Wilo Pumps have been around for a few years and are a reliable and durable range of pumps available to our business.
When it comes to Wilo Pumps, our team believes in quality, durability and reliability and these are qualities that we seek when sourcing the best products. Taking this into consideration, we all know, Australia has some of the harshest weather conditions. So, in order to make it easier on our customers, we as a team like to seek a good range of pumps on behalf of our customers.
As a business, customer satisfaction is our main focus when it comes to any product in our range. Please be aware, that this is not a shopping site, but it is a site where we have information on Wilo Pumps. If you need help with any project big or small, or are looking to find a product, just contact us. Our great team are very knowledgeable when it comes to the Wilo brand product range.
So, if you would like to check out the Wilo Pumps range, have a browse in the catalogue below. If you prefer to check out our other suppliers and more of our range of pumps just click here.
Application
- Pumping water from wells
- Filling, pumping empty, transferring by pumping, irrigation and sprinkling
- As emergency pump for overflows
Features
- User-friendly thanks to its light weight, compact size and practical carrying handle
- High supply guarantee due to hydraulic output, self-priming up to 8 m (also at a low flow rate)
- Robust stainless steel construction for durable operation, impeller, shaft and housing made of AISI 304
- IE3-IEC three-phase AC motor (≥ 0.75 kW)
Technical data
- Mains connection 1~230 V, 50 Hz or 3~400 V, 50 Hz
- Inlet pressure max 2 bar
- Fluid temperature max. +5 °C to +35 °C
- Max. operating pressure 6 bar
- Protection class IP 44
- Suction- and pressure-side connection G 1
Self-priming household jet pump for rainwater supply. (Side discharge & Vertical discharge fluid control)
Your advantages
Ideal for use in outside areas (hobby, garden) thanks to durable construction; continuously good performance thanks to corrosion-free materials
Completely preassembled system, simple installation and maintenance through Plug&Pump system and 360° rotatable display, which means that it can be read from any direction
Electronic pump control
High operational reliability thanks to dry-running protection
Construction
Self-priming water-supply units
Application
For pumping water and rainwater from wells and tanks for:
Sprinkling
Irrigation and spraying
Equipment/function
Directly flanged motor
Connection cable with plug
Thermal motor protection switch
Automatic pump control
Low-water cut-out switchgear
Scope of delivery
Wilo-Jet WJ pump
Pump control Wilo-HiControl 1
Installation and operating instructions for the Wilo-Jet WJ pump
Installation and operating instructions for the Wilo-HiControl 1 switchgear
Optional carrying handle
Technical data
For Wilo-Jet FWJ:
Mains connection: 1~230 V, 50 Hz
Max. inlet pressure of 1 bar
Start-up pressure: 1.5 bar
Switch off volume flow: 95 l/h
Perm. fluid temperature: +5 °C to +35 °C (+55 °C for 10 min)
Perm. operating pressure max. 6 bar
Protection class: IP44
Connection on pressure side: R1
Connection on suction side: G1
For the wibutler communication box:
Standard communication/frequency: EnOcean / 868 MHz, Z-Wave / 868 MHz, Zigbee / 2.4 GHz, WLAN / 802.11 b/g/n 2.4 GHz
Power supply: 1~ 100 – 240 V AC/50 – 60 Hz
Plug type: EU plug
Miscellaneous: Integrated loudspeaker, integrated 8 GB SSD, 1 GB DDR3 RAM, 1 GHz CPU ARMADA 370 ARM v7, 1 x Ethernet RJ45, 1 x 3.5 mm stereo output
Manufacturer: iEXERGY
Materials
Pump housing made of 1.4301 stainless steel
Impeller made of 1.4301 stainless steel
Shaft 1.4005 stainless steel
Mechanical seal made of carbon/ceramic
Stage chambers made of Noryl
Pressure controller housing made of nylon PA6
Diffuser/injector made of Noryl
Seal made of NBR
Self-priming horizontal multistage pressure pump.
