Trane UniTrane Fan-Coil & Force Flo Air Conditioners, UNT-SVX07A-EN manual Condensate Drain

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mechanical

Installation requirements

Water Piping Connections to Factory- Installed Piping Package

Before installing water piping supply and return lines to factory piping package, note the following items.

All piping connections are 5/8-inch O.D. (1/2-inch nominal) female copper connections.

The fan-coil supply and return piping should not interfere with the auxiliary drain pan or condensate line. See “Connecting the Condensate Drain” section for more information.

The installer must provide adequate piping system filtration and water treatment.

If the unit has a factory deluxe piping package, the piping includes a strainer with a 20-mesh size screen, which allows minimal protection from debris. Therefore, clean the strainer regularly.

Note: Maintain a minimum distance of one foot between the reduction fitting for the 1/2-inch diameter line and the fan-coil piping connections.

1.The factory piping package ships with brackets to adequately support the piping during shipment. Remove these brackets before connecting water piping to the unit.

2.Close the piping end valves to the fully open position to prevent damage to the valve seat during brazing.

3.Remove the auxiliary drain pan, if it is in place, to prevent exposure to dripping solder or excessive temperatures.

4.Solder water piping connections to supply and return end connections. Avoid overheating factory soldered joints to prevent the possibility of leakage.

5.Insulate fan-coil piping to auxiliary drain pan connections and any piping that is not above the auxiliary drain pan.

Condensate Drain

1.De-burr the pipe end before making the connection to the drain pan.

2.Connect a 7/8-inch O.D. copper pipe or tube, with a 0.20 inch wall thickness, to the auxiliary drain pan. This should be a mechanical connection that allows easy removal of the auxiliary drain pan when servicing the piping end pocket.

3.Slide the copper pipe over the drain pan nipple and tighten the collar on the pipe with a hose clamp (installer supplied).

Maintain a continuous drain line pitch of one inch per ten feet of drain line run to provide adequate condensate drainage. Extend the drain line straight from the drain pan a minimum distance of six inches before making any turns. The installer must provide proper support for the drain line to prevent undue stress on the auxiliary drain pan.

Install a secondary overflow drain line if necessary by punching out the overflow drain nipple on the auxiliary drain pan.

Next, place a 3/8-inch inside diameter flexible plastic tube over the nipple and secure with a field supplied hose clamp.

Note: The installer is responsible for adequately insulating field piping. See the “External Insulating Requirements section for more information.

Condensate Overflow Detection Device The condensate overflow detection device is an option on fan-coil units with either a Tracer ZN010, ZN510, ZN520 or the customer-supplied control interface. The float switch, mounting bracket, and coiled leads ship attached inside the piping end pocket of the unit. Install the switch by placing the hole or slot in the bracket over the condensate overflow drain (of the auxiliary drain pan) with the switch float extending over the pan. Secure the drain pan by attaching the pan’s bracket with the factory provided clip. See Figures I-MR-1 and I- MR-2.

Figure I-MR-1. Condensate float switch installed in horizontal auxilliary drain pan.

Automatic Changeover Sensor Two-pipe changeover units with either the Tracer ZN010, ZN510, and ZN520 controls have an automatic changeover sensor that determines heating or cooling mode based on the supply water temperature. On units with a factory piping package, the factory straps the changeover sensor to the piping supply water pipe. See Figure I-MR-3 and I-MR- 4.

If the unit does not have a factory piping package, the factory attaches the sensor and coiled lead wires to the piping side end panel. The installer should attach the sensor parallel to and in direct contact with the supply water pipe.

Note: The installer is responsible to ensure the changeover sensor is installed in a location that can sense active water temperature. Otherwise, the unit may fail to sense the correct operating mode and disable temperature control.

When using field supplied three-way valves, install the changeover sensor upstream of the valve on the supply water pipe. When using field supplied two-way control valves, install the changeover sensor in a location that will detect active water temperature. The unit must always be able to sense the correct system water temperature, regardless of the control valve position.

Note: The maximum length of the automatic changeover wire cannot exceed ten feet from the control panel. If the sensor extends beyond the unit chassis, use shielded conductors to eliminate radio frequency interference (RFI).

Figure I-MR-2. Condensate float switch installed in vertical auxilliary drain pan.

