Trion 60 manual Install Ionizing-Collecting Cells, Install Air By-Pass Baffles, Connect Drain

will be under negative pressure and should be made air tight to prevent infiltration of contaminated air.

After the ductwork has been installed, clear remaining material or debris from inside ducts and bottom of cabinet.

4. Install Ionizing-Collecting Cells

Before placing the ionizing-collecting cells into the framework, the electrical cell-to-bus connectors must be inserted through the holes located in the flanges of the end plates and secured into place. There are two connectors per cell, one short collector standoff and a long ionizer standoff. Connect the bus bars and cell wiring as shown on Figure 6, 6A, 6B and Figure 7.

NOTE: Follow the directional arrows located on the cell end plates. The side of each cell containing the spiked ionizer blades must be located on the air entering side of the cabinet.

5. Install Air By-Pass Baffles

The air baffles provided are to be secured to the air entering side of the unit to block off the air gap between the frame and the top and the sides of each cell. They are secured into place with the screws provided. The vertical baffles for the cell ends are all rubber backed. The horizontal baffles across the top of each cell are plain. There are different sizes of each. Refer to Figure 8 and 8A for the arrangement.

6. Connect Drain

Connect a drain line to the pipe coupling in the cabinet drain basin in accordance with the governing plumbing codes. The drain line must be sealed with a trap or other means to prevent air by pass. If a trap is used, it should hold sufficient water column to overcome the system air pressure and to assure that loss of liquid from evaporation between cleaning periods will not break the seal. The drain line should not be smaller than the drainpipe coupling, or it will otherwise restrict the flow of water.

7. Mount Controller

The Controller should be mounted at eye level and located as close to the air cleaner as practical. It must be mounted indoors out of the weather unless supplied with a weatherproof cabinet. Allow sufficient space in front of the access door(s) for service. Refer to appropriate Control/Remote PWM Box Outline Drawing for mounting hole layout and dimensions.

8.Complete Wiring A. High Voltage Wiring

WARNING:

EXERCISE ALL THE NORMAL PRECAUTIONS WHEN WORKING WITH HIGH VOLTAGE AND COMPLY WITH NEC AND ALL APPROPRIATE LOCAL CODES.

The high voltage wiring consists of interconnecting the ionizing-collecting cells into banks with bus bars, then wiring each bank of interconnected cells to its corresponding power supply with the high voltage cable.

NOTE: IT IS IMPORTANT TO WIRE EACH BANK OF CELLS TO ITS CORRESPONDING POWER SUPPLY AS EACH POWER SUPPLY IS MARKED WITH A SPECIFIC OPERATING RANGE AND SIZED FOR A GIVEN BANK OF CELLS.

Refer to Figure 6A or 6B, and select the appropriate unit model. Interconnect the cells with the bus bars as shown. When fully connected, the cells will be grouped into banks as indicated by the letters “A” and “B”.

Next, wire the interconnected cell banks to their corresponding power supplies with the high voltage cable provided. Depending on the size of the unit, there may be from 3 to 14 PWM Power Supplies.

NOTE: Each high voltage cable should be run in a separate conduit and must not be spliced at any point between the power supply and the cell termination.

Use the blue cable for the ionizer and the black cable for the collector plates. At the cell termination, the outer jacket of insulation should carefully be stripped back from the inner layer of insulation a distance of four (4) inches to prevent tracking.

Normally the high voltage cable entrance should be made from the top of the ductwork. If the installation demands entrance from some other point, the conduit should be sealed where it terminated at the duct to prevent moisture from entering the conduit during the washing operation. At the power pack termination, be sure the blue ionizer cable is connected to the terminal marked IONIZER and the black collector cable is connected to the terminal marked COLLECTOR.

B. Primary Wiring

(1.) Duct Door Electrical Interlocks

(Two are furnished as standard) - Outside each duct access door.

(2.) Duct Door Electrical Interlock and Pilot Lights

(Two are furnished as standard) – Outside each duct access door and adjacent to the electrical interlocks.

(3.) Duct Lights

(Two are furnished as standard) – On air entering side and on air leaving side of air cleaner on the inside of the ductwork.

(4.) Disconnect Switch and Pilot Lights

(Four are furnished as standard) – Two on Inside, Two on Outside of each access door at most