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Rotary heat recovery unit

Rotary heat exchanger for heat recovery

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Tested to VDI 6022

Conforms to VDI 6022

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Filter chamber cover

Filter chamber cover

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Water connection

Water connection

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Levelling foot

Levelling foot

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SCHOOLAIR-B-HV 

Supply and extract air unit with rotary heat exchanger and heat recovery unit, secondary air option, for installation on an external wall

Ready-to-operate decentralised ventilation unit that provides good comfort levels and is used for the ventilation of internal spaces such as classrooms or conference rooms

  • Acoustically optimised EC fans with low specific fan power, SFP = 0 to EN 16798-3
  • Rotary heat recovery unit (75% heat recovery efficiency)
  • Highly efficient heat exchanger for heating and cooling as 2-pipe or 4-pipe system
  • Choice of right side or left side heat exchanger connections
  • Condensate drip tray with condensate drain on the left or right side
  • Heat recovery all year round
  • Reduced fine dust and pollen contamination due to integral filters that conform to VDI 6022 – filter class ISO ePM1 65% and extract air ISO coarse 60%
  • Easy filter change, no tools required
  • Motorised shut-off dampers, normally closed (NC)
  • Installation without interruption of school operations

 Optional equipment and accessories

  • Modular control system FSL-CONTROL III, specially for decentralised ventilation systems
  • Wood panelling as outer casing in various colours, with TROX ventilation grilles for supply air and extract air (assembly kit)

 


 


 


 

Technical information

Function, Technical data, Quick sizing, Specification text, Order code

  • FUNCTION
  • TECHNICAL DATA
  • QUICK SIZING
  • SPECIFICATION TEXT
  • ORDER CODE

Decentralised supply and extract air units ventilate the room and cover the cooling and heating load in accordance with the technical data.
An EC centrifugal fan takes in the outdoor air which then flows through the motorised shut-off damper and the outdoor air filter.
The outdoor air then flows through the rotary heat recovery unit, which can be switched off in energy efficient operating situations.
Before the supply air flows into the room like displacement air, it is heated or cooled in the heat exchanger if required (optional for 4-pipe units).
The extract air first passes through the extract air filter, then flows through the heat recovery unit, the extract air fan and the motorised shut-off damper before it is discharged to the outside as exhaust air.
If the indoor air quality is sufficient, the FSL-CONTROL III control system switches to energy-efficient secondary air mode by closing the outdoor air dampers.
The control system compares the indoor air quality setpoint value to the actual values measured at the CO2 sensor and switches automatically between outdoor air and secondary air operation..
In case of a power failure, the outdoor air and exhaust air dampers are closed to ensure fire protection, frost protection and to avoid draughts. This is ensured by a capacitor in each actuator.
Near the external wall, the supply air is discharged into the room with a medium velocity between 0.5 and 0.8 m/s. Due to the induction effect, the supply air velocity is rapidly reduced so that, in cooling mode, the supply air displaces the room air over the entire floor area.

Near heat sources such as people or equipment, a lift current is formed by natural convection, so that the air is exchanged primarily in these areas.

Width2100 mm
Height740 mm
Depth403 mm
Volume flow rate200, 300, 400 m³/h (boost 600 m³/h)
Nominal volume flow rate400 m³/h
Sound power level31 – 49 dB(A)
Degree of heat recovery efficiency75%
maximum operating pressure, water side6 bar
Max. operating temperature75 °C
Supply voltage230 V AC ±10 %, 50/60 Hz
Power rating617 VA
Weight150 kg

X-CUBE/SCHOOLAIR-B-HV: Heat recovery construction Type 5 (2-pipe version, active heating)

Supply air flow rate

m³/h

200

300

400

600

Total heating capacity

W

1560

2350

2940

3620

Room heating capacity

W

949

1435

1718

1808

Air temperature inside the unit

°C

12.0

12.0

12.0

12.0

Supply air temperature

°C

32.6

32.7

31.4

28.0

Hot water flow rate

l/h

40

65

90

100

Water temperature, inlet

°C

50

50

50

50

Water temperature, outlet

°C

31.9

36.4

37.2

34.2

Water side pressure drop

kPa

1.8

6.3

10.4

10.4

Sound power level LWA

dB(A)

