Robust, scalable, and serviceable soap dispensing systems engineered for
airports, transit hubs, hospitals, stadiums, and corporate campuses.
Built to ensure hygiene compliance, reduce downtime, and support sustainability in high-volume environments.
Peristaltic and diaphragm pumps ensure reliable dosing across viscosities, with non-drip valves, anti-siphon protection, and prime-assist restart routines.
Use cases: Healthcare · Transit · Food Zones
Multifeed Architecture
Centralized 5–10L reservoirs serve 6–8 dispensers with quick-disconnect, food-grade lines and check valves at each drop for reliability.
Use cases: Airports · Arenas · Campuses
Level Sensing & Spill Protection
Ultrasonic sensors, weight cells, and low-level alarms integrate with BMS. Spill trays with leak detection prevent hazards and downtime.
Use cases: Hospitals · Education · Office
Clog Mitigation Strategies
Auto-purge routines, inline filters, and twist-to-clean nozzles keep soap lines clear, reducing service interruptions in heavy traffic.
Use cases: Stadiums · Transit · Healthcare
Executive Summaries (50 words each)
Category
Summary
Best For
Pump & Fluid Path Design
Advanced pump designs (peristaltic & diaphragm) deliver reliable soap output with anti-drip nozzles, anti-siphon protection, and prime-assist restart routines. Systems handle viscosities from thin liquids to foams, ensuring hygiene compliance and reduced downtime.
HealthcareTransit
Multifeed Architecture
Centralized 5–10L reservoirs feed multiple dispensers, reducing refill frequency and labor. Quick-disconnect food-grade lines and check valves isolate failures, improving system reliability in large bathroom banks.
AirportsArenas
Level Sensing & Spill Protection
Ultrasonic and weight-cell sensing monitor reservoir levels, with low-level alarms tied into BMS systems. Spill trays with leak detection prevent hazards, ensuring restrooms remain safe and compliant under heavy usage.
HospitalsEducation
Clog Mitigation Strategies
Routine auto-purge, replaceable inline filters, and twist-to-clean nozzles help prevent clogging. These features minimize downtime, extend component life, and reduce janitorial service calls in high-traffic facilities.
StadiumsTransit
Quick Spec Guidance
Airports & Transit
Deploy multifeed reservoirs with quick-disconnect lines to minimize refills during peak hours. Anti-siphon nozzles and predictive monitoring ensure uptime across thousands of activations.
Healthcare & Education
Favor peristaltic pumps with closed fluid paths for hygiene. Use ultrasonic or weight sensors with alarms for proactive refills. Include spill trays to prevent contamination.
Stadiums & Corporate
Twist-to-clean nozzles reduce downtime during spikes. Centralized reservoirs hidden in service corridors improve aesthetics while scaling to serve multi-lav runs.
Frequently Asked Questions
Why are standard soap dispensers insufficient for large bathrooms?
They require frequent refills, clog easily, and offer inconsistent dosing. Heavy-traffic facilities need centralized, high-capacity, and serviceable systems to ensure hygiene compliance.
What pump technology is best for hygiene-critical areas?
Peristaltic pumps excel due to closed fluid paths, preventing contamination, while diaphragm pumps are effective for general-purpose high-volume environments.
How does multifeed architecture improve efficiency?
One central reservoir feeds multiple dispensers, reducing refill labor, preventing stockouts, and improving reliability with check valves and leak detection.
How do these systems support sustainability?
They support a wide viscosity range, including eco-friendly concentrates. Centralized refills reduce packaging waste and janitorial travel miles, cutting environmental impact.
Request Spec Kit & BIM
Get cut sheets, Revit families, and CSI specs aligned to your soap system configuration.
