Python library for communication with BMR HC64 Heating Controller units
Project description
PyBmr
Python library for communication with BMR HC64 Heating Controller units.
Product website: https://bmr.cz/produkty/regulace-topeni/rnet
Install:
python3 -m pip install pybmr
Usage examples
Create connection
from pybmr import pybmr
bmr = pybmr.Bmr("http://192.168.1.5/", "username, "password")
Circuits
Get number of circuits:
numCircuits = bmr.getNumCircuits()
Load circuit status:
circuit = bmr.getCircuit(0)
print(f"Circuit {circuit['name']}: temperature is {circuit['temperature']} °C, target temperature is {circuit['target_temperature'} °C")
Load circuit schedules (what schedule is assigned to what day). It is possible to assign a different schedule for up to 21 days.
circuit_schedules = bmr.getCircuitSchedules(0)
print(f"Circuit 0 schedule for the first day is {circuit_schedules['day_schedules'][0]}")
Save circuit schedules:
bmr.setCircuitSchedules(0, [0, 8])
Schedules
Load schedules:
schedules = bmr.getSchedules()
print(schedule[0]) # Print the name of first schedule
Get schedule details:
schedule = bmr.getSchedule(0)
print(f"Schedule {schedule['name']} has timetable {schedule['timetable']}")
Save schedule:
bmr.setSchedule(0, "New schedule name", [("00:00", 21), ("06:00", 23), ("21:00", 21)])
Delete schedule:
bmr.deleteSchedule(0)
Summer mode
Get summer mode:
if bmr.getSummerMode():
print("Summer mode is ON")
else:
print("Summer mode is OFF")
Set summer mode:
bmr.setSummerMode(True):
Load summer mode assignments (which circuits will be affected by turning the summer mode on):
assignments = bmr.getSummerModeAssignments()
for circuit_id, value in enumerate(assignments):
if value:
print(f"Circuit {circuit_id} is assigned to summer mode.")
else:
print(f"Circuit {circuit_id} is NOT assigned to summer mode.")
Add circuits to summer mode:
bmr.setSummerModeAssignments([0, 1, 2], True)
Remove circuits from summer mode:
bmr.setSummerModeAssignments([0, 1, 2], False)
Low mode
Get low mode:
low_mode = bmr.getLowMode()
if low_mode['enabled']:
print(f"Low mode is turned ON since {low_mode['start_date']}, target temperature is {low_mode['temperature']}")
if low_mode['end_date']:
print(f"It will be turned off automatically on {low_mode['end_date']}")
Turn the low mode ON, set temperature to 18°C:
bmr.setLowMode(True, 18)
Turn the low mode ON and let it turn OFF automatically after 3 days:
bmr.setLowMode(True, 18, datetime.now(), datetime.now() + timedelta(days=3))
Turn the low mode OFF:
bmr.setLowMode(False)
Load low mode assignments (which circuits will be affected by turning the low mode on):
assignments = bmr.getLowModeAssignments()
for circuit_id, value in enumerate(assignments):
if value:
print(f"Circuit {circuit_id} is assigned to low mode.")
else:
print(f"Circuit {circuit_id} is NOT assigned to low mode.")
Add circuits to low mode:
bmr.setLowModeAssignments([0, 1, 2, 6, 7, 8], True)
Remove circuits from low mode:
bmr.setLowModeAssignments([0, 1, 2, 6, 7, 8], False)
HDO
Load HDO status:
hdo = bmr.getHDO()
if hdo:
print("HDO is currently ON")
else:
print("HDO is currently OFF")
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