Geniox user manual
Table Of Contents
- A Manufacturer
- B Name of machines
- C General descriptions, dangers and warnings
- C.1 Overview via pictograms on the inspection side of the unit
- C.2 Data about the unit according to cards and labels in and on the unit
- C.2.1 Example of Machine card with unique data on every unit
- C.2.2 Label with data about the cabinet — example.
- C.2.3 Flowchart – example of the label placed on or with the cabinet
- C.2.4 Symbols in the flowchart and explanation about the symbols
- C.2.5 Example of label placed on or with the cabinet – Terminal plan for external components
- C.2.6 Control board for Systemair Access control system
- C.3 Hand terminal, if the unit is delivered with control system.
- C.4 Dimensions of the units
- C.5 Ordinary automatically operation – only manual operation by new parameters
- D Drawings, diagrams, guides and instructions for the use, maintenance and repair
- E Employees in charge of operation/control/maintenance
- F Intended use and range of applications
- G Unintended use and misuse – inappropriate applications for the machine
- H Instructions for unloading on the site as well as installation and connection
- H.1 Unloading on the site
- H.1.1 Handling methods
- H.1.2 Unloading by fork-lift truck
- H.1.3 Unloading by crane
- H.1.4 Transport of unit without base frame on the site
- H.1.5 Lifting a unit with straps
- H.1.6 Lifting a unit with installed brackets on the base frame for lifting.
- H.1.7 Lifting a unit without base frame and legs but with installed brackets for lifting.
- H.1.8 Handling a unit with holes in base frame for forks
- H.1.9 Roof unit with PVC or bitumen roof
- H.1.10 Roof unit with steel roof
- H.1.11 Pre-assembly storage
- H.1.12 Tilt less than 30˚ during transportation of the section with heat pump
- H.1.13 Transport and pre-installation storage of rotary heat exchanger — always in vertical position
- H.2 Installation - mechanical
- H.2.1 Free area in front of and above the unit
- H.2.2 Supporting surface
- H.2.3 Adjustable feet under legs or base frame and transport of sections
- H.2.4 Base frame assembly
- H.2.5 Base frames for outdoor units
- H.2.6 Outdoor units — support under the base frame of the unit
- H.2.7 Installation on the site of unit sections at the base frame when sections are delivered on pallets
- H.2.8 Joining the AHU sections
- H.2.9 Fitting the ductwork
- H.2.10 Risk of stack effect by vertical ducts and wind pressure on louvers
- H.2.11 Remove transport brackets – when spring mounts are installed
- H.2.12 Refitting of guards
- H.2.13 Lock the doors by using the key
- H.2.14 Overhang support
- H.3 Installation - electrical
- H.4 Installation – Pipes for water – hot and chilled, valves and drains
- H.1 Unloading on the site
- I Installation and assembly instructions for reduction of noise and vibration emissions
- J Start-up, adjustments, use, commissioning and unit in hipernation
- J.1 Print-outs on paper
- J.2 Documentation is available for download
- J.3 Start-up by installer
- J.4 Adjustments and use
- J.5 Description of functions, if control system is delivered by Systemair
- J.5.1 Remote control
- J.5.2 Extended operation and external start/stop (for example by presence detectors)
- J.5.3 Valve and valve motor for heating coil
- J.5.4 Valve and valve motor for cooling coil
- J.5.5 DX cooling
- J.5.6 Circulation pump, heating
- J.5.7 Fire alarm function
- J.5.8 Electric heating coil
- J.5.9 Speed control of fans
- J.5.10 Cabinet
- J.5.11 Temperature sensors
- J.5.12 Damper motors
- J.5.13 Filter guards
- J.5.14 Room temperature sensors
- J.5.15 Frost protection
- J.5.16 Systemair Control Panel - NaviPad
- J.5.17 Cooling recovery
- J.5.18 Free cooling
- J.5.19 Alarm signal
- J.5.20 Heat recovery
- J.5.21 Frost protection – plate heat exchanger
- J.6 Commissioning
- J.7 Unit in hipernation — not in regular operation for several months
- K Information about the residual risks
- K.1 Design of the machine to make transport safe
- K.2 Risk caused by surfaces, edges and corners
- K.3 Risk of dust, viral and bacterial infection
- K.4 Risk caused by maintenance and cleaning of dampers
- K.5 Risk caused by maintenance and cleaning of attenuators
- K.6 Risks in connection to filters
- K.7 Risks in connection to fans
- K.8 Risks in relation to heating/cooling coils and electrical heater
- K.9 Heat pump units
- K.10 Risk caused by lightning strike
- K.11 Risk of Legionella
- L Instructions on the protective measures during repair and maintenance
- M The essential characteristics of tools which may be fitted to the machinery
- N The conditions of stability during use, transportation, assembly, dismantling when out of service
- O Instructions for machinery where these are regularly to be transported
- P The operating method to be followed in the event of breakdown. Safe restart.
