Bard I30H1D, I60H1, I42H1D Condensate Drain, With no Vent Option, With Commercial Room Ventilator

Page 18

CONDENSATE DRAIN

There are two condensate drain connections from the condenser drain pan (compressor area). These are visible from the rear of the unit. Factory installed tubing connects the two drains at a tee connection and then a single drain hose with a barbed hose connector carries the condensate to the draining option of your choice. Enough tubing is provided to reach all drain options and can be cut down in length.

The unit is shipped from the factory with the drain line on the left-hand side as you look at the rear of the unit. The tubing can be removed from the drain connections and flipped for a right-hand drain. See Figure 10.

The drain can be routed directly through the floor or through the wall. There are also two optional drain locations in the lower rear back panel. See Figure 8.

The I-TEC design does not require a trap in the condensate disposal tubing. Check your local codes to see if a “P” trap is required.

For a stand pipe floor drain or through the wall, there is adequate hose length to reach anything located behind the unit. The lower rear portion of the cabinet is recessed approximately 4 inches allowing room for a “P” trap to be installed with the cabinet flush with the wall. Keep in mind, the drain line must be able to be removed from the unit if necessary to remove the unit from the wall.

Access plates are located on the rear of the unit for servicing the drain trap. See Figure 10. If the drain line is to be routed through an unconditioned space, it must be protected from freezing.

The condensate drain line can also be routed back into the unit through either the right-hand or left-hand optional drain locations on the rear of the unit. The hole is covered by insulation on the inside of the unit and will have to be cut away. Located inside the unit, about 12 inches in from the front on both the left and right side are drain holes in the bottom of the base. These holes are covered with insulation and are not visible. They are located very close to the side panels and can be found by pressing down on the insulation. Cut insulation away to expose the hole. A drain trap can now be installed inside of the cabinet, and the drain hose routed directly through the floor.

Once the I-TEC is installed, the rear drains exiting the condenser section can be easily serviced with removal of the pre-painted metal sides (lift-off doors, remove four [4] screws to remove side).

If side access is not available, the drain lines and trap can be serviced by removing either one of the drain access panels on the rear of the unit (in the ventialtion package area.) See Figure 10.

WITH NO VENT OPTION

To access the drain access panels in the rear of this section, simply remove the front door/cover from the box, and the plates are located in the rear of the box.

WITH COMMERCIAL ROOM VENTILATOR

1.Open hinged front doors.

2.Disconnect unit power to eliminate shock hazard.

3.Remove front cover/door of CRV vent package. (Can leave filter access panels in place.)

4.Unplug wires coming in on left side from upper unit section.

5.Unplug two wire harness from front (intake) blower.

6.Remove two (2) screws securing front (intake) blower and slide blower out of unit.

7.Remove four (4) screws that retian the partition behind/beneath intake blower removed in Step #6.

8.Rear drain access panels are now visible on both right-hand and left-hand sides in rear of box.

WITH ENERGY RECOVERY VENTILATOR

To access the rear drain access panels of this section:

1.Open hinged front doors.

2.Disconnect unit power to eliminate shock hazard.

3.Remove front cover/door of ERV vent package. (Can leave filter access panels in place.)

4.Unplug wires coming in on left side from upper unit section.

5.Unplug heat recovery cassette on the side you wish to access, and slide cassette out the front of the unit.

6.Remove two (2) screws securing partition on outboard side of cassette and remove.

7.Rear drain access panels are now visible on both right-hand and left-hand sides in rear of box.

