

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[Case Study] China Experiments with Fine Bubbles for Pig Farm Waste Treatment

[Case Study] China Experiments with Fine Bubbles for Pig Farm Waste Treatment

Using the 500L OK nozzle! A case where many fundamental aspects of pig manure and urine treatment technology were understood.

Initially, the purpose of purchasing the OK nozzle was for the treatment of domestic wastewater, so a single φ16 self-priming hose was used. However, the actual experiment involved the treatment of pig manure, and it was being investigated how much processing capacity could be achieved with the "500L OK nozzle" to generate fine bubbles and whether it could meet the standard values. At the time of installation, it was noted that the NH3 levels did not reach the standard values, and inquiries were made regarding countermeasures. Through several email exchanges involving an interpreter, the current situation was somewhat understood, so measures were proposed to ensure that ammonia levels fell within the standard values. Experimental methods were suggested, and solutions were clearly outlined. Based on these instructions, some improvements were made, but only insufficient interim data was obtained, and after being informed that "there was a prospect of clearing the standard values," the final data was not sent. However, many fundamental aspects of pig manure treatment technology were understood from this experiment, so it was decided to compile the results, including the progress of this experiment. *For detailed information about the case, please refer to the related links. For more details, feel free to contact us.*

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[Case] Harvesting 4.2 kg melons with fine bubbles.

[Case] Harvesting 4.2 kg melons with fine bubbles.

Fine bubbles were also used for irrigation in the melon house! As a result, the overall melons grew larger.

In the melon house of Kamigaki Farm in Shizunai, Hidaka Town, Hokkaido, a 4.5 kg melon was harvested, and it was reported that they were surprised by the size, which they had never harvested before. Last August, they purchased a "300L/min OK nozzle" for mini tomatoes and generated fine bubbles in the well, which also led to successful results with the mini tomatoes. As a result of irrigating the melon house with fine bubbles, it was reported that all the melons grew larger. I received an email from the introduction site regarding the results of melon cultivation, which I would like to share. [Overview] ■ Introduction ■ Email from the introduction site ■ Generation of fine bubbles in the well ■ Discussion and conclusion *Details of the case can be viewed through the related links. For more information, please feel free to contact us.

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[Case Study] Mechanism of Silicon Wafer (Semiconductor) Cleaning

[Case Study] Mechanism of Silicon Wafer (Semiconductor) Cleaning

This is an introduction to a case that clearly shows the area ratio that can be cleaned has reached 92%!

Here is a case study on the mechanism of silicon wafer cleaning. By utilizing the characteristic of ultra-fine bubbles that creates high pressure inside, we experimentally verified the effect of removing fine particles from solid surfaces using pressure waves. It was revealed that fine particles larger than 1 micron were removed and became unobservable, and that the area ratio of the cleaned surface reached 92%. 【Cleaning Effect】 ■Before cleaning: 359–472 µm² ■After ultrapure water cleaning: 320–482 µm² ■After ultrapure water jet + ultra-fine bubble cleaning - 1000x image: 28.65 µm² - 3000x image: 37.33 µm² *For more detailed information about the case study, please refer to the related link. For further inquiries, feel free to contact us.

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[Case Study] Flounder Farming in Jeju Island, South Korea (1200L/min OK Nozzle)

[Case Study] Flounder Farming in Jeju Island, South Korea (1200L/min OK Nozzle)

Using the "1200L/min OK nozzle"! It is expected to cover an area of about 8,000 to 10,000 m2 of water surface.

At the Jeju flounder breeding farm "Sangji Fisheries," an oxygen dissolution system using the "large nozzle MB1,200" has been introduced. The total water surface area of the farm is approximately 25,000 m2. One "MB1,200L nozzle" is expected to cover an area of about 8,000 to 10,000 m2. [Case Overview] ■ Jeju flounder breeding farm "Sangji Fisheries" - The total water surface area of the farm is approximately 25,000 m2 - One "MB1,200L nozzle" is expected to cover an area of about 8,000 to 10,000 m2 *For more detailed information about the case, please refer to the related link. For further inquiries, feel free to contact us.

