CL12 Manitoba

The ultracarbon filter comes with the composite cartridge with three filtration stages: sediment, carbon and ultrafiltration.

Maximum humidistat MHS2 is a device with a built-in mechanical relative humidity sensor that measures actual humidity level in the humidification zone, and when the maximum RH value is reached, it switches off the operation of the nozzles in the particular room, preventing overhumidification.

HS3 allows to set the required level of humidity in the room, select automatic operation mode or switch off humidification in the room.

HS3 allows to set the required level of humidity in the room, select automatic operation mode or switch off humidification in the room.

MHS3 additional unit allows you to monitor humidity level in the room and switch off humidification request when the maximum peak value is reached (default max. level is set at 55%).

MHS3 additional unit allows you to monitor humidity level in the room and switch off humidification request when the maximum peak value is reached (default max. level is set at 55%).

HS4 control unit is used to set the required humidity in the humidification zone, as well as to select the operation mode of the nozzles: automatic, timed, off. The built-in sensor measures the humidity level with high accuracy.

HS4 control unit is used to set the required humidity in the humidification zone, as well as to select the operation mode of the nozzles: automatic, timed, off. The built-in sensor measures the humidity level with high accuracy.

HS4 control unit is used to set the required humidity in the humidification zone, as well as to select the operation mode of the nozzles: automatic, timed, off. The built-in sensor measures the humidity level with high accuracy.

HS4 control unit is used to set the required humidity in the humidification zone, as well as to select the operation mode of the nozzles: automatic, timed, off. The built-in sensor measures the humidity level with high accuracy.

HS4 control unit is used to set the required humidity in the humidification zone, as well as to select the operation mode of the nozzles: automatic, timed, off. The built-in sensor measures the humidity level with high accuracy.

MHS4 – the additional unit performs a protective function by controlling RH level and switching off nozzles in a particular humidification zone when the maximum value is exceeded (default threshold – 55%).

MHS4 – the additional unit performs a protective function by controlling RH level and switching off nozzles in a particular humidification zone when the maximum value is exceeded (default threshold – 55%).

MHS4 – the additional unit performs a protective function by controlling RH level and switching off nozzles in a particular humidification zone when the maximum value is exceeded (default threshold – 55%).

MHS4 – the additional unit performs a protective function by controlling RH level and switching off nozzles in a particular humidification zone when the maximum value is exceeded (default threshold – 55%).

MHS4 – the additional unit performs a protective function by controlling RH level and switching off nozzles in a particular humidification zone when the maximum value is exceeded (default threshold – 55%).

With wireless HS5 unit user can set the desired level of humidity in the certain room, set automatic mode, or disable the operation of the current humidification zone.

With wireless HS5 unit user can set the desired level of humidity in the certain room, set automatic mode, or disable the operation of the current humidification zone.

MHS5 is the additional wireless unit, which allows you to control the humidity and switch off the nozzles in the current humidification zone when the maximum RH is reached (default max. level is set at 55%).

MHS5 is the additional wireless unit, which allows you to control the humidity and switch off the nozzles in the current humidification zone when the maximum RH is reached (default max. level is set at 55%).

The transceiver receives signals from wireless control units for their further transmission to the central module. The signals are transmitted on 315 MHz radio frequency once a minute & immediately when the set RH level, operating mode or schedule on the control unit changes, as well as when the maximum threshold is reached on one of the main or additional control units.

PNS nozzle with 65 μ orifice is used to create a fine water fog. The artificial ruby insert ensures solid construction and long lifetime.

PNM nozzle with 85 μ orifice is used to create a fine water fog. The artificial ruby insert ensures solid construction and long lifetime.

DKOL-M8 Ext 15 is 15 cm long flexible extender, which is required for several applications: to extend the nozzle heads or GRM splitter from SV valve, or to extend PNS / PNM from TCCC tee.

DKOL-M8 Ext 70 is 70 cm long flexible extender, which is required for several applications: to extend the nozzle heads or GRM splitter from SV valve, or to extend PNS / PNM from TCCC tee.

DKOL-M8 Ext 140 is 140 cm long flexible extender, which is required for several applications: to extend the nozzle heads or GRM splitter from SV valve, or to extend PNS / PNM from TCCC tee.

SV – absolutely silent valve opens / closes upon request of the controller installed in the central module. The valve is connected to the central module by a cable.

DKOL-DKOL Ext 70 is 70 cm long flexible extender, which is required to extend SV valve from TCCC tee.

DKOL-DKOL Ext 140 is 140 cm long flexible extender, which is required to extend SV valve from TCCC tee.

On the front side of M8 Tee splitter there are two ports for screwing PNS / PNM nozzle heads, on the back side there is a port for connection to DKOL-M8 Ext.

GRM8 is a splitter made of high quality stainless steel AISI316L. At the back of the splitter there are two ports for connection to the high pressure line.

M8mm adapter is used to connect GRM8 splitter to the high pressure hose line through DKOL-M8 Ext 15 / 70 / 140.

M8CEL adapter is required to connect GRM8 splitter directly to the high pressure hose line without using a tee.

GR Bracket is used for GRM8 in case of open installation of the high pressure hose line.

M8 Dot is used to plug unused ports of GRM8 splitter.

M8mf adapter is used to install PNS / PNM nozzle heads into GRM8 or M8 Tee splitters directly.

M8 Pivot joint is used to correct the direction of PNS / PNM nozzle heads. It consists of two parts, one of them is screwed into the splitter and the other one is used to screw the nozzle head in it.

M8mf Ext 10 extender screws into M8mes threaded connections for positioning PNS / PNM nozzle heads in certain directions.

HPH2 composite high-pressure hose consists of two layers: the inner layer is made of Teflon (PTFE), the outer layer is made of AISI 304 stainless steel. Teflon, also called PTFE provides a high level of hygiene as it is chemically inert and does not serve as a food for bacteria.

HPH4 composite high-pressure hose consists of two layers: the inner layer is made of Teflon (PTFE), the outer layer is made of AISI 304 stainless steel. Teflon, also called PTFE provides a high level of hygiene as it is chemically inert and does not serve as a food for bacteria.

TCCC tee with CEL-CEL-CEL connections allows to make branches from the high-pressure hose line for installation of nozzles.

TCCD tee with CEL-CEL-DKOL connections is used for direct installation of SV active valve on the tee.

FITD2 fitting is used to connect HPH2 hoses.

FITD4 fitting is used to connect HPH4 hoses.

Crimping ferrule FER2 is used to fix FITD2 fitting.

Crimping ferrule FER4 is used to fix FITD4 fitting.

STRCC connector is used to extend crimped HPH4 or HPH2 hose branches or to connect DKOL-DKOL Ext with DKOL-M8 Ext flexible extenders.

HPH Plug is used to plug HPH4 / HPH2 ends and also used to plug TCCD port.

HPH Plug is used to plug CEL ports at TCCC.