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Contents Models FC & FF ZO and later design sequence Installation, Operation, and MaintenanceCommon Hvac Acronyms General informationContents Model Number GeneralModel Number Description GeneralDigit 31 control option Digit 28 auxiliary control valve 0 = noneDigit 29 piping packages 0 = none Digit 30 control type 0 = noneTable I-GI-2. Low vertical fan-coil component data Table I-GI-1. Fan-coil component dataModel M inverted vertical cabinet Available ModelsModel E horizontal recessed Model K low vertical cabinetFactory-Installed Piping Packages Vertical Concealed, Model a DimensionsInstallation Weights Vertical Concealed Unit Dimensions & weights, in-lbsVertical Cabinet, Model B Vertical Cabinet Unit Dimensions, in-lbsHorizontal Concealed, Model C Horizontal Concealed Unit Dimensions, in-lbsHorizontal Cabinet, Model D Horizontal Cabinet Unit Dimensions, in-lbsHorizontal Recessed Unit Dimensions, in-lbs Installation Dimensions WeightsHorizontal Recessed, Model E Vertical Wall Hung Cabinet, Model F Vertical wall hung cabinet unit dimensions & weights, in-lbsVertical Recessed, Model H Vertical Recessed Unit Dimensions, in-lbsVertical Slope Top, Model J Vertical Slope Top Unit Dimensions, in-lbsLow Vertical Concealed, Model K Low Vertical Concealed Unit Dimensions, in-lbsLow Vertical Cabinet, Model L Low Vertical Cabinet Unit Dimensions, in-lbsInverted Vertical Cabinet, Model M Inverted vertical cabinet unit dimensions & weights, in-lbsInverted Vertical Recessed, Model N Inverted vertical recessed unit dimensions & weights, in-lbsFan-Coil Coil Connections Vertical Units Horizontal Units Horizontal Units Inverted Units Force Flo Coil Connections Vertical UnitsFresh Air Opening Dimensions, Horizontal Units Fresh Air Opening Dimensions, Vertical Units Wall Box Wall Box DimensionsProjection Panel Projection Panel DimensionsJobsite Storage Pre-installation Installation considerationsInstallation Preparation Receiving and HandlingPre-Installation Checklist Service AccessPiping Considerations Connecting field piping to coilMechanical Duct ConnectionsCondensate Drain Figure I-MR-4. Close-up view of the changeover sensor Venting the Hydronic CoilFigure I-MR-8. Manual circuit setter valve Balancing The Manual Circuit Setter ValveMechanical Steam Piping Code of System Components in Piping DiagramElectrical Unit Wiring DiagramsSupply Power Wiring Wall Mounted Control Interconnection WiringTable I-ER-3. Decimal to fractional HP kW conversion Table I-ER-2. Low vertical free discharge motors, 115 voltTable I-ER-9. Electric heat kW Table I-ER-8. Fan-coil electric heat kWTable I-ER-11. Force Flo single stage, low kW electric heat Table I-ER-10. Force Flo single-stage, max kW electric heatTable I-ER-12. Force Flo 2-stage electric heat Installing the Unit InstallationUnit Leveling Figure I-IP-5. Zone sensor only Figure I-IP-3. Zone sensor with on/cancel Comm jackZone Sensor Installation Installing Wall Mounted ControlsWiring Instructions Fan Mode Switch InstallationUnit Leveling Installation ChecklistDevice Addressing Communication WiringRecommended Communication Wiring Practices Pre-startupPre-Startup Checklist Tracer ZN510 & ZN520 Unit Startup Installation startupRelay Board Manual Fan Mode SwitchGeneral Operation information General InformationTracer ZN520 Operation Fan Mode Switch OperationSequence Tracer ZN010 & ZN510 OperationBinary Outputs Binary InputsSupply Fan Operation Fan Mode SwitchAnalog Inputs Zone SensorsTracer ZN520 Sequence of Operation Heating Operation Cooling OperationDischarge Air Tempering Continuous Fan Operation Fan Mode OperationEconomizer Damper Option Fan Start on High SpeedElectric Heat Operation Manual Fresh Air DamperBinary Outputs Table O-SO-12. Binary input configurationsTable O-SO-13. Binary output configuration Data SharingTable O-SO-15. Analog inputs Table O-SO-14. Analog inputsZone Sensor Fan SwitchOn/Cancel Buttons Table O-SO-16. Zone sensor wiring connectionsTable M-D-1. Tracer ZN520 Diagnostics Maintenance diagnosticsCycling the Fan Switch Translating Multiple DiagnosticsResetting Diagnostics Diagnostic ResetTable M-D-4. Valves Stay Closed Table M-D-3. Fan outputs do not energizeTable M-D-5. Valves Stay Open Table M-D-7. Fresh Air Damper Stays Open Table M-D-6. Electric Heat Not OperatingTable M-D-8. Fresh Air Damper Stays Closed Switch SW2 Electric Heat Maintenance troubleshootingTroubleshooting the Relay Board Switch SW1 Controller TypeYellow Comm LED Troubleshooting Tracer ZN010, ZN510 & ZN520Red Service LED Green Status LEDBOP5 BOP6 Table M-T-1. Test sequence for 1-heat/1-cool configurationsMaintenance Procedures MaintenanceMain Drain Pan Steam and Hydronic Coil Cleaning Procedure Coil MaintenanceWinterizing the Coil Replacing the Motor Control Device ReplacementAnnual Maintenance Periodic Maintenance ChecklistsMonthly Checklist Monthly MaintenanceCsti Fan Speed Switch Typical wiringCsti Non Fan Speed Switch Line voltage fan speed switch Tracer ZN010 with electric heat Tracer ZN510 with main and auxilliary valves ZN520 with 2-stage electric heat Page Page Page PL-TD-UNT-SVX07A-EN
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