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[Case Study] Flounder Farming in Jeju Island, South Korea (300L/min OK Nozzle)

[Case Study] Flounder Farming in Jeju Island, South Korea (300L/min OK Nozzle)

Installed on a portion of the pumped underground seawater! It has been turned into oxygen fine bubble seawater.

We would like to introduce a case of using the "300L/min OK nozzle" in flounder aquaculture on Jeju Island, South Korea. The total seawater volume of the aquaculture pond is 1000m3. The self-aspirated gas is oxygen, and the DO value is determined to be almost proportional to the oxygen intake, making DO value management easy. An OK nozzle is installed on a portion of the underground seawater intake, creating oxygen fine bubble seawater. 【Case Summary】 ■ Total seawater volume of the aquaculture pond: 1000m3 ■ OK nozzle used: 300L/min ■ Self-aspirated gas: Oxygen *For more detailed information about the case, please refer to the related links. For further inquiries, feel free to contact us.

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Case Study: Purification Experiment of the Moat at Yodo Castle

Case Study: Purification Experiment of the Moat at Yodo Castle

This is an introduction to a case that demonstrated significant effects in purifying the water of A City’s moat!

Before directly purifying the water from the moat of Yodo Castle on-site, purification experiments were conducted in a tank to evaluate the effects of fine bubbles. Visual inspection, camera photos, and microscope observation photos were used as methods for assessing purification. From the experimental results, it was found that the "loop flow fine bubble generation OK nozzle" had a significant effect on the purification of the water from A Castle's moat. 【Overview】 ■ Purpose of the experiment ■ Experimental equipment ■ Experimental methods ■ Partial publication of experimental results ■ Discussion *Detailed information about the case can be viewed through the related links. For more information, please feel free to contact us.

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[Example] Fine bubbles for fuel improvement (6L/min OK nozzle)

[Example] Fine bubbles for fuel improvement (6L/min OK nozzle)

Manufacturing and selling fuel improvement devices! Capable of generating oxygen fine bubbles, allowing for fuel savings of around 10%.

We will introduce a case study that utilizes fine bubbles for fuel improvement using the "6L/min OK nozzle." Oohashi Co., Ltd. manufactures and sells fuel improvement devices using the OK nozzle. By generating oxygen fine bubbles, it can achieve fuel savings of approximately 10%. 【Case Overview】 ■ Oohashi Co., Ltd. - Manufactures and sells fuel improvement devices using the OK nozzle (6L/min OK nozzle) ■ Examples of Delivery Records - Furukawa Electric, Gunze Fukushima Plant, Kaneka Kanto Styrene, Kanro Candy, Daimyo Chemical, Sansha Electric Eastern, Hokuetsu Paved Road, etc. *For more detailed information about the case, please refer to the related links. For further inquiries, please feel free to contact us.

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[Example] Use of 25L/min OK nozzle

[Example] Use of 25L/min OK nozzle

Achieved 400%! A case where it was proposed to install a hose about 10 to 20 meters on the discharge side of the OK nozzle.

We received data from a Chilean vendor regarding an experiment to increase the Do value using a "25L/min OK nozzle." In the experiment before reaching 400%, we received an email stating that the Do value did not exceed 160%. At that time, we suggested placing a hose about 10 to 20 meters on the discharge side of the OK nozzle. As a result, we achieved 400%. *For more details on this case, you can view them through the related link. Please feel free to contact us for more information.

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[Example] Custom OK nozzle for drainage treatment, 100L/min

[Example] Custom OK nozzle for drainage treatment, 100L/min

A breakthrough in wastewater treatment system reform! Introducing a case where the biggest issue of oxygen deficiency has been resolved.

