Wells 1222 1222CA owner manual Procedure Delime the Water Tank, Chemical Burn Hazard

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SERVICING INSTRUCTIONS (continued)

CAUTION:

CHEMICAL BURN

HAZARD

Deliming chemicals may be caustic. Wear appropriate protective gloves and goggles during this procedure. Never siphon deliming chemicals or solutions by mouth.

This operation should only be performed by qualified and experienced service personnel.

IMPORTANT: DO NOT spill, splash or pour water or deliming solution into or over any internal component other than the inside of the water tank.

IMPORTANT: DO NOT allow any internal components to come into contact with the deliming solution. Take care to keep all internal components dry.

NOTE: Repeat steps 4 thru 5 as required to remove all scale and lime build-up.

NOTE: Normally, silicone hoses do not need to be delimed. Should deliming hoses become necessary, Bloomfield recommends replacing the hoses

PROCEDURE: Delime the Water Tank

PRECAUTIONS: Disconnect dispenser from electric power.

 

Allow dispenser to cool.

FREQUENCY:

As required (dispenser slow to heat)

TOOLS:

Deliming Solution

 

Protective Gloves, Goggles & Apron

 

Mild Detergent, Clean Soft Cloth or Sponge

 

Bristle Brush, Bottle Brush

 

Large Sink (or other appropriate work area)

1.Unplug power cord. Turn off the water shut-off valve and disconnect the water supply line from the inlet fitting.

2.Remove the tank lid assembly as detailed on page 10.

3.Using the drain tube, drain all water from water tank. When finished, be sure drain tube clamp is secured.

4.Mix 2 gallons of deliming solution according to the manufacturer’s directions. Carefully pour the deliming solution into the water tank. Lower the lid assembly back onto the tank. Allow to sit for 30 minutes, or as directed by the manufacturer.

5.At end of soaking period, remove lid assembly from tank. Thoroughly rinse internal components of lid assembly with clear water. Using a stiff bristle brush, scrub the heating element to remove lime and calcium build-up. Rinse with clean water. Store lid assembly in a safe location.

6.Drain the water tank. Using a stiff bristle brush, scrub the interior of the water tank to remove lime and calcium build- up. Rinse with clean water.

7.Reassemble the tank lid to the water tank. Make sure the gasket is properly in place. Reinstall wiring to heating element and thermostat. Reinstall fill and vent tubes.

8.Reconnect water supply. Plug in power cord.

9.Allow dispenser to fill, then drain. Repeat three times.

10.Press tank heater switch "ON". When ready light glows, dispenser is ready to use.

712 76580 Owners Manual Hot Water Dispenser

12

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Contents 712 Warranty Statement Applicability Table of ContentsSpecifications Features and Operating Controls Equipment Damage Precautions and General InformationAgency Listing Information Burn HazardUnstable Equipment Hazard InstallationPLUMBER’S Installation Instructions Refer to Exploded Views page 14 for Component NAMES/NUMBERSELECTRICIAN’S Installation Instructions Shock HazardWater Level OperationWater Heater START-UPTools Cleaning InstructionsFrequency Troubleshooting Suggestions Symptom Possible Cause Suggested RemedyRear Panel Access PanelsServicing Instructions Solenoid DoorReplace Thermostat Temperature AdjustmentRemove Tank LID Assembly Repair HOT Water Faucet Replace Heating ElementReplace Solenoid Procedure Delime the Water Tank Chemical Burn HazardFaucet Repair Kits Exploded Views and Parts ListsService Kits Solenoid Repair Kits19 2 Reqd Description Model 1222 and 1222CA Wiring Diagram Genuin e Parts

1222 1222CA specifications

Wells 1222 1222CA represents a significant advancement in the realm of wastewater management and treatment solutions. Designed for both commercial and residential applications, this model epitomizes efficiency and reliability. It is engineered to meet the growing demand for sustainable practices in water management, addressing the complexities of wastewater through innovative technologies.

One of the hallmark features of the Wells 1222 1222CA is its advanced filtration system. The model employs a multi-stage filtration process, incorporating both mechanical and biological filtration to ensure that wastewater is treated thoroughly. The mechanical aspect utilizes fine mesh screens to capture larger particles and debris while the biological component promotes the growth of beneficial bacteria that help break down organic matter. This two-tier approach enables superior effluent quality, significantly reducing the potential for pollutants entering local water bodies.

In addition to its filtration capabilities, the Wells 1222 1222CA model includes state-of-the-art sensor technology. These sensors monitor parameters such as water levels, flow rates, and overall system performance. This real-time data collection allows for proactive maintenance and ensures that the system operates within optimal parameters. The integration of smart technology also facilitates remote monitoring and control, providing users with the ability to manage the system via a mobile application, adding convenience and enhancing operational efficiency.

The construction of the Wells 1222 1222CA is robust, utilizing high-quality, corrosion-resistant materials that ensure durability and longevity. This model is designed to withstand varying environmental conditions, making it suitable for diverse geographic locations. Furthermore, its compact size allows for easy installation in limited spaces, accommodating the needs of urban environments.

Another notable characteristic of the Wells 1222 1222CA is its energy-efficient design. By employing energy-saving technologies, the system minimizes its carbon footprint while still delivering optimal performance. This focus on sustainability is complemented by a user-friendly interface that simplifies operation for all users, ensuring that both novice and experienced operators can manage the system effectively.

Overall, the Wells 1222 1222CA offers an innovative solution for wastewater treatment, combining advanced filtration, smart technology, durable construction, and energy efficiency into one cohesive unit. This model not only meets regulatory standards but also promotes environmental stewardship, making it an invaluable asset for those dedicated to responsible water management practices.