31

37

42

49

Sound pressure level with 8 dB system attenuation

dB(A)

23

29

34

41

Active power Pel

W

40

65

105

205

Air-side data Heating mode:

  • Temperature/relative humidity outdoor air: -12 °C/90 %
  • Temperature/relative humidity room air: 20 °C/35 %

X-CUBE/SCHOOLAIR-B-HV: Heat recovery construction Type 3 (2-pipe version – isothermal supply air)

Supply air flow rate

m³/h

200

300

400

600

Total heating capacity

W

770

1120

1550

2120

Room heating capacity

W

158

215

331

294

Air temperature inside the unit

°C

12.0

12.0

12.0

12.0

Supply air temperature

°C

22.1

21.9

22.2

21.3

Hot water flow rate

l/h

30

50

90

150

Water temperature, inlet

°C

50

50

50

50

Water temperature, outlet

°C

27.8

30.4

35.0

37.7

Water side pressure drop

kPa

1.2

2.9

8.1

20.0

Sound power level LWA

dB(A)

31

37

42

49

Sound pressure level with 8 dB system attenuation

dB(A)

23

29

34

41

Active power Pel

dB(A)

40

65

105

205

Air-side data Heating mode:

  • Temperature/relative humidity outdoor air: -12 °C/90 %
  • Temperature/relative humidity room air: 20 °C/35 %

X-CUBE/SCHOOLAIR-B-HV: Heat recovery construction Type 4 (4-pipe version)

Supply air flow rate

m³/h

200

300

400

600

Total cooling capacity

W

620

930

1210

1550

Room cooling capacity

W

512

768

986

1229

Air temperature inside the unit

°C

27.5

27.5

27.5

27.5

Relative humidity

%

51.8

51.8

51.8

51.8

Water content of the dry air

kg

11.9

11.9

11.9

11.9

Supply air temperature

°C

18

18

18.3

19.6

Condensate

g/h

0

0

0

0

Chilled water flow rate

l/h

88

145

200

200

Water temperature, inlet

°C

16

16

16

16

Water temperature, outlet

°C

22.1

21.5

21.2

22.7

Water side pressure drop

kPa

6.9

16.5

29.2

29.2

Total heating capacity

W

1980

2930

3850

5800

Room heating capacity

W

1364

2012

2623

3957

Air temperature inside the unit

°C

12.0

12.0

12.0

12.0

Supply air temperature

°C

38.1

37.8

37.4

37.5

Hot water flow rate

l/h

50

75

100

160

Water temperature, inlet

°C

50

50

50

50

Water temperature, outlet

°C

15.6

16.0

16.5

18.5

Water side pressure drop

kPa

3.5

7.2

11.9

27.3

Sound power level LWA

dB(A)

31

37

42

49

Sound pressure level with 8 dB system attenuation

dB(A)

23

29

34

41

Active power Pel

W

40

65

105

205

Air-side data Cooling mode:

  • Temperature/relative humidity outdoor air: 32 °C/40 %
  • Temperature/relative humidity room air: 26 °C/50 %


Air-side data Heating mode:

  • Temperature/relative humidity outdoor air: -12 °C/90 %
  • Temperature/relative humidity room air: 20 °C/35 %

 

SCHOOLAIR-B-HV-2/KM/2100x740x403/C3

Under sill units for horizontal mounting on the façade

Please note:

The under sill ventilation unit variant described has an integrated single room control system for autonomous classroom operation. The supplied controllers contain the parameters for standard operation according to our control description.