Your advantages
Simple: Plug & Pump system
Efficient: Highly efficient hydraulics, low electricity consumption and very compact thanks to motor optimisation
Automatically operating system and dry-running protection thanks to Wilo-HiControl 1
Low-noise: Noise level between 56 dB(A) and 64 dB(A)
360° rotatable electronic pump control HiControl 1 for easy installation
Construction
Water-supply system with automatic pump control system in non self-priming version (HiMulti 3 C) or self-priming version (HiMulti 3 C P)
Application
Water supply (drinking water certification in accordance with ACS)
Sprinkling
Irrigation and spraying
Rainwater utilisation
Equipment/function
Directly flanged motor
Connection cable with plug
Thermal motor protection switch
Automatic pump control
Low-water cut-out switch
Scope of delivery
Pump
Pump control Wilo-HiControl 1
1 piece plastic connector with seal for manual connection to the inlet pipe
Wilo-Connector (electrical quick connector)
Installation and operating instructions
Technical data
Mains connection: 1~230 V, 50 Hz
Perm. fluid temperature: 0 °C to +40 °C (+55 °C for 10 min)
Perm. ambient temperature: -15 °C to +40 °C
Permissible storage temperature: -30 °C to +60 °C
Max. permissible operating pressure: 8 bar
Max. permissible inlet pressure: 3 bar
Start-up pressure: 1.5 bar
Switch off volume flow: 95l/h
Protection class: IP54
Suction side connection: Rp1
Connection on pressure side: Rp1
Information about the automatic can be found in the documentation for Wilo-HiControl 1
Materials
Pump housing in Technopolymer with ACS, WRAS and KTW drinking certifications
Impellers and stage casing made of Noryl 30% GF with drinking water certification in accordance with ACS, WRAS and KTW
Pump cover and shaft made of stainless steel
Mechanical seal made of ceramic/carbon
Housing for the pressure monitoring made of Nylon PA6 with drinking water certification in accordance with ACS
Non-self priming horizontal multistage transfer pumps.
Your advantages
IE3 IEC three-phase AC motor (≥ 0.75 kW)
All parts that come in contact with the fluid are made of stainless steel 1.4301 (AISI 304) or 1.4404 (AISI 316L)
Space-saving, compact design
Drinking water approval (ACS, KTW, WRAS) for all components in contact with the fluid (EPDM version)
Construction
Non self-priming multistage pump
Application
Water supply and pressure boosting
Irrigation
Heating
In industrial systems (foodstuff industry, renewable energies, shipbuilding): Cooling and washing system
Equipment/function
Stainless steel in monobloc design
Threaded connection
Single-phase or three-phase AC motor
Single-phase AC motor equipped with built-in thermal motor protection (with automatic restart)
Scope of delivery
Pump
Installation and operating instructions
Technical data
Mains connection 1~230 V (±10 %), 50 Hz or optionally 220 V (±10 %), 60 Hz
Mains connection: 3~230 V (±10 %), 50 Hz (Δ) or optionally 265 V (±10 %), 60 Hz (Δ), 400 V (±10 %), 50 Hz (Y) or optionally 460 V (±10 %), 60 Hz (Y); same motor also: 3~220 V (±10 %), 60 Hz (Δ), 380 V (±10 %), 60 Hz (Y);
Fluid temperature of -15 to +110 °C
Max. operating pressure 10 bar
Max. inlet pressure of 6 bar
Protection class 1~: IPX4; 3~: IP54
Nominal diameters of pipe connections: Rp 1, Rp 1 ¼ or Rp 1 ½, depending on type
Materials
Impellers, stage chambers and pump housing made of 1.4301/1.4404 stainless steel
Shaft 1.43.01 or 1.4404 stainless steel
Seal EPDM (EP 851) / FKM (Viton)
EPDM version of mechanical seal: B carbon/silicon carbide, FKM version: Silicon carbide/B-carbon
Bearing tungsten carbide/aluminium oxide
Pump support foot aluminium
Non-self priming horizontal multistage pump.
Your advantages
IE3 IEC three-phase AC motor (≥ 0.75 kW)
Impellers and stage housing made of stainless steel
Pump housing made of EN-GJL-250 cast iron, KTL coating
Single-phase and three-phase versions available
Construction
Non-self-priming, multistage pump
Application
Water supply and pressure boosting
Irrigation
Heating
In industrial systems (foodstuff industry, renewable energies): Cooling and washing system
Equipment/function
Pump in block design
Threaded connection
Single-phase or three-phase AC motor
Single-phase motor with integrated thermal motor protection
Scope of delivery
Pump
Installation and operating instructions
Technical data
Mains connection 1~230 V (±10 %), 50 Hz or optionally 220 V (±10 %), 60 Hz
Mains connection 3~230 V (±10 %), 50 Hz (Δ) or optionally 220 V (±10 %), 50 Hz (Δ), 400 V (±10 %), 50 Hz (Y) or optionally 460 V (±10 %), 60 Hz (Y)
Fluid temperature -15 to +90 °C
Max. operating pressure 10 bar
Max. inlet pressure 6 bar
Protection class 1~: IPX4; 3~: IP54
Nominal diameters of pipe connections on pressure side: Rp 1 or Rp 1 ¼, depending on type
Nominal diameters of pipe connections on suction side Rp 1, Rp 1 ¼ or Rp 1 ½, depending on type
Materials
Impellers of stainless steel 1.4301
Stage chambers made of 1.4301 stainless steel
Shaft of stainless steel 1.4301 (AISI 304) or 1.4057 (AISI 431 L)
EPDM seal
Housing cover EN-GJL-250 (KTL-coated)
Lower housing section EN-GJL-250 (KTL-coated)
Mechanical seal made of SiC/carbon
Bearing of tungsten carbide
Pump support foot EN-GJL-250 (KTL-coated)
Description
Diaphragm pressure vessels for installation on the pressure side in conjunction with drinking water, water supply or pressure boosting systems. This tank is used to avoid
pressure surges in the system and reduces the switching frequency of the pumps/system.
