High temperature cutoff (model 180-479), High temperature cutoff (model 240-479) – Bryant 479 D User Manual

mally open contacts. This causes current to flow

through the contactor (2M) winding and energizes the

contactor. The energized contactor starts the blower

motor (3E).

Closing the circuit between terminals Y1 and R com­

pletes the control circuit for Chiller No. 1 and turns

this chiller on for single stage cooling. Chiller No. 2 is

inactive and will not operate until the temperature in

the conditioned space rises and calls for additional

cooling.

If the cooling load of the conditioned space is too

large for Chiller No. 1 to provide sufficient cooling,

the thermostat’s second stage cooling bulb will close

the circuit between Y2 and R.

Closing the circuit between Y2 and R, places the con­

trol relay (2A2) across the secondary of Chiller No. 1

transformer (lAl). The energized control relay (2A2)

completes the control circuit of Chiller No. 2 and

turns this chiller on (two stage operation).

When the thermostat is satisfied, the thermostat’s

second bulb will break the circuit between terminals

R and Y2. This action de-energizes the control relay

(2A2) which opens the control circuit of Chiller No. 2

and turns off Chiller No. 2. Chiller No. 2 will remain

idle until additional cooling is required.

HIGH TEMPERATURE CUTOFF

(Model 180-479)

Refer to Figure 7. Each chiller of Model 180-479 is

equipped with a high temperature limit switch (7H1

on Chiller No. 1 and 7H3 on Chiller No. 2) located on

the front of the generator, plus a circuit breaker (2Jl

on Chiller No. 1 and 2J2 on Chiller No. 2). The circuit

breaker for each chiller is located in the chiller con­

trol box.

If the generator of either chiller becomes overheated,

its associated limit switch (7H1 or 7H3) will open,

providing a current path through heater element of

the circuit breaker (2Jl or 2J2) of the respective

chiller. The current flow through the heater element

of the circuit breaker will cause its normally closed

contacts to open and break the 24-volt circuit to the

magnetic gas valve (5B1 or 5B2). The de-energized

gas valve will turn off the gas supply to the burners of

the overheated generator. The remaining normally

operating chiller will continue to operate.

The circuit breaker must be reset manually by

pushing the red reset button that protrudes through

the rear of the chiller control box.

A secondary high temperature limit switch (7H2 on

Chiller No. 1 and 7H4 on Chiller No. 2) is connected

in series with the gas valve (5B1 on Chiller No. 1 and

5B2 on Chiller No. 2) to insure closing of the gas valve

in the event of a high temperature failure and the

limit switch (7H1 on Chiller No. 1 and 7H3 on Chiller

No. 2) does not open.

The secondary limit switch is located on the generator

header and must be reset manually.

HIGH TEMPERATURE CUTOFF

(Model 240-479)

Refer to Figure 8. Each chiller of the 240-479 is

equipped with two high temperature limit switches

(7H1 & 7H2 on Chiller No. 1, and 7H5 & 7H6 on

Chiller No. 2). A high temperature limit switch is

located on the front of each generator of each chiller.

If either generator of Chiller No. 1 becomes

overheated, the associated high temperature limit

switch (7H1 or 7H2) will open, causing the circuit

breaker (2J1) to go into lockout position. The open

contacts of the circuit breaker de-energizes the gas

valve and shuts off the gas supply to the burners of

both Chiller No. 1 generators.

The circuit breaker (2Jl).for Chiller No. 1 is located

in the Chiller No. 1 control box and must be reset

manually.

Two secondary high temperature limit switches (7H3

and 7H4-one on each generator header of Chiller No.

1) are connected in series with the Chiller No. 1 gas

valve (5B1). If a generator overheats and its

associated high temperature limit switch (7Hl or

7H2) does not open, the secondary high temperature

limit switch (7H3 or 7H4) on the header of this

generator will open and break the circuit to the gas

valve, de-energizing the gas valve and shutting off

the gas supply to the burners .of both Chiller No. 1

generators.

The high temperature cutoff circuit of Chiller No. 2

functions the same as the high temperature cutoff cir­

cuit of Chiller No. 1. The high temperature cutoff cir­

cuit of Chiller No. 2 is comprised of high temperature

limit switches 7H5 and 7H6, circuit breaker 2J2,

secondary high temperature limit switches 7H7 and

7H8.

If a high temperature failure should occur and disable

Chiller No. 1, Chiller No. 2 will continue to operate

and provide single stage cooling; likewise. Chiller No.

1 will provide single stage cooling if a high tem­

perature failure should disable Chiller No. 2.

AMBISTAT PART LOAD CONTROL

(Models 180-479 and 240-479)

Refer to Figures 7 and 8. Each chiller is equipped

with an ambistat part load control (7L1 on Chiller

No. 1 and 7L2 on Chiller No. 2). The circuit consists

of a temperature sensitive switch (located in the

chiller control box) and a capillary tube. One end of

the capillary tube is connected to the switch and the

other end is inserted in the chilled water supply line.

The switch contacts open when the chilled water tem­

perature drops below 40°F. and breaks the circuit to

the gas valve, shutting off the gas supply to the

burners.

The chiller power relay remains energized and the

condenser fan motors, solution pump and water pump

will continue to run.