School ventilation unit – under sill installation – MASTER UNITUnder sill ventilation unit TROX X-CUBE/SCHOOLAIR-BHV with supply and extract air function, rotary heat recovery unit and switchover option to secondary air operation (air quality dependent) as well as heating function for installation on an external wall below the window sill:

  • Unit casing made of galvanised sheet steel, cover and sheet metal connections with deep-drawn threads and stainless steel cross-head screws, all internal air ducts sealed and lined as required, internal cable penetrations sealed, exposed surface powder-coated (RAL 9005, jet black)
  • Sound and heat-insulating lining on suction and discharge side made of mineral wool faced with glass fibre scrim (material classification A, non-combustible according to DIN 4102, T1), erosion resistant up to air velocities of 20 m/s, or closed cell insulation material
  • The unit meets the hygiene requirements of VDI 6022
  • Height adjustable levelling feet, + +40 mm, to compensate for structural tolerances
  • Slotted hole brackets on both sides for fastening to the wall or sill
  • Connection to the on-site outdoor air and exhaust air openings of the façade by means of circumferential closedpore sealing tape on the rear of the unit, d = 10 mm. The suction and discharge resistance of the on-site construction should not exceed 20 Pa at nominal volume flow rate
  • Use of two free-running wheels with backward curved blades, energy-saving EC technology. Supply and extract air fan classified in category SFP 0 (< 300 W/(m³/s)) according to DIN EN 16798-3:2017-11. Electrical power consumption of the entire unit at nominal volume flow 400 m³/h <76 watts. A connected load of 617 VA must be taken into account for dimensioning the connection cable
  • Suitable for 3 speed levels (200, 300 and 400 m³/h as well as boost level of 600 m³/h), signalling by means of integrated single room control system. The volume flow rate can be corrected at a later stage by adjusting the control voltage
  • The technical requirements of EU directive 1253/2014 for non-residential ventilation systems are fulfilled and documented in accordance with the directive
  • Integrated rotary heat exchanger for heat recovery with high efficiency (heat recovery efficiency >75%), continuously controlled by device-internal single room control system
  • Motorised shut-off dampers in the outdoor/exhaust air area, normally closed when there is no power by means of energy storage, actuator 230 V, open/closed, signalling via deviceinternal single room control system
  • Automatic switching to secondary air mode (only with an air quality sensor) if the room air quality (measured with the integrated CO2sensor) is within the defined limits. For this purpose, the shut-off dampers are closed, the self-powered secondary air damper opens and the extract air fan is switched off
  • Integral electrical components are completely wired with FSLCONTROL III, control components are integrated in the unit. Cable for connection (connection not in the TROX supply package) of the power supply (L, N, PE) with wire end ferrules led approx. 1 m out of the unit, as a transfer point to the on-site electrical installation:
    • Supply voltage (230 V): 3 wires, 3 x 1.5 mm² (L, N, PE)
  • Connection option for bus communication (optional), connection of room control panel etc. after opening the customer area of the control unit. As a transfer point to the on-site measurement/control/regulation system:
    • Rail mount terminals type Wago 260 for the on-site connection of
      • Digital inputs DI
      • Digital outputs DO
      • Master-slave connection RS485
      • Optional integration in MCE/BACS via RS485 (Modbus/BACnet)
      • Room control panel
      • RJ45 socket as service access to the user interface
      • Optional integration into an on-site MCE/BACS via Ethernet (Modbus/BACnet)
  • The following sensors are included in the unit as part of the single room control system (the actual room temperature is captured at the room control panel):
    • Room air quality sensor CO2
    • Supply air temperature measurement downstream of the heat exchanger
    • Outdoor air temperature measurement in the outdoor air intake
    • 2-pipe aluminium copper pipe heat exchanger for air heating, matched to project-specific data, easily removable for cleaning (the connection to the on-site main pipe is crucial, not included in the TROX supply package), drainage and venting option per heating circuit, arrangement on the room side on the right. We recommend flexible hoses (not part of the supply package) to connect the unit to the existing pipe network (by others) as they simplify removal of the heat exchanger for cleaning
  • The transfer point of the heat exchanger are the union nuts on which the control components (valve including actuator in the return line, lockshield in the flow line) are manually preassembled
  • Easy to clean condensate drip tray with condensate drain (Ø 12 x 1 [mm] made of galvanised sheet steel powder-coated, RAL 9005)
  • Outdoor air filter as Mini Pleat filter, class ePM1 (fine dust filter):
    • Filter class according to ISO 16890: ISO ePM1 65%
    • Eurovent-certified
    • ePM1 filter media are made of high-quality, wet-strength glass fibre paper and laid in tight pleats. The spacers are made of thermoplastic hot melt adhesive to ensure uniform spacing (4mm) between the pleats.
    • The frame is made of moisture resistant non-woven fibre with pull-out brackets and must not reduce the flow crosssection (filter size = flow cross-section)
    • Filter area >= 3.3 m²
    • Extract air filter class G3 (coarse dust filter) as flat filter medium, filter class according to ISO 16890: ISO coarse 50%
    • Filters can be changed quickly, as the filter insert can be opened without tools after opening the on-site casing using user-friendly quarter-turn fasteners (accessibility must not be restricted by the on-site under sill trim)
  • Possibility of supporting a window sill provided by the customer, extract air intake is below the window sill, on the top of the unit
  • The on-site sill cladding (scope of supply by TROX possible on request) is provided with perforations in specified areas of the radiator for the air supply into the room and must not restrict maintenance work or unit assembly/disassembly on the front of the unit. On the top of the casing, there is also a perforation in areas to be specified for extract air suction
  • Clear distance of approx. 30 mm between the front edge of the unit and the inner edge of the under sill trim
  • The front of the unit must be completely accessible after removal of the outer casing

