LOCTITE® Stationary Dispense Valves
Features and Benefits
LOCTITE Stationary Dispense Valves with a 6.35 mm or 9.53 mm feed line have a double-acting cylinder which allows for adjustable opening and closing speeds for increased dispensing control.
LOCTITE® Stationary Dispense Valves with a 6.35 mm (item #88644) or 9.53 mm (item #88645) feed line are slim, lightweight, patented, seal-less dispense valves. They have a double-acting cylinder which allows for adjustable opening and closing speeds for increased dispensing control. One of these stationary applicators requires a controller and product reservoir, and can be used with an integrated dispense reservoir to form a complete dispensing system (item #2814025 or 2814024). Adjustable suck-back feature eliminates stringing and dripping.
- Easy integration with LOCTITE reservoirs and controllers
- Slim, lightweight, seal-less design
- Adjustable opening and closing speeds for increased dispensing control
- Modular design of product shut-off valve and valve actuator provides for on-line serviceability
- Included in the Box: (1) Stationary Dispense Valve, (1) needle kit, (1) anti-bubbler adapter & sleeve, (1) operating manual
- Specifically designed for precision dispensing of LOCTITE adhesives
- Can be used in stationary mounted, robotic, or handheld applications
- The 6.35 mm valve is compatible with all LOCTITE low-to-medium viscosity (< 15,000 mPa·s) products
- The 9.53 mm valve is compatible with all LOCTITE low-to-medium/high viscosity (< 80,000 mPa·s) products
Technical Information
Air input pressure, Recommended | 60.0 - 80.0 psi |
Applications | Dispensing adhesives |
Dispense patterns | Beads, Dots, Drops |
Fluid pressure, Recommended | 80.0 psi |
Key characteristics, Recommended | Stroke adjustment, Vacuum suck-back, Viscosity: low to medium viscosity |
Operating type | High precision, Pressure-time |
Used to dispense, Recommended | Adhesives-gel, Cyanoacrylates, Light cure acrylics, Retaining compounds, Threadlockers |
Viscosity, Recommended | 0.0 - 15000.0 mPa·s |