- Q Adjustment and maintenance operations
- Q.1 Shutdown of the unit to a safe state
- Q.2 Unlock and lock the doors by using the key
- Q.3 Recommended maintenance intervals
- Q.4 Filters – always replace filters with new filters with the same characteristics to maintain SFP value
- Q.5 Changing the Internal Battery in the controller
- Q.6 Functions to maintain
- R Instructions to enable adjustment and maintenance safely
- S The specifications of the spare parts to be used, when these affect the health and safety of operators
- T Information on airborne noise emissions exceeding 70 dB(A)
- Annex 1 Declaration of conformity with production number (in separate cover)
- Annex 2 Technical data – unique data for every unit (in separate cover)
- Annex 3 Spare part list (in separate cover)
- Annex 4 Assembly of base frame – height 118 mm for unit sizes 10 – 18
- Annex 5 Assembly of base frame – height 118 mm for unit sizes 20 – 31
- Annex 6 Assembly of base frame – height 218 mm for unit sizes 10 – 18
- Annex 7 Assembly of base frame – height 218 mm for unit sizes 20 – 31
- Annex 8 Installation of base frame covers for roof unit sizes 35-44
- Annex 9 Installation of steel roof in the sizes 10 – 44
- 9.1 Overview
- 9.2 Mount rails. Units of size 10, 11, 12, and 14
- 9.3 Mount rails. Units of size 16, 18, 20, 22, 24, 27, 29 and 31
- 9.4 Mount rails. Units of size 35, 38, 41 and 44
- 9.5 Roof overhang along the long sides of the unit
- 9.6 Calculation of the overhang at the ends of the unit. Mount overhang profile – G1.
- 9.7 Foam bands between rails and roof plates – mount roof plates
- 9.8 Foam bands between roof plates
- 9.9 Mount roof plates – some of them are overlapping by 2 ribs
- 9.10 Mount overhang profile – G5 on the other end of the unit
- 9.11 Mount side profiles and corners along the edges of the roof to protect persons
- 9.12 Apply sealing on plate joints to ensure water resistance
- Annex 10 Speed control for rotor and assembly of divided rotor
- 10.1 Speed control RHC 200 delivered before March 2021
- 10.1.1 Selection of correct signal via the 8DIP switch levers for RHC 200 delivered before March 2021
- 10.1.2 Indication of operation mode via red and green LED as well as test of motor for RHC 200 delivered before March 2021
- 10.1.3 Information about connection of cables to terminals on the control board in RHC 200 delivered before 2021
- 10.2 Speed control type NOVA drive 370 delivered after February 2021
- 10.2.1 Selection of correct signal via the 5 DIP switch levers in NOVA drive 370
- 10.2.2 The board in NOVA drive 370 for control of revolutions.
- 10.2.3 Information about connection of cables to terminals on the control board.