Units - dimensions and weights:Width: approx. 2100 mm (without fixing brackets)Height: approx. 740 mm (without levelling feet, additional distance for extract air suction)Depth: approx. 403 mm (without façade sealing)Weight: approx. 150 kg

FSL-CONTROL III controller

Including control system FSL-CONTROL III, as described below: FSL-CONTROL III is described as a stand-alone single room control system with a simple timer. Optional expansions, such as integration into an on-site MCE/BACS via Modbus TCP, Modbus RTU, BACnet MS/TP or BACnet IP, humidity sensors, return temperature sensors, electromotive valve actuators or pressureindependent control valves, are included in the delivery programme, but must be exchanged for the standard components in the following description. A room temperature signal is also required. Various room control panels and sensors are available to provide this signal. Suitable optional equipment can be found after the following standard equipment for standalone operation. - please refer to: Optional control accessories. We recommend commissioning by TROX. You will find related text modules below.

TROX control module FSL-CONTROL III (order code ...-C3-MA...):

  • Single room controller to be mounted on a DIN mounting railin the unit or in a separate control equipment box
  • 42 digital or analogue inputs and outputs
  • A MicroSD card (at least 2 GB storage space) is integrated as a flash memory medium. The trend data are stored there and can be retrieved via the RJ45 socket
  • Factory-equipped with a software package for master units specially developed for decentralised ventilation units. The software enables simple master-slave communication via Modbus RTU
  • Up to 10 slave devices can be connected to one master device
  • The software provides 3 types of operation (Off, Automatic and Manual), 3 operating modes (Occupied, Unoccupied and Standby) and 4 operating mode overrides (Boost, Class, Night Ventilation and Fan Forced Circuit)
  • Basic distinction between room temperature control by controlling heating and cooling valves or continuous bypass damper or supply air temperature control for isothermal ventilation operation
  • CO2 guided air quality control
  • Heat recovery all year round
  • Filter monitoring
  • Configurable DI for on-site connection of presence detectors, window contacts, holiday switching, etc.
  • Alarm messages: Type A (shutdowns) and Type B (notifications)


Real time clock (RTC)

Real Time Clock (RTC/real time clock) (order code ...-T/...):

  • Component of the Master Software Package
  • Enables a simple timer
    • 7 days with 10 switching points each
    • Automatic summer / winter time changeover
    • Temporal activation of night purge

CO2 sensor

CO2 sensor (order code…/C/…):

  • Sensor arranged in the extract air intake of the master unit for recording the indoor air quality and corresponding control of the outdoor air flow rate
  • Measurement via an NDIR sensor, which works on an infrared basis and compensates for any contamination by its 2-beam measurement principle
  • Measuring range 0 – 2000 ppm


Supply air temperature sensor

Supply air temperature sensor (order code .../Z/...):

  • Supply air temperature sensor with NTC thermistor, 10 kΩ at 25 °C, measuring range -35 to 105 °C
  • Very short response time due to perforated measuring tip


