LORRIC QF Series multi-slotted core cone spray nozzle features a multi-piece design for quick, tool-free disassembly. It offers uniform flow distribution and spray, making it an ideal choice for low-flow applications. Commonly used in semiconductor and PCB manufacturing, acid washing, and chemical spraying.
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Liquid flows through the nozzle's multi-slotted core, creating rotating streams. Centrifugal force forms a circular spray pattern. The core ensures uniform flow and spray, ideal for semiconductor processes, chemical distribution, cleaning, and cooling.
Single-fluid nozzles produce a conical spray shape, known as solid cone nozzles, resulting in a circular pattern.
The Full Cone Spray Nozzle has maximum spray volume in the center, decreasing towards the edges, forming a mound-shaped distribution. Ideal for concentrated impact applications like surface cleaning. For uniform spraying, install nozzles closer together to overlap coverage areas and improve uniformity.distribution.
The fan spray nozzle offers a wide range of flow rates. For example, at a standard design pressure of 2 Kg/cm², the flow rates range from 2 Lpm to 5.50 Lpm. (For other flow rate requirements, please refer to the specification sheet or contact us directly.)
The solid cone nozzle offers 0° to 120° spray angles. A 0° angle provides a straight jet with a single-point spray, delivering the highest impact among all nozzle types. The 120° angle offers the widest coverage, while the standard 60° angle provides balanced impact and coverage. For specific specs, contact us.
The two-piece quick-release design features three snap-lock points between the nozzle and the base, allowing for tool-free assembly and disassembly, precise positioning, and convenient maintenance.
The QF series offers 4 body types, with the QF thread body being the most popular due to its compatibility with various standard fittings and piping systems, alongside 3 welding bodies.
The flow tolerance is within a range of plus or minus 5% of the standard flow rate.
Angle tolerance is within a range of plus or minus 5% of the standard angle.
We take high quality smithing metal to produce solid and durable nozzles by detail turning.
We promise never to use recycled materials.
All material is purchased from world top providers.
Flow meters in PCB electroplating, developing, and etching processes monitor precise chemical and cleaning fluid flow; nozzles control chemical coating and rinsing
Flow meters monitor chemical liquids and pure water treatment fluids supply; nozzles control the spraying of chemical liquids to ensure process purity and stability.
For nozzle with QF Body (thread)
Drill correspon-ding female threads on your pipe
Aim the thread of nozzle body at the female thread. Tightening the body clockwise at the pipe hole.
Aim QFH nozzle tip to nozzle body.
Put QFH nozzle tip into nozzle body.
Fasten the tip and body clockwise to complete installation. If neighboring nozzles are staggered, ensure at least a 5-degree declination to maintain performance.
Installation completed.
For nozzle with QFSA Body (welding)
Drill correspon-ding hole on your pipe.Aim the bottom of QFSA nozzle body at the hole
Use welding torch to fix QFSA nozzle body in the pipe hole
Aim QFH nozzle tip to nozzle body
Fasten the tip and the body clockwise to finish the nozzle installation Finished If the neighboring nozzles stagger with each other, you should place the nozzles at least 5 degrees of declination. Otherwise, the performance might be affected.
With over 30 years of nozzle development and manufacturing experience, along with extensive customer site knowledge, allow us to assist in creating the ideal product for your needs!
LORRIC can customize "flow rate," "angle," and "flow distribution" to suit your specific usage scenarios. We also offer support for unique situations like special impact force or ultra-fine spray needs. Feel free to reach out to LORRIC's team for more information and assistance.
Under fixed pressure, the volume of liquid or gas sprayed by nozzles within a certain period of time.
It is the angle by orifice and the loop of gas or liquid sprayed out.
The distribution of particle on surface by sprayed up liquid.
Testing in extreme environments demands data to aid nozzle development.