Essex™ Escort Pulse conserving regulators combine our premium oxygen regulators with a conserving device that dispenses the prescribed dose of oxygen triggered by the patients own breath. Where standard oxygen regulators dispense oxygen continuously, which can deplete a cylinder in 1-2 hours, an Essex conserving regulator will lengthen the cylinder life up to 6-8 hours. Essex dual lumen conserving regulators offer the widest range of flow rates in the industry. Similar devices begin with an initial flow rate of 1 L/min, while the Escort conservers initial flow rate setting is 0.25 L/min. Essex conservers do not require batteries, and operate in either continuous or pulse flow. The dual lumen technology covers the majority of the patient population, making it the ideal solution for respiratory therapy. PULSE FLOW SETTINGS 0 | .25 | .50 | .75 | 1.0 | 1.5 | 2.0 | 2.5 | 3.0 | 4.0 | 5.0 | 6.0 CONTINUOUS FLOW SETTINGS 0 | .25 | .50 | .75 | .40 | .50 | 1.0 | 1.5 | 2.0 | 2.5 | 3.5 | 4.5 3:1 Conservation Continuous flow available on all settings Includes dual lumen cannula Lightweight design 0.44 kg / 15.8 oz Soft Touch 12 position flow control knob
Medical Oxygen Regulators for Homecare, Hospital and Medical Applications
This regulator is manufactured with aluminum with a brass core, allowing them to be safe, reliable, durable and lightweight. As required they are registered with the FDA and Health Canada. To ensure safe operation, each regulator is equipped with an internal safety relief valve,and an impact resistant gauge and gauge cover.
Oxygen Regulators are also available with CGA870 connections, CGA540 connections, single barb, DISS, or barb and single or dual DISS outlets.
STANDARD ALUMINUM REGULATORS
This adjustable click style regulator uses a CGA870 connection with barb (optional DISS) outlet and operates at 50 PSI. At only 6.625" inches in body length this regulator is extremely compact and weighs only 1.10 lbs. To ensure safety, reliability, and durability, this regulator is manufactured from brass and aluminum.