Outdoor air temperature sensor

Outdoor air temperature sensor (order code .../A/...):

  • Outdoor air temperature sensor with NTC thermistor, 10 kΩ at 25 °C, measuring range -35 to 105 °C

Water side components

Water-side components (Order code…/HV-R-…):

Valve actuator:

1 × thermoelectric actuator for opening and closing valves, with position indicator, including plug-in connecting cable, operating voltage 24 V DC, control voltage 0 - 10 V DC, power consumption 1 W, protection class: IP 54 Straight-way valve:

1 × small straight-way valve ½" standard, hand-tight preassembled, PN 16, DN 10, kvs 0.4 (alternatively 0.25, 0.63 or 1.0 m³/h - please let us know the required kvs value), straight-way 9 / 17 PD-06/2024 - DE/en valve body with external thread on both sides ½" flat sealing, media temperature 1 to 110 °C

Lockshield:

1 × lockshield on both sides ½", hand-tight pre-assembled, nominal width DN 15; straight-through valve body with external thread on both sides ½" flat sealing, for regulating and shut-off, maximum media temperature 120 °C

Optional control accessories

Optional equipment to increase the comfort of the FSLCONTROL III: TROX room control panels for FSL-CONTROL III At least one room temperature signal is required per room. There are several variants of TROX room control panels available, optionally with or without selector switch. Additionally, we offer a room temperature sensor RTF without control elements. Alternative on-site room control panels must be connected via bus communication.

Digital room control panels for surface mounting:

For operation and adjustment of the ventilation units.

Supplied loosely as an accessory. Connection to the master unit via Modbus serial line. Project-specific software including setpoint value adjuster, various status displays, selector switch, CO2 indicator. Touch-sensitive colour display 3.5" 320 × 240 pixels. Sensor: NTC 10 kΩ. Degree of protection: IP 20. Type: Schneider TM172DCLWT. Dimensions (H × B × T): 120 × 86 × 25 mm, weight: 340 g, colour: white. Installation: Surface mounting or on a standard flush-mounted box. Power supply: 24 V DC (including suitable switching power supply unit for flush-mounted installation). Power consumption: 3.2 VA/1.3 W. Other design frames are available upon request and for a surcharge.

Control panels with selector switch for surface mounting:

Control panel with selector switch, type Thermokon, for surface mounting:

Supplied loosely as an accessory, with room temperature sensor, setpoint adjuster, override button, LED and 3-step selector switch as well as off and automatic, casing made of PVC0 pure white (RAL 9010), mounting on 60 mm flushmounted box or directly on the wall, NTC thermistor as sensor element, resistance 20 kΩ at 25 °C, dimensions (B × H × T): 84.5 × 84.5 × 25 mm, operating temperature: -35 to 70 °C

Control panels without selector switch for surface mounting:

Control panel without selector switch, type Thermokon, for

surface mounting:

Supplied loosely as additional part, with mode display, push button and setpoint adjustment, sensor NTC 20 kΩ, protection level: IP 20, dimensions (B x H x T) 84.5 × 84.5 × 25 mm

Room temperature sensor for surface mounting:

Room temperature sensor TROX RTF, surface mounting Supplied loosely as an accessory, room temperature sensor without any control elements, measuring range -35 to 70 °C, sensor NTC 10 kΩ, connection terminal screw terminal, d = 1.5 mm, protection level IP 20, surface mounting or on a 70 mm flush-mounted box, dimensions (B × H × T): 85 x 85 x 30 mm, casing ABS, in RAL 9010

Control panels without selector switch for flush mounting: For manual operation of the ventilation units with a high-quality look and the matching design from a wide range of switch programmes, the unit is suitable for particularly design-oriented facilities.