FIGURE 10 — DRAIN LOCATIONS

(2) Unit Drains

Drain Access

Locations

8"

3 83 "

3 83 "

(2)

Optional

Unit Drain

Entrances

(2)OPTIONAL

WALL

DRAIN HOLES

 

7 3/16"

16 1/2"

 

 

18 3/4"

OPTIONAL FLOOR

 

MOUNTING HOLES

 

35"

MIS-2960 B

40 43 "

Manual

2100-549G

Page

18 of 59

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Contents TEC Series Packaged Heat Pump Contents Getting Other Information and Publications For More INFORMATION, Contact These PublishersGeneral Ansi Z535.5 DefinitionsFactory BUILT-IN Electric Heat Table Indoor Blower PerformanceElectrical Specifications Unit Specification Sheet Unit DimensionsShipping Damage Unit Removal from SkidHandling Unit After Removal from Skid Minimum Installation Height Seismic ConsiderationsWall Mounting Bracket Location Bracket Wall Section View Center of Gravity Center of GravityRequired Clearances & Recommended Access Compressor Shipping Bolts Removal of AIR DuctDucted Application Basic Unit 3 Riser Application 6 Riser Application Supply Duct Connections Duct WorkFilters Filter LocationWith no Vent Option With Energy Recovery VentilatorCondensate Drain With Commercial Room VentilatorUnit Mounting 16 3/4 NON-TAPPING 16 1/2 NON-TAPPINGTEC Unit Wiring Main Power Mounting the UnitComponent Location Operating Voltage Range Wiring LOW Voltage WiringLOW Voltage Connections Wall ThermostatsBasic Heat Pump with no Ventilation Package SC SC SCY2 B/W1 W2 W3 CRV Wiring Harness Heat Pump with CRV, Without CO2 ControlHeat Pump with CRV and CO2 Control To functionERV Wiring Harness Heat Pump with ERV, Without CO2 ControlHeat Pump with ERV and CO2 Control ON/OFF Cycling ERV Wiring Harness Bard #8403-067 Heat Pump with ERV and CO2 Control Fully ModulatingHeat Pump with Combination CRV and DB Economizer N Vent Code Safety Practices Topping OFF System ChargeThree Phase Scroll Compressor Start UP Information Important Installer NotePhase Monitor Service HintsPressure Service Ports Sequence of OperationSound Defrost Cycle Defrost CycleTeccommercial Room Ventilator System General Description Control WiringSetting the Ventilation CFM Levels Recommended Control SequencesCRV Motor SPEED/CFM Configuration Vent Option INTAKE/EXHAUST SpeedsCRV Speed Change Terminal Access Control Wiring TECECON. Sequence of Operation Economizer Control CircuitHeating Mode Operation Ventilation ModeMotor SPEED/CFM Configuration Tecenergy Recovery Ventilator System General Description Changing Ventilation CFM Rates in Manual Mode Changing to Fully Modulating ModePerformance and Application Data Winter Heating Performance Indoor Design Conditions 70F DBERV Manual Mode Jumper PIN on M Terminal ERV Modulating Mode Jumper PIN on P TerminalVentilation Airflow Diagram Indoor Air Supply Air Outdoor AirERV Access Specifications Control Board CONFIGURATION/SETTINGMounting WiringAccessing Menu Parameters Selection of Voltage OutputsMenu Descriptions Maintenance Procedures Quarterly Maintenance Energy Recovery Ventilator Maintenance General InformationCleanability and Performance FrequencyAnnual Maintenance Solid State Heat Pump Control Troubleshooting Procedure TroubleshootingCodes Function Checking Temperature Sensor Temperature F VS Resistance R of Temperature SensorTroubleshooting ECM 142R Outdoor FAN Motor Heat Pump Mode Troubleshooting ECM 142R Outdoor FAN MotorCooling Mode Replacing the MotorTroubleshooting Indoor ECM Blower Motors Troubleshooting Indoor ECM Blower Motors Cont’d Power Connector Motor Half FAN Blade Setting DimensionsControl Connector Motor Half Refrigerant ChargeFull Load Cooling PRESSURE/TEMPERATURE Full Load Heating PRESSURE/TEMPERATUREPart Load Cooling PRESSURE/TEMPERATURE Part Load Heating PRESSURE/TEMPERATURE
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