York D2EE 036, D1EE 048, D1EE 060 Compressors, Optional Economizer Rain Hood

Page 5

035-12046-003-A-0204

All direct-drive units with 460 and 575 voltage are shipped with the wire labeled #116 connected to the “HIGH” speed tap on the blower motor. If the medium speed is required, connect wire #116 to the “MED” speed tap and the blue motor lead to the “HIGH” speed tap. If the low speed is required, connect wire #116 to the “LOW” speed tap, the blue motor lead to the “HIGH” speed tap and the orange motor lead to the “MED” speed tap.

COMPRESSORS

On some units the compressor is mounted on springs which have been tightened down for shipment only.

After this unit is installed, back out the compressor bolts until the sleeve clears the top grommet.

CAUTION: Do Not loosen compressor mounting bolts.

OPTIONAL ECONOMIZER RAIN HOOD

The following procedure should be used when assembling an economizer rain hood onto a unit. Refer to Figure 3. The outdoor and return air dampers, damper actuator, the linkage and all the controls are factory mounted as part of the economizer option.

All of the hood components, including the filters, the gasketing and the hardware for assembling are located above the top filter racks within the filter section. The outdoor air sensor is in the bag of parts located at the bottom of the return air section.

1.With filter section access panel removed, take out hood components, filters and sensor described above. Remove and discard outdoor air opening cover on back unit (Upper right hand corner).

2.Remove the 1/2" knockout (A) in the units rear panel (lo- cated to the right side of the outdoor air opening). Insert the two loose wires from inside the unit, into the 1/2" bushing provided. Insert wires and bushing into knockout. Snap bushing into place.

3.Mount the outdoor air sensor to the rear panel, just below the knockout described in Step 2. Secure with two self-drilling screws at dimples (B) provided in the panel.

NOTE: Sensor must be positioned so that the sensing ports are at the top (louvers pointing downward) and terminal connections to the right.

4.Connect the two wires, indicated in Step 2, to the sensor as follows:

Wire #73 to terminal (+)

Wire #74 to terminal (S)

5.Assemble the LH and RH side plates to the top cover (2 screws each side) to form the hood. Apply gasketing to the flange surface on each side plate. Extend gasketing 1/4" beyond top and bottom of each flange to insure ade- quate corner sealing. Secure this assembly to the unit back panel (upper right hand corner). First, remove screw (C) on unit top cover. Then slip flange of hood cover in under flange of unit top cover, replace screw (C), engaging hole

(E)in hood flange and tighten. Attach the two side plates to the unit panel by using two self-drilling screws for each side plate at dimples (D) provided in the panel.

6.Position fillpiece at bottom of hood, between the two side plates but do not secure at this time. (Slotted openings MUST be downward for drainage). After fillpiece is properly positioned, note where contact is made with the unit panel. Remove fillpiece and apply gasket material to this area to provide a seal. Reposition fillpiece and secure with 2 screws.

7.Install the two filters into the hood assembly, sliding down along retainers on side plates, into fillpiece at bottom of hood.

NOTE: Install filters so that “Air Flow” arrows point toward the unit.

8.Install filter cover over the end of the hood with one screw (center of hood), securing filters into position.

CAUTION: When proceeding with steps 9 and 10, extreme care must be exercised while turning both the set point and minimum position adjusting screws to prevent twisting them off.

9.The enthalpy set point for the dampers may now be set by selecting the desired set-point from graph in Figure 6. For a single enthalpy economizer, carefully turn the set-point adjusting screw to the “A”, “B”, “C” or “D” setting corresponding to the lettered curve. For a dual enthalpy economizer, carefully turn the set-point adjusting screw fully clockwise past the “D” setting.

 

 

OUTDOOR AIR

 

 

 

 

HOOD

OPENING COVER

C

 

 

 

 

 

 

 

FILTER

COVER

D

 

 

OUTDOOR AIR

COVER

 

 

 

 

E

 

D

SENSOR

GASKETED

 

A

 

D

 

GASKET

FLANGE

 

 

 

 

B

 

D

 

 

 

 

L. H. SIDE

PLATE

 

GASKETED

FILTER SECTION

 

ACCESS PANEL

 

FLANGE

 

 

FILTERS

R. H.

SIDE DUCT

 

SIDE

 

APPLICATION SHOWN

 

PLATE

 

 

FILLPIECE

FIG. 3 - ECONOMIZER RAIN HOOD ASSEMBLY (OPTION)

Unitary Products Group

5

Image 5
Contents Inspection GeneralReference ApprovalsTable of Contents Installation Power and Control Wiring Service AccessCondensate Drain ThermostatOptional Economizer Rain Hood CompressorsCooling / Heating Electronic Thermostat Typical Field WiringHole Size Used for Utilities Entry DataKnockout Unit Motor Electric HeatersSize Speed MBH CFM MEDSize CFM MBH RPM Unit AIR Flow1560 1077 25001630 1660Static Resistances Operation Heat Anticipator Setpoints BELT-DRIVE Supply AIR Motor Pulley AdjustmentChecking Supply AIR CFM Turns Blower Drive Range RPM Open TONNormal Maintenance Maintenance035-12046-003-A-0204 Unitary Products Group

D2EE 036, D1EE 060, D1EE 048 specifications

The York D1EE 048, D2EE 036, and D1EE 060 are advanced air conditioning units designed for superior performance and energy efficiency in commercial and industrial environments. These models are part of York’s reputation for creating reliable HVAC systems that cater to a variety of applications.

The York D1EE 048 is a high-efficiency rooftop unit, renowned for its compact design and robust construction. This model boasts an integrated economizer that enhances energy savings by optimizing the use of outside air for cooling. It features a cutting-edge variable speed compressor, which provides precision cooling and reduces energy consumption under varying load conditions. The advanced microprocessor control system enables quick adjustments to system performance, further enhancing comfort and efficiency.

In contrast, the York D2EE 036 is another exemplary model, distinguished by its dual-stage heating and cooling capabilities. This unit is particularly advantageous for facilities requiring consistent temperature control throughout different seasons. With a SEER rating that meets or exceeds regulatory requirements, the D2EE 036 helps operators minimize downtime and achieve lower operational costs. Its innovative design includes a streamlined airflow system, enabling quiet operation without compromising cooling performance.

Finally, the York D1EE 060 rounds out this trio with its innovative features tailored for large-building applications. This unit is equipped with advanced inverter technology, which allows for seamless adjustments in cooling capacity based on real-time demand. The unit is designed with high-performance heat exchangers that optimize thermal transfer efficiency, ensuring rapid cooling response while maintaining low energy usage. Its smart connectivity features allow for remote monitoring and adjustments, offering facility managers enhanced control over the indoor climate.

In terms of characteristics, all three models prioritize energy efficiency, user-friendly controls, and environmentally responsible refrigerants. They comply with the latest energy standards, making them suitable for organizations aiming for sustainability. With their robust construction and user-centric features, York’s D1EE 048, D2EE 036, and D1EE 060 units represent a commitment to delivering efficient, reliable, and cutting-edge climate control solutions. Whether for small offices or large industrial spaces, these systems provide an optimal balance of performance and cost-effectiveness.