Control panel without selector switch, type Thermokon, for flush mounting, switch programme Berker S.1, polar white

  • Supplied loosely as an accessory, with mode display, push button and setpoint adjuster, NTC sensor 20 kΩ, protection level: IP 20


Control panel without selector switch, type Thermokon, for flush mounting, switch programme Berker Q.3, white

  • Supplied loosely as an accessory, with mode display, push button and setpoint adjuster, NTC sensor 20 kΩ, protection level: IP 20


Control panel without selector switch, for flush mounting, type Thermokon, switch programme Busch-Jäger future linear, white

  • Supplied loosely as an accessory, with mode display, push button and setpoint adjuster, NTC sensor 20 kΩ, protection level: IP 20

Other switch programmes on request.

Control panels without selector switch and without setpoint value adjuster, for flush mounting:

Control panel without selector switch and without setpoint value adjuster, type Thermokon, for flush mounting, switch programme Gira E2

  • Supplied loosely as an accessory, with mode display and push button, NTC sensor 20 kΩ, protection level: IP 20

Other switch programmes on request

Electromotive valve actuator:

As an alternative to the thermoelectric actuator, installed as standard

  • 1 x electromotive actuator for opening and closing valves, supply voltage AC/DC 24 V, maximum power consumption 2.5 VA, control input signal 3-point DC 0 to 10 V, operating fluid temperature 1 to 110 °C


Pressure-independent control valve

As an alternative to the small straight-way valve, installed as standard

1 × pressure-independent control valve, hand tight preassembled with modulating ON/OFF control in combination with an externally adjustable, dynamic volume flow controller, with full valve authority, nominal width DN 10, straightthrough valve body with male thread on both sides ½" flat sealing, media temperature 0 to 120 °C

Interface for integration into an on-site MCE/BACS: Modbus TCP interface including web server (order code .../MT/...) To increase convenience, we recommend integration into an onsite MCE/BACS or visualisation with X-TAIRMINAL. FSLCONTROL III can be integrated into an on-site MCE/BACS via the Modbus TCP protocol. Additionally including web server for simplified configuration, commissioning and remote monitoring of  the unit. The MCE/BACS is not included in the supply package from TROX GmbH, only the interfaces listed above are available here.

  • Modbus TCP interface (Ethernet)


BACnet IP interface including web server (order code .../BI/...) To increase convenience, we recommend integration into an onsite MCE/BACS. FSL-CONTROL III offers the option of being integrated into an on-site MCE/BACS via the BACnet IP protocol. Additionally including web server for simplified configuration, commissioning and remote monitoring of the unit. The MCE/BACS is not included in the supply package from TROX GmbH, only the interfaces listed above are available here.

  • BACnet IP interface (Ethernet)


Modbus RTU (order code .../MR/...)

To increase convenience, we recommend integration into an onsite MCE/BACS. FSL-CONTROL III offers the option of being integrated into an on-site MCE/BACS via Modbus RTU. The MCE/BACS is not included in the supply package from TROX GmbH, only the interfaces listed above are available here. Modbus RTU interface (RS485)

BACnet MS/TP (order code .../BM/...)

To increase convenience, we recommend integration into an onsite MCE/BACS. FSL-CONTROL III offers the option of being integrated into an on-site MCE/BACS via BACnet MS/TP. The MCE/BACS is not included in the supply package from TROX GmbH, only the interfaces listed above are available here. BACnet MS/TP interface (RS485)


Version as SLAVE DEVICE

Identical to the MASTER DEVICE, as described above, but with the following deviations:

  • No room air quality measurement in the unit
  • No connection option for room control panels
  • No outdoor temperature detection in the outdoor air
  • No connection to on-site bus communication possible
  • Pre-assembled self-sufficient control system for decentralised façade ventilation units in SLAVE construction


Commissioning of the decentralised ventilation units

Commissioning/parameterisation of the decentralised ventilation units without integration into an on-site MCE/BACS

  • Visual inspection of the device connections on site for compliance with the respective installation specifications from the installation and configuration instructions: air connections, heating/cooling connection, electrical connections, integration into the installed outer casing, connections of external components
  • Checking and, if necessary, adapting the project parameters pre-set in the factory with regard to customer-specific adaptations
  • Functional test of the individual components (control elements, fans, valves, dampers, sensors)
  • Checking the project-specific control functions including any special functions such as volt-free switch contacts
  • Documentation of the device settings and service work in a service report. The service report must be signed by your company or representative as the client.
  • Invoicing is done as a flat rate, derived from the number of units and distance.


