Delabie DE777000 is an exposed mechanical time-flow urinal valve designed for use with standard wall-mounted urinals. Featuring a straight-through body configuration, it provides a direct inline connection between the water supply and urinal inlet, making it suitable for installations where the pipework and urinal connection are aligned.
The valve incorporates a self-closing time-flow mechanism that delivers a controlled volume of water with each operation, helping to reduce water consumption while maintaining effective flushing performance. Its simple mechanical operation requires no electrical connection, making it an ideal solution for both new installations and retrofit applications.
Manufactured from durable chrome-plated brass, the DE777000 is designed to withstand the demands of commercial and public washroom environments while providing long-term reliability and low maintenance requirements. The valve is supplied complete with a wall plate for a neat and professional installation finish.
Features:
- Exposed mechanical time-flow urinal valve.
- Straight-through body configuration for direct inline water connections.
- Suitable for standard wall-mounted urinals.
- M½" inlet and outlet connections.
- Supplied complete with wall plate.
- Time-flow operation of approximately 3 seconds.
- Alternative time-flow delays available to suit project requirements.
- Pre-set flow rate of 0.15 L/s at 300 kPa.
- Adjustable flow rate to accommodate site conditions.
- Suitable operating pressure range: 100–500 kPa.
- Recommended operating pressure: 300 kPa.
- Compatible with rainwater supply systems.
- Chrome-plated brass body for durability and corrosion resistance.
- No electrical power supply required.
Applications: Suitable for commercial, education, transport, and public sanitary facilities where a reliable and water-efficient urinal flushing solution is required. The timed-flow operation assists in reducing water consumption, preventing unnecessary water wastage, and ensuring consistent flushing performance in high-use environments.