Scope of delivery
Diaphragm pressure vessel: 8 l/PN 16, with drain
Throughflow fitting in accordance with DIN 4807; provided with shut-off ball cock for testing and inspection purposes
Adapter with connection ports for the diaphragm pressure vessels
Installation sundries
Sealing material
Wilo-Water Widget Mechanically activated rainwater changeover device
Technical Data
• Maximum mains pressure: 1,050 kPa
• Maximum pump pressure: 1,050 kPa
• Maximum flow rate: 200 lpm
• Rainwater/mains water inlet: 1” BSP-F
• Outlets: 1” BSP-F
• Weight: 1.9 Kg
Features
• Easy to install
• Full flow 1” outlets
• Solid brass construction
• No electrical components
• No float switch required for automatic restarting of pumps
• Can be mounted in any position and any distance from the pump
• Certified dual check valve for backflow prevention
• Hydraulically operated
High efficiency non-self priming vertical multistage pumps.
Your advantages
Efficiency-optimised, laser-welded 2D/3D hydraulics, flow and degassing optimised
Corrosion-resistant impellers, guide vanes and stage housings
Flow and NPSH-optimised pump housing
Maintenance-friendly design with particularly robust coupling guard
Drinking water approval for pumps with parts that come in contact with the fluid made of stainless steel (EPDM version)
Construction
Non-self-priming, high-efficiency multistage high-pressure centrifugal pump in vertical design with in-line connections
Application
Water supply and pressure boosting
Industrial circulation systems
Process water
Closed cooling circuits
Fire extinguishing systems
Washing systems
Irrigation
Equipment/function
Corrosion-resistant impellers, guide vanes and stage housings
Scope of delivery
Helix V high-pressure multistage centrifugal pump
Installation and operating instructions
Helix V 2 – 16 (version PN16 with oval flanges): counter flanges made of stainless steel with the corresponding screws, nuts and gaskets
Technical data
Electrical connection:
3~400 V (±10 %), 50 Hz
≤ 4 kW 230 V/ 400 V; Δ/Y
> 4 kW 400 V/ 690 V; Δ/Y
• 1~ 230 V (±10 %), 50 Hz, only Wilo-Helix V 2, 4, 6, 10
Fluid temperature range:
Helix V 2 – 16 (EPDM): -30 to 120 °C (130 °C on request)
Helix V 2 – 16 for aggressive media (FKM): -15 to 90 °C
Helix V22 – 52 (EPDM): -20 to 120 °C (130 °C on request)
Helix V22 – 52 for aggressive media (FKM): -15 to 90 °C
Max. operating pressure: 16/25/30 bar
Max. inlet pressure of 10 bar
Protection class: IP 55
Max. ambient temperature: -15 °C – +50 °C (extended temperature ranges on request)
Available versions:
Helix V 2 – 16: PN 16 with oval flanges, PN 25/PN 40 with round flanges according to ISO 2531 and ISO 7005 (Victaulic coupling on request)
Helix V 22 – 52: PN 16/PN 25/PN 40 with round flanges according to ISO 2531 and ISO 7005
Materials
Helix V 2, 4, 6, 10, 16:
Standard version
Impellers, stage housings and guide vanes made of stainless steel 1.4307 (AISI 304L)
Pump housing made of stainless steel 1.4301 (AISI 304)
Baseplate and lantern in EN-GJL-250 (cataphoretic coated)
Shaft made of stainless steel 1.4301 (AISI 304) or 1.4462 (AISI 318LN) (depending on version)
Sleeve under the mechanical seal 1.4404 (AISI 316L)
O-ring of EPDM (FKM gasket on request)
Jacket pipe made of stainless steel 1.4301 (AISI 304)
For aggressive media
Impellers, stage housings and guide vane apparatuses of stainless steel 1.4404 (AISI 316L)
Pump housing made of stainless steel 1.4404 (AISI 316L)
Shaft made of stainless steel 1.4404 (AISI 316L) or 1.4462 (AISI 318LN) (depending on version)
Sleeve under the mechanical seal 1.4404 (AISI 316L)
O-ring of FKM (EPDM gasket on request)
Jacket pipe made of stainless steel 1.4404 (AISI 316L)
Helix V 22, 36, 52:
Standard version
Stage housings, impellers, guide vane apparatuses made of stainless steel 1.4307 (AISI 304L)
Pump housing made of stainless steel 1.4308 (AISI 304) or cataphoretic-coated grey cast iron EN-GJL 250, loose flanges made of cataphoretic-coated grey cast iron EN-GJL 250 for Helix V 22 / EN-GJS 400 for Helix V 36-52.