Commissioning/parameterisation of the decentralised ventilation units with integration into an on-site MCE/BACS

  • Visual inspection of the device connections on site for compliance with the respective installation specifications from the installation and configuration instructions: air connections, heating/cooling connection, electrical connections, integration into the installed outer casing, connections of external components, connections of MCE/ BACS
  • Checking and, if necessary, adapting the project parameters pre-set in the factory with regard to customer-specific adaptations
  • Functional test of the individual components (control elements, fans, valves, dampers, sensors)
  • Checking the project-specific control functions including any special functions such as volt-free switch contacts
  • Function test of the communication to the MCE/BACS in cooperation with the controls provider:
    • Checking that the on-site settings comply with the specifications in the installation and configuration instructions
    • Input test of the data points sent on site
    • Output test of the output data points
    • Trial operation of the operating states that can be switched by the MCE/BACS
  • Documentation of the device settings and service work in a service report. The service report must be signed by your company or representative as the client.
  • Invoicing is done as a flat rate, derived from the number of units and distance.


Instruction in operation and maintenance

  • One-time instruction for the operation of the decentralised ventilation units consisting of:
    • Description of the equipment functions on the unit that has already been put into operation
    • Description of the room control panel and the room conditions that can be influenced by it
    • Description of the maintenance work
  • Invoicing is done on a flat-rate basis. The instruction is carried out by the responsible sales representative
SA-BHV41 / KR / 2100 × 740 × 403 / C3MAT / MR / C / Z / A / HVR0,40 / KVR0,40
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12345678910111213141516171819
1 Type
SA-B
horizontal decentralised sill ventilation unit X-CUBE/SCHOOLAIR-B

2 Variant

HV high volume flow rate and rotary heat recovery unit

3 Heat exchanger
2
2-pipe
4 4-pipe

4 Heat exchanger construction
Specify construction (technical design with TROX EPF or TROX CONFIGURATOR)

5 Construction
KR with condensate drain and water connection right

KL with condensate drain and water connection left

6 Nominal size [mm]
Width × height × depth
2100 × 740 × 403

7 Control system
OR
without control system
C3 with FSL-CONTROL III

8 Control function
MA
Master
SL Slave

9 Real time clock
Only with control function MA
No entry: without real time clock
T with real time clock

10 Interface
No entry: without interface
MT with Modbus TCP
MR with Modbus RTU (only with control function MA)
BI BACnet IP
BM with BACnet MS/TP (only with control function MA)

11 Air quality sensor
Only with control function MA
No entry: without air quality sensor
C with CO2sensor
V VOC sensor

12 Supply air temperature sensor
Z
with supply air temperature sensor

13 Outdoor air temperature sensor
Only with control function MA
No entry: without outdoor air temperature sensor
A with outdoor air temperature sensor

14 Heating valve
HV
with thermoelectric actuator
HVE with electromotive actuator

15 Lockshield – heating circuit
R
with lockshield

16 kVS value – heating valve
0.25
(straight-way valve)
0.40 (straight-way valve)
0.63 (straight-way valve)
1.00 (straight-way valve)
F0.50 (pressure-independent control valve)

17 Cooling valve
Only with heat exchanger 4
KV with thermoelectric actuator
KVE with electromotive actuator

18 Lockshield – cooling circuit
Only with heat exchanger 4
R with lockshield

19 kVS value – cooling valve
Only with heat exchanger 4
0.25 (straight-way valve)
0.40 (straight-way valve)
0.63 (straight-way valve)
1.00 (straight-way valve)
F0.50 (pressure-independent control valve)