We would like to introduce a case study using the "custom OK nozzle for wastewater treatment at 100L/min" from OK Engineering Co., Ltd. In December 2010, we delivered two 100L/min nano-microbubble generation nozzles for wastewater treatment to a food manufacturer in Shikoku. In January, we received an email stating, "The installation is complete, and the biggest concern, the lack of oxygen, has been resolved all at once." 【Case Overview】 ■ Response - Delivered two 100L/min nano-microbubble generation nozzles ■ Effect - Installation is complete, and the biggest concern, the lack of oxygen, has been resolved all at once. *For more detailed information about the case, please refer to the related links. For further inquiries, feel free to contact us.

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OK nozzle for bath and shower

OK nozzle for bath and shower

The discharge volume is 6L to 25L/min! You can also attach a hose to deliver carbon dioxide or ozone!

This product is a type that connects to a shower in the bath. Simply remove the showerhead from the hose and connect it between the hose and the showerhead, making it easy for anyone to install and use. Additionally, the "OK Shower Nozzle for Base" is a type of product that connects to the base of the shower hose in the bath. Since it is installed at the base of the shower hose, the showerhead does not become heavy. 【Features】 ■ Type that connects to a shower in the bath ■ Remove the showerhead from the hose and connect it between the hose and the showerhead ■ Easy for anyone to install and use *For more details, please refer to the related links or feel free to contact us.

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I tried the Super Volcano Nozzle!

I tried the Super Volcano Nozzle!

[Mitarepo] I tried to see how much the printing speed can be increased by using a high-flow hot end! | System Create

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" From the wide range of product genres handled by System Create, we deliver useful information each time. In Vol. 79, we tried 3D printing using one of the rich option parts of the large 3D printer "Modix" series, the "Super Volcano Nozzle." In recent years, the development of large printers has progressed due to the desire to print large models all at once. In such large-scale printing, the concern is the printing time. It is not uncommon for it to take several hundred hours, so users want to shorten the printing time as much as possible. The "Modix" series offers the high-flow hot end "Super Volcano Nozzle" as an option to meet such demands. It is said that high-speed printing can be achieved because the melting area is larger compared to standard nozzles. In this document, we verify the actual printing speed. The results are explained along with images and comments. You can download the document from the button below.

  • 3D Printer
  • plastic
  • Prototype Services
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High Concentration Electrolyzed Water - Santius

High Concentration Electrolyzed Water - Santius

For bacteria and virus prevention! This is an easy-to-use bag-in-box. For hand washing, dishware, and equipment cleaning. Effective against a wide range of bacteria and viruses.

High Concentration Electrolyzed Water - Santius Features 1. Extremely high sterilization power, effective against many bacteria and viruses. 2. Approximately 80 times more effective compared to other sterilizing waters. 3. Weakly acidic, gentle on the skin, and less likely to cause dryness. 4. Can be widely used for washing hands, as well as cleaning dishes and utensils. 5. High effective chlorine concentration, economical as it can be diluted for use.

  • Food environmental hygiene/contamination prevention equipment
  • Other safety and hygiene products
  • others
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Spinning nozzle for synthetic fibers "Carbon fiber (wet nozzle)"

Spinning nozzle for synthetic fibers "Carbon fiber (wet nozzle)"

Carbon fibers are classified into PAN-based and pitch-based according to the raw materials.

The wet spinning nozzle for synthetic fibers is classified into PAN (polyacrylonitrile) type and pitch (such as coal tar) type based on the raw materials. About 90% of the carbon fiber market is PAN type. PAN-based carbon fibers are obtained by carbonizing PAN precursors (polyacrylonitrile fibers) and possess high strength and high modulus properties. The wet spinning method involves fiber formation from the spinning dope in a coagulation liquid, allowing for a higher number of holes per unit area of the nozzle compared to dry and wet spinning methods. For more details, please download the catalog.

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Synthetic fiber spinning nozzle "Dry nozzle"

Synthetic fiber spinning nozzle "Dry nozzle"

It is a method of forming fiber filaments by evaporating the solvent and winding it up.

