Geniox GO User manualv7.2
Table Of Contents
- A Manufacturer
- B Name of machines
- C Declaration of Conformity
- D General descriptions, dangers and warnings
- E The control panel for the control system.
- F Drawings, diagrams, guides and instructions for the use, maintenance and repair
- G Employees in charge of operation/control/maintenance
- H Unintended use and misuse – inappropriate applications for the machine
- I Instructions for unloading and handling on site
- J Installation
- J.1 Installation - mechanical
- J.1.1 Free area in front of and above the unit
- J.1.2 Supporting surface
- J.1.3 Adjustable feet under legs or base frame and transport of sections
- J.1.4 Base frame assembly
- J.1.5 Base frames for outdoor units
- J.1.6 Outdoor units — support under the base frame of the unit
- J.1.7 Installation on the site of unit sections at the base frame when sections are delivered on pallets
- J.1.8 Joining the unit sections
- J.1.9 Fitting the ductwork
- J.1.10 Risk of stack effect by vertical ducts and wind pressure on louvers
- J.1.11 Door alignment
- J.1.12 Lock the doors by using the key
- J.2 Installation - electrical
- J.3 Installation – Pipes for water – hot and chilled, valves and drains
- J.1 Installation - mechanical
- K Installation and assembly instructions for reduction of noise and vibration emissions
- L Start-up, adjustments, use and commissioning
- M Information about the residual risks
- N Instructions on the protective measures during repair and maintenance
- O The essential characteristics of tools which may be fitted to the machinery
- P The conditions of stability during use, transportation, assembly, dismantling when out of service
- Q Instructions for machinery where these are regularly to be transported
- R The operating method to be followed in the event of breakdown. Safe restart.
- S Adjustment and maintenance operations
- T Instructions to enable adjustment and maintenance safely
- U Information on airborne noise emissions exceeding 70 dB(A)
- Annex 1 Technical data – unique data for every unit (in separate cover)
- Annex 2 Assembly of base frame – height 118 mm for unit sizes 10 – 18
- Annex 3 Assembly of base frame – height 118 mm for unit sizes 20 – 27
- Annex 4 Assembly of base frame – height 218 mm for unit sizes 10 – 18
- Annex 5 Assembly of base frame – height 218 mm for unit sizes 20 – 27
- Annex 6 Installation of steel roof in the sizes 10 – 31
- Annex 7 Speed control for rotor and assembly of divided rotor
- Annex 8 Reversible heat pump unit (in separate cover, if heat pump was delivered)
- Annex 9 Menu for internal controller in the heat pump unit (in separate cover, if heat pump was delivered)
- Annex 10 Connection of fan motor and set-up manual for frequency converter
- Annex 11 Commissioning protocol (in separate cover)
- Annex 12 Report with data from final functional test on the Systemair factory
- Annex 13 Short description of main components in the control system
- Annex 14 Wiring diagram (in separate cover)
- Annex 15 Operator’s guide (How to use the Systemair control panel) (in separate cover)
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outdoor air replaces the polluted extract air inside the rotor before the main flow of outdoor air passes through the
rotor as supply air to the rooms.
The rotation direction is tested at the factory for every air handling units that is delivered with installed drive controller
and drive motor.
In case of replacement at the building site, the installer can change drive direction of the motor by installing motor
cables in other terminals at the drive controller, because all drive motors from Systemair are 3–phase motors.
Brake of rotation
If DIP switch 4 is set to — ON, the brake function is activated. When the motor is stopped and the brake function is
activated, the motor is blocked by shortening the windings.
Note:
This brake function is only to be activated a few minutes for cleaning or maintenance.
7.1.1.2.1Description of purge function for the rotary heat exchanger
When the rotor has been stopped for 30 minutes the drive motor will be started to run at 10 RPM for 12 seconds. After
this time the rotor will be stopped again. The sequence is repeated after 30 minutes of inactivity.
If the rotor is stopped for a long period of time and still with air flow, the half of the rotor in the extract air flow will be
more polluted and hereby more heavy than the half of the rotor in the outdoor air flow with the consequence that the
drive motor via the drive belt will not be able to drive the rotor.
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