Order example: SA-B-HV-4-1-KR/2100×740×403/C3-MA-T/MR/C/Z/A/HV-R-0.40/KV-R-0.40

TypeSA-Bhorizontal decentralised sill ventilation unit X-CUBE/SCHOOLAIR-B
VariantHVhigh volume flow rate and rotary heat recovery unit
Heat exchanger44-pipe
Heat exchanger construction1Heat exchanger type 1
ConstructionKRwith condensate drain and water connection right
Nominal size [mm]2100×740×403Width 2100, height 750, depth 403
ControlC3with FSL-CONTROL III
Control functionMAMaster
Real time clockTwith real time clock
InterfaceMRwith Modbus RTU
Air quality sensorCwith CO2sensor
Supply air temperature sensorZwith supply air temperature sensor
Outdoor air temperature sensorAwith outdoor air temperature sensor
Heating valveHVwith thermoelectric actuator
Lockshield – heating circuitRwith lockshield
kVS value – heating valve0.400.40 (straight-way valve)
Cooling valveKVwith thermoelectric actuator
Lockshield – cooling circuitRwith lockshield
kVS value – cooling valve0.400.40 (straight-way valve)


Order example: SA-B-HV-4-1-KR/2100×740×403/C3-SL/MT/Z/HV-R-0.40/KV-R-0.25

TypeSA-Bhorizontal decentralised sill ventilation unit X-CUBE/SCHOOLAIR-B
VariantHVhigh volume flow rate and rotary heat recovery unit
Heat exchanger44-pipe
Heat exchanger construction1Heat exchanger type 1
ConstructionKRwith condensate drain and water connection right
Nominal size [mm]2100×740×403Width 2100, height 750, depth 403
ControlC3with FSL-CONTROL III
Control functionSLSlave
Real time clock--
InterfaceMTwith Modbus TCP
Air quality sensor--
Supply air temperature sensorZwith supply air temperature sensor
Outdoor air temperature sensor--
Heating valveHVwith thermoelectric actuator
Lockshield – heating circuitRwith lockshield
kVS value – heating valve0.400.40 (straight-way valve)
Cooling valveKVwith thermoelectric actuator
Lockshield – cooling circuitRwith lockshield
kVS value – cooling valve0.250.25 (straight-way valve)

Variants, Product details

  • VARIANTS
  • PRODUCT DETAILS

Special characteristics

Construction KL

  • Arrangement of the water connections room-side left
  • With condensate drain on room side left
  • 2-pipe aluminium-copper pipe heat exchanger for air heating, matched to the project-specific data, easily removable for cleaning, drainage and venting option per heating/cooling circuit
  • We recommend using flexible hoses to connect the unit to the pipework as they facilitate removing the heat exchanger for cleaning.

Special characteristics

Construction KR

  • Arrangement of the water connections on the right side of the room
  • With condensate drain on room side right
  • 2-pipe aluminium-copper pipe heat exchanger for air heating, matched to the project-specific data, easily removable for cleaning, drainage and venting option per heating/cooling circuit
  • We recommend using flexible hoses to connect the unit to the pipework as they facilitate removing the heat exchanger for cleaning.

Installation and commissioning

  • Installation on the floor in front of the external wall
  • Level adjustment using the 4 levelling feet (+40 mm)
  • 4 side fixing brackets (supplied separately) for screwing in to the wall, alternatively 2 fixing points can be used on the top of the device
  • The outdoor air intake or exhaust air discharge takes place via 2 façade openings. The façade openings must be professionally provided by the customer and ideally have a slope to the outside
  • Free area of ventilation openings: 0.05 m² for each outdoor air and exhaust air opening, and 0.16 m² for each supply air and extract air opening
  • Weather protection for the outdoor air and exhaust air openings to be provided by others
  • Installation and connections to be performed by others. Fixing, connecting and sealing material not included
  • The water flow and return connections are on the right-hand side of the unit (variant/KR) or the left-hand side (variant/KL) when seen from the room
  • The customer must ensure that the unit can be drained and vented.
  • The electrical connection is on the left-hand side of the unit when seen from the room
  • We recommend using flexible hoses to connect the unit to the pipework so that the heat exchanger can be easily removed for cleaning
  • The under sill trim provided by others must not obstruct maintenance access at the front of the unit or installation and removal of the unit

Downloads

product information

certificates

operation manuals

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Thank you for your message!

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Our department for Service-Requests will contact you asap.
For general question regarding products or services you can also call:
Tel.: +32(0)2 522 07 80 | E-mail: info@trox.be