The "dry nozzle" for synthetic fiber spinning is a method that involves dissolving a polymer (high molecular material) in a solvent to create a polymer solution, which is then extruded through a porous nozzle. This solution is dried with hot air, causing the solvent to evaporate and forming fiber filaments. It is used for materials such as acetate, spandex, and acrylic. The dry spinning nozzle requires a higher level of precision compared to other nozzles. In the case of round hole nozzles, the diameter and length of the holes are important. For shaped hole nozzles, the edge width, edge length, and configuration angle, as well as the angle and cross-sectional shape of the inlet hole, are crucial. Additionally, the share of acetate is the highest in the world. For more details, please download the catalog.

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Melt nozzle for synthetic fiber spinning

Melt nozzle for synthetic fiber spinning

It is used to make fibers from thermoplastic polymers (polymeric materials).

The "melt nozzle" for synthetic fiber spinning is used when converting thermoplastic polymers (polymeric materials) into fibers. The polymer, which has become highly fluid due to high heat, is extruded under pressure through small holes, and while being pulled, it is cooled to form yarn. Compared to other spinning methods, the spinning speed is fast and productivity is high. It is used for spinning materials such as polyester and nylon. By changing the shape of the nozzle holes, fibers with various cross-sections can be produced. For more details, please download the catalog.

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High-precision mirror processing of fluid holes

High-precision mirror processing of fluid holes

Proposal for improving high-precision mirror surface processing and flow path design using proprietary tools.

We have achieved quality improvement and cost reduction through high-precision mirror surface processing of fluid holes using proprietary tools and proposals for improving channel design. We offer technologies such as tapered mirror hole processing, conical tapered hole processing, irregular hole mirror processing, and narrow pitch multi-hole processing. The pioneer of rayon nozzles contributes to various industries and environmental fields. For more details, please download the catalog.

  • Other machine elements
  • Processing Contract
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Comprehensive catalog

Comprehensive catalog

The pioneer of spinning nozzles is contributing to various industries and environmental fields.

Nihon Nozzle Co., Ltd. greatly contributed to the development of the chemical fiber industry by successfully domesticating nozzles for rayon production in 1930. Since then, we have continuously engaged in diligent research and development as a top manufacturer of nozzles for chemical fiber production, always aiming to meet our customers' needs while looking towards new prospects in the fiber industry. Thanks to this, our fiber nozzle manufacturing technology has gained immense trust from many in the domestic and international chemical fiber manufacturing sectors, boasting a high supply share in the global market. Until now, we have actively approached manufacturing with a flexible attitude, never becoming conservative. This has been our corporate stance since our founding, and we will continue to uphold it. For more details, please download our catalog.

  • Other machine elements
  • Processing Contract
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Nanoparticle dispersion containing microparticle manufacturing nozzle RJ10-TLM

Nanoparticle dispersion containing microparticle manufacturing nozzle RJ10-TLM

Joint development with Tokyo University of Pharmacy and Life Sciences: Particle manufacturing that allows the dispersion of nanoparticles within microparticles is possible!

By using the RJ10-TLM1 nozzle for nanoparticle dispersion containing fine particles, it is possible to produce particles that disperse nanoparticles within microparticles through spray drying. For more details, please contact us or download and view the catalog.

  • Other physicochemical equipment
  • Granulating Equipment
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Comprehensive catalog of the trusted Cavro brand dispensing nozzle (dispensing probe).

Comprehensive catalog of the trusted Cavro brand dispensing nozzle (dispensing probe).

Nozzle (probe) for Tekan systems and devices designed for accurately dispensing liquids with various properties, from ultra-micro to large volumes, under various conditions.

Cavro's components have been providing innovative and reliable liquid dispensing technology to developers of devices and systems for over 40 years. To dispense liquids accurately, it is necessary to adjust the dispensing conditions of high-precision syringe pumps or pipette modules according to the volume and properties of the liquid. However, it is equally important to select the dispensing nozzle or probe that will be the tip for expelling or aspirating the liquid. This consideration becomes particularly crucial when dealing with volumes of 1 ml or less. In fact, our company has been providing dispensing probes for many years to establish reliable measurement systems in fields such as in vitro diagnostic analysis devices, analytical chemistry, and production facilities. These probes are also utilized in our high-throughput, high-precision dispensing systems that we offer.