- 10.2.4 Modbus control for NOVA drive 370
- 10.2.5 Modbus control — Normal operation
- 10.3 Assemble divided rotor and the Systemair casing
- 10.4 Assemble divided rotor from Hoval
- 10.4.1 Tools and aids
- 10.4.2 Lifting instruction for upper half of the Hoval CDS 290 mm rotor casing
- 10.4.3 Installation of upper half of the Hoval CDS 290 mm rotor casing
- 10.4.4 Installation of radial walls between segments
- 10.4.5 Adjusting clearance between radial walls and the casing
- 10.4.6 Installation of rotor segment and periphery plates
- 10.4.7 Installation, first periphery plate
- 10.4.8 Installation of next segment
- 10.4.9 Installation, next periphery plate
- 10.4.10 Final adjustment of segments and periphery plates
- 10.4.11 Installation of brush sealing and upper half of the Systemair casing
- 10.5 Assemble divided rotor from Lautner
- 10.6 Assemble divided rotor from Klingenburg
- 10.7 Installation of motor that turns rotor and sensor for control of rotation
- 10.1 Speed control RHC 200 delivered before March 2021
- Annex 11 Reversible heat pump unit (in separate cover, if heat pump was delivered)
- Annex 12 Menu for internal controller in the heat pump unit (in separate cover, if heat pump was delivered)
- Annex 13 Connection of fan motor and set-up manual for frequency converter
- Annex 14 Commissioning protocol – proposal (in separate cover)
- Annex 15 Report with data from final functional test on the Systemair factory (in separate cover, if control system was delivered)
- Annex 16 Short description of main components in the control system
- Annex 17 Wiring diagram (in separate cover, if control system was delivered)
- Annex 18 Geniox Air Handling Units — Sustainability
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| Geniox Air Handling Units — Sustainability
Environmental
Quality
Life-Cycle Assessment — LCA It will be possible, by request, to perform Lifecycle
assessment specifically for each Geniox air handling
unit via Systemair Denmark internally operated
software through calculating CO2 Equivalents from
Ecobau with weights of material extracted accurately
from the configuration software
Environmental impact associated
with construction products
At Systemair, accountability also means close and long-
term cooperation with subcontractors. Based on a very
large production volume of Geniox air handling units at
Systemair factories in Denmark, Lithuania, the
Netherlands and Spain, the ability to exercise restrictive
control of subcontractors' responsibility is utilized.
Sustainable resource extraction of
materials
Geniox units do not include any components supplied
by subcontractors in countries where child labor occurs.
So far, it has not been possible to obtain confirmations
from subcontractors as to whether they are buying
components from countries where child labor occurs.
Economic Quality Building-related life cycle costs The casing made of ZM310 coated steel plates is
protected as well as possible against galvanic corrosion
by installation of plastic plates between filter frame of
ZM310 and stainless-steel base (if stainless steel base
is selected) and between the copper-aluminum cooling
coils and stainless steel trays for condensate. See photo
a in the annex.
To avoid galvanic corrosion, ZM310 coated steel profiles
are assembled with plastic fittings and not with
aluminum fittings. See photo b in the annex.
To optimize acquisition costs and operating costs during
the life cycle, LCC (Life Cycle Costs) can be calculated
via the SystemairCAD configuration software, which
calculates the energy cost in each of the year’s 8,760
hours compared with the climate data for an average
year.
The service life time of the casing is expected to be at
least 20 years.
Viability It is easy to replace wear parts in the air handling units
hroughout their service life by unscrewing all doors and
panels because the sealing between the panels and the
profiles of the casing is exclusively and without
exception created via polyurethane sealing strips. This
applies to the lists do not stick to the profiles. See
photos d and e. This provides easy access to updating
control system and wear parts. For example, replacing
the control system with a new control system that
transmits more detailed data more cost-efficient can be
economically advantageous.
Wear parts appear from the spare parts lists. Further
information can be found in the technical dossier for
each air handling unit, and the information is available
on the website https://techdoc.systemair.dk where
access is granted by using a password, which can be
ordered by the installer who has purchased the air
handling unit from Systemair, or by a service partner
whom Systemair has been authorized by the building
owner to grant a password for access.
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