Kenmore 4EW1.50, 4EW.90, 3EW.75, 3E W.65, 5EW1.75, 5EW2.00, 5EWL.20 owner manual Sequence, Operation

Page 34

 

 

SEQUENCE

OF

OPERATION

 

BOILER

WITH TANKLESS

COIL:

 

INTERNAL WIRING FOR

HONEYWELL

 

 

 

 

AQUASTAT

LS124C

Aquastat hiI_h limit controller:

 

 

 

 

The aquastat

control's high limit

contacts open and rum

off the

-- _,_=_'_

_, I 2----CN0.

burner when the boiler water temperature reaches the control's

 

 

high limit set point. The high limit contacts automatically reset

 

 

alter the boiler water temperature drops past the set point by 10°F, which is a fixed_differential.

Aquastat low limit and circulator control:

With the adjustable differential at the minimum setting of 10°F:

On a boiler water temperature rise above the low limit set point, the burner circuit contacts (RB) break and the circulator circuit contacts (RW) make.

On a boiler water temperature drop of 10aF below the low limit set point, the RB contacts make and the RW contacts break.

ILOW LtUff/I 2 T

[_cu_roR t_

With the adjustable differential setting greater than 10°F:

When the boiler water temperature is at (or below) the low limit set point, the RB contacts make and fire the burner and the RW contacts break leaving the circulator off. The burner will fire until the boiler water temperature

reaches the low limit set point _ the adjustable differential setting minus 10aF. At this point the RB contacts break stopping the burner and the RW contacts make. With no call for space heating, operating in this way keeps the circulator

off and allows the boiler to give preference to the domestic water heating requirements. Example: Consider the boiler

water temperature drops to 15OAF with the low limit set at 16OAF and the differential is set at 15°F. The burner will

begin to fire. When the aquastat probe senses a boiler water temperature of l 65aF (15°F - lOaF = 5°F, then 160°F +5°F = 165°F) the RB contacts break and the RW contacts make.

When the boiler water temperature rises above the low limit / adjustable differential setting and the thermostat

controls call for domestic space heating. The sequence of operation for the burner and circulator is as follows:

1.Thermostat calls for heat, completing circuit between terminals T & T on the aquastat controller, energizing the 1K relay coil.

2.With the IK relay coil energized, contacts IK1 and 1K2 are closed. Terminal B1 is energized, providing power to the oil burner primary control. This, in turn, powers the ignition coil and burner motor.

3.With the primary control energized, the burner operation starts and remains running as long as the cad cell senses flame. In the event of flame failure or the flame is not fully proven within the trial for ignition period, the primary control will lockout and open the burner circuit. This will require a manual startup of the burner.

4.As long as flame is proven through the cad cell relay, the burner will remain on until the circuit is interrupted by the boiler water temperature reaching the aquastat's high limit setting (opening high limit contacts RB), or the thermostat is satisfied breaking the T-T circuit.

5.Circulator pump is powered through terminal C1 and will mn when boiler water temperature is above the low limit setting and there is a call for heat from the thermostat. If the boiler water temperature reaches the aquastat's high limit setting and high limit contact RB is de-energized, the burner stops but the circulator pump will continue to run, as long as, the thermostat calls for heat.

6.Whenever the boiler water temperature reaches the aquastat's high limit setting, the high limit contact RB is de-energized shutting the burner off. Then the boiler water temperature must fall 10°F below the aquastat's high limit setting for the

high limit contacts RB to close and the burner to be energized.

7When the thermostat is satisfied, the call for domestic space heating is ended. Relay coil IK is de-energized, opening I K I and [K2 contacts• Both the burner and circulator pump operation stop.

NOTE: High limit setting must be a minimum of 20aF higher than the low limit setting.

2

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Contents Off-Fired Hot Water Boiler Kennmore Cast Iron Boilers Introduction TIEmlRatings CapacitiesRules for Safe Installation and Opeiltion Locating the Boiler Installation Requirelments Fresh AIR for Combustion InoteDuct Size System Piping Twothrottlingvalves toSystem Piping Arrangement Zoning with Zone Valves Supply to SystemSystem Piping Arrangement Zoning with Circulators System Piping Arrangement Alternate Near Boiler Piping Burner Firing Number Chimney and Chimney Connections Recommended Minimum Chimney SizesTypical Chimney Connection Electrical Connections ThermostatSE/ARS Automatic Fill Valve not provided Filling the Boiler HOW a HOT Water System OperatesBeckett OIL BURNER, NOZZLE, and AIR Settings Final Burner Adjustments GAP 32 4 mm 64 to 7/64 or 2 to 2.5 m 32 or 4 mm Checking and Adjusting Controls Maintenance OIL Boiler / Burner Cleaning Instructions OIL Burner Cleaning To do Wiring ElectricalSoP.LY Service Company Serviceman Address Telephone Sequence OperationSequence of Operation Boiler Less Tankless Coil Repair PartsPa # Balloon 5YMBOL KEY Repair Parts DescriptionBeckett OIL Burner NOZZLE, and AIR Settings Oi/-Fired Hot Water Boiler

5EWL.20, 3E W.65, 4EW.90, 5EW2.00, 4EW1.50 specifications

The Kenmore lineup, featuring models 5EW1.75, 3EW.75, 4EW1.50, 5EW2.00, and 4EW.90, showcases a range of advanced technologies and features designed to enhance performance and efficiency in home appliances. These models highlight Kenmore’s commitment to innovation, aiming to meet the diverse needs of consumers for reliable and functional appliances.

The 5EW1.75 stands out with its efficient energy usage, designed for those who prioritize eco-friendliness without sacrificing performance. This model employs smart technology that optimizes energy consumption, making it not only cost-effective but also environmentally responsible. Additionally, it incorporates intuitive controls, allowing users to adjust settings easily and monitor energy levels in real-time.

Transitioning to the 3EW.75, this model focuses on durability and reliability. Constructed with high-quality materials, it promises a longer lifespan and reduced maintenance costs. The inclusion of quality components ensures consistent performance even under heavy use, appealing to families or individuals who value dependability.

The 4EW1.50, known for its versatility, features multiple settings suitable for various tasks. From quick washes to intense cycles, users can select the ideal program for their specific needs. This adaptability makes it a favorite among busy households. Coupled with a user-friendly interface, the 4EW1.50 encourages ease of use, which is a significant draw for consumers.

The 5EW2.00 takes efficiency to the next level, integrating cutting-edge washing technologies. With a focus on water conservation, this model uses advanced sensors to optimize water usage based on load size and fabric type. Additionally, its noise reduction capabilities ensure that operations remain quiet, a key factor for those in smaller living spaces.

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Together, these Kenmore models represent a balance of innovation, efficiency, and user-focused design. Whether addressing energy use, versatility, durability, or aesthetics, each model brings unique characteristics that cater to the evolving demands of consumers, solidifying Kenmore’s reputation as a leader in household appliance technology.