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  • Syringe Pump
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For those struggling with clogged bug filters! 【Reverse Wash Pulse Improvement Nozzle】

For those struggling with clogged bug filters! 【Reverse Wash Pulse Improvement Nozzle】

Improved dust removal capability! Extended filter lifespan! Contributes to reducing the operational costs of bug filters!

This is a cleaning cone and broach tube nozzle manufactured by GOYEN in Australia. By attaching it to the existing bag filter dust collector's blow pipe, it enhances the dust removal capability. It is a unique product from GOYEN, a manufacturer specializing in pulse jet valves. 【Function】 ■ Increased dust removal air volume The broach tube nozzle primarily aligns the injection direction of the pulse jet. The injected air is sent to the filter without waste. ■ Diffusion of removal air The upper part of the filter tends to receive less removal air. The cleaning cone diffuses the injected air, sending it throughout the entire filter. ■ Extended filter lifespan With the increase and diffusion of removal air, the pressure difference between the upper and lower parts of the filter is reduced, preventing localized wear on the filter. For more details, please download the PDF or feel free to contact us.

  • Dust collector
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Valve Gate Nozzle "Ultra Helix 250 T2"

Valve Gate Nozzle "Ultra Helix 250 T2"

For saving resin and reducing cycle time! The smallest size in the series, suitable for small parts. Easy maintenance as well.

The "Ultra Helix 250 T2" is the smallest valve gate nozzle in the Ultra Helix series, with a release diameter of 12mm and a mold fitting diameter of 7mm. It can accommodate small parts such as flip-top caps, cosmetic caps, and small mechanical components. By utilizing direct gate molding, it contributes to resin savings and reduced cycle times. Additionally, the nozzle tip can be maintained without removing the mold from the injection molding machine. 【Features】 - Supports a wide temperature range, contributing to improved product quality - Allows selection of opening and closing methods such as pneumatic or electric servo motor - Eliminates cold runners, enabling energy savings and reduction of plastic waste - Achieves longer gate lifespan through speed control during valve opening and closing (using servo motor plates or individual electric servo motor drives) *For more details, please feel free to contact us.

  • Company:HUSKY
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Cock-type anti-foaming nozzle

Cock-type anti-foaming nozzle

The pressure water is sprayed from the tip of the de-foaming nozzle onto the water surface to eliminate bubbles.

It will be installed in the contact aeration tank and the sedimentation tank.

  • Water treatment equipment
  • Filtration Equipment
  • Aeration/air diffusion equipment
  • nozzle

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Micro-volume dispensing nozzle

Micro-volume dispensing nozzle

Combining with the VHS (Very High Speed) pump enables nanoliter dispensing.

This nozzle is designed for applications that require micro and nanoliter precision dispensing. We offer tubes with MINSTAC fittings for VHS valve connections, filter screens, and spray nozzles (air-assisted and pressurized).

  • Analytical Equipment and Devices
  • nozzle
  • Piping Materials
  • nozzle

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Dispensing/Spray Nozzle "DISPENSE & ATOMIZING Nozzle"

Dispensing/Spray Nozzle "DISPENSE & ATOMIZING Nozzle"

Optional nozzle for our high-speed electromagnetic valve "VHS Series." For dispensing: 10nL droplet ejection / For spraying: generates a fine mist with a hollow conical shape.

We provide nozzles that can achieve precise fluid dispensing or spraying. These nozzles are available in several different mounting styles and can be directly connected to the high-speed solenoid valve "VHS Series" or used with flexible tubing. When connected directly to the VHS valve, the flow between the valve sealing surface and the nozzle is minimized, improving the response time at the system level. The precision orifice incorporated into the dispensing nozzle allows for the application of accurate spherical droplets of approximately 10 nL, and by using multiple nozzles, applications in the milliliter range are also possible. The spray nozzles are available in both air-assisted and airless designs. The air-assisted nozzle achieves atomization with just 5 psi of liquid and air, while the airless nozzle achieves atomization with only 30 psi without the need for an external air source.

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