The RCV regulator is a variable air flow self-regulated system (VAV type). It is used to regulate the air flow in an area or room of a building according to a setpoint. The RCV regulator is also available in heat-insulated version. CODIFICATION CD Circular damper CONSTRUCTION Blades Galvanised steel On option: stainless steel 304L, 316L EPDM gasket PERFORMANCE Upstream-downstream airtightness (EN1751) Frame airtightness (EN 1751) Bearings Shaft Operating range CD X Y Z V Variable air flow regulator RCVS Class 3 Class C Nylon Galvanised steel 0-450 Pa S I airtight Galvanised steel Insulated Casing On option: stainless steel 304, 316L EPDM gasket Mineral wool, thickness 50 mm (Insulated version I) Operating temperatures -20 C to +80 C Control 2-10 V signal by Belimo type actuator (24 V AC/DC) Option: 0-10 V, communicating servomotor Accessories Remote control supplied to modify the regulation range on site = ZTH - EU Circular silencers to be installed downstream from the regulator: CONFORT or OPTIMUM (See FT 1-3-1B and 1-3-2B) 1
VARIABLE AIR FLOW REGULATOR OPERATING PRINCIPLE The air volume requirement of a room is identified by a probe and then converted into a 2-10 V signal. This signal, or setpoint, allows the regulator to adapt its position independently of upstream flow or pressure variations. Example: Meeting room with an RCVS ø200 set between 200 and 1400 m 3 /h, wired in 2-10 V and slaved to a CO2 probe: 0 person: setpoints between 0 and 0.5 V - Closure CO2 probe 2 persons: setpoint 2 V - Minimum flow rate 200 m 3 /h CO2 probe 2
3 14 persons: setpoint 10 V - Maximum flow rate 1400 m 3 /h If the fan flow rate or pressure changes upstream from the regulator (e.g. second room supplied by the same fan), the servomotor will adapt the blade opening to respect the setpoint. Slaving accessories can be supplied (on option, please contact us): Ambience regulator - CO2 probe - Wall positioner 0 -> 100 % DIMENSIONS AND WEIGHT (kg) CO2 probe Insulated version (I) Ø D (mm) a (mm) L (mm) Weight (kg) Ø Dy (mm) Weight (kg) Qv min (m 3 /h) RCV 100 99 35 300 1.4 200 2.8 45 340 RCV 125 124 35 300 1.7 225 4.0 70 540 RCV 160 159 35 340 2.2 260 3.3 115 900 Qv max (m 3 /h) RCV 200 199 35 370 2.7 300 4.1 180 1450 RCV 250 249 40 390 4.1 350 5.8 230 2200 RCV 315 314 40 450 5.4 415 10.2 450 3400 RCV 400 399 60 490 9.3 500 17.5 730 5500
VARIABLE AIR FLOW REGULATOR DIAMETER SELECTED DEPENDING ON FLOW RATE Diameter 400 315 250 200 160 125 100 230-2200 m 3 /h 180-1450 m 3 /h 115-900 m 3 /h 70-540 m 3 /h 45-340 m 3 /h 450-3400 m 3 /h 730-5500 m 3 /h 0 2000 4000 6000 8000 10 000 FLOW RATE CONTROL Flow rate m 3 /h The flow rate measured can be obtained using the following formula and a coefficient K specific to each diameter. To do this, connect to the regulator (+) and (-) pressure taps. Flow rate (m 3 /h) Factor K Δ (total pressure (+) - Static pressure (-) ) Model Factor K RCV 100 28 RCV 125 44 RCV 160 73 RCV 200 118 RCV 250 180 RCV 315 278 RCV 400 449 4
DRIVE The motors are installed in the factory and set according to the air flow range required for the installation. The regulator control signal is 2-10 V on RCVS (0-10 V signal possible upon request or can be modified on site with optional remote control ZTH-EU, please contact us). Model Servomotor reference Torque N.m RCV 100 LMV-D3 5 RCV 125 LMV-D3 5 RCV 160 LMV-D3 5 RCV 200 LMV-D3 5 RCV 250 LMV-D3 5 RCV 315 LMV-D3 5 RCV 400 LMV-D3 5 5
VARIABLE AIR FLOW REGULATOR ELECTRICAL CONNECTIONS - MF version servomotor: non-communicating (standard) The MF version does not allow communication. The air flow regulator operates independently using the configuration data. The output signal "U" can be used to display various operating parameters (blade opening, setpoint value). VARIABLE AIR VOLUME VAV OPERATION The control signal Y is calculated on the air flow range Qv min/qv max set in the factory. Le output signal U is calculated on the nominal air flow range of the selected ø. 6
RCVS dampers can also be used for constant air flow operation. 7 CONSTANT AIR VOLUME CAV OPERATION - MP version servomotors: communicating (on option) The MP versions allow communication between the flow regulator and the centralised management unit via various regulation protocols. A communication protocol defines all rules and specifies the operating conditions between several independent devices. This type of regulation architecture is based on a supervisor managing a set of data and interpreting it according to a programme by relaying the instructions to interfaces which synchronise the devices. These MP versions adapt via an interface to all types of communication protocol, for example: - MP BUS - MP LON - MP BACnet - MP-KNX
VARIABLE AIR FLOW REGULATOR MP BUS VARIABLE OPERATION 8
INSTALLATION RECOMMENDATIONS Plan a minimum pressure regulator of 2 to 3 x Ø between the regulator and the singularity of the nearest network. Never position the servomotor in the lower part of the regulator. Make sure to install the pressure taps upstream from the blade. Air flow direction 9
VARIABLE AIR FLOW REGULATOR ACOUSTIC REGENERATIONS Air flow noise Δp st = 150 Pa Diameter 100 Diameter 125 Diameter 160 Diameter 200 Diameter 250 Diameter 315 Diameter 400 Air flow noise Radiated noise 10
11 CIRCULAR SILENCERS F2A also proposes circular silencers (high acoustic requirements, tested in independent laboratories, 400 C/2h, etc.). For further information, see the data sheets of the COMFORT and OPTIMUM ranges (1-3-1B, 1-3-2B). DATA TO BE SUPPLIED For each RCV unit, various items of information must be supplied to ensure that the programming and marking match the requirements of your information as closely as possible: Identification mark (in your installation) Operating type: Variable air flow Constant air flow Operating flow rate (within the ranges defined according to the diameter; see table of dimensions and weights): Qv min (m3/h) Qv max (m3/h) (at least 30 % of the maximum flow rate of the selected diameter)