Shaft made of stainless steel 1.4057 (AISI 431)
Sleeve under the mechanical seal 1.4404 (AISI 316L)
O-ring of EPDM (FKM gasket on request)
Jacket pipe made of stainless steel 1.4301 (AISI 304)
For aggressive media
Stage housings, impellers, and guide vane apparatuses made of stainless steel 1.4404 (AISI 316L)
Pump housing: all parts which come in contact with the media are made of cast stainless steel 1.4409 (AISI 316L); loose flanges of cataphoretic-coated grey cast iron EN-GJL 250 for Helix V 22 / EN-GJS 400 for Helix V 36-52.
Baseplate made of stainless steel 1.4301 (AISI 304)
Shaft made of stainless steel 1.4404 (AISI 316L) or 1.4462 (AISI 318LN) (depending on version)
Sleeve under the mechanical seal 1.4404 (AISI 316L)
O-ring of FKM (EPDM gasket on request)
Pressure shroud made of stainless steel 1.4404 (AISI 316L)
Description/construction
Pumps can be adapted to specific circumstances on request (e.g. motor protection, IE4 motor efficiency class, VdS certified Wilo-Helix pumps, ATEX, extended ambient temperature range).
The Helix series is also available with an integrated frequency converter.
Non-self priming vertical multistage pump with integral variable speed drive.
Your advantages
Multistage, speed-configurable stainless steel high-efficiency pump with 2D/3D hydraulics and standard motor
Optimised design for easy operation, transportation and installation with handles, lantern adjustment and rotatable free flanges
User-friendly display with Green Button Technology and full text menu
IF plug-in module for quick communication with the BMS
Quick maintenance due to innovative cartridge mechanical seal and spacers
Lower life cycle costs due to new Helix design
Construction
Electronically controlled, non-self-priming high-pressure multistage centrifugal pump in vertical design, with in-line connections
Application
Water supply and pressure boosting
Industrial circulation systems
Process water
Closed cooling circuits
Fire extinguishing systems
Washing systems
Irrigation
Equipment/function
Impellers, guide vanes and stage housings made of corrosion-resistant material
Scope of delivery
Helix VE high-pressure multistage centrifugal pump
Installation and operating instructions
Helix VE 2 – 16 (version PN16 with oval flanges): Counter flanges made of stainless steel with corresponding
Technical data
Electrical connection:
3~ 50 Hz : 400V +/-10%
3~ 60 Hz : 380V +/-10%
3~ 60 Hz : 480V +/-10%
Fluid temperature range:
Helix VE 2 – 16 (EPDM): -30 to 120 °C (130 °C on request)
Helix VE 2 – 16 for aggressive media (FKM): -15 to 90 °C
Helix VE22 – 52 (EPDM): -20 to 120 °C (130 °C on request)
Helix VE22 – 52 for aggressive media (FKM): -15 to 90 °C (-30 to 120 °C with EPDM gasket on request)
Max. operating pressure: 16/25 bar
Protection class: IP 55
Max. ambient temperature: +40°C (extended temperature ranges on request)
Available versions:
Helix VE 2 – 16: PN 16 with oval flanges, PN 25 with round flanges according to ISO 2531 and ISO 7005 (Victaulic coupling on request)
Helix VE 22 – 52: PN 16 and PN 25 with round flanges according to ISO 2531 and ISO 7005
Materials
Helix VE 2, 4, 6, 10, 16:
Standard version
Impellers, stage housings and guide vanes made of stainless steel 1.4307 (AISI 304L)
Pump housing made of stainless steel 1.4301 (AISI 304)
Baseplate and lantern in EN-GJL-250 (cataphoretic coated)
Shaft made of stainless steel 1.4301 (AISI 304) or 1.4462 (AISI 318LN) (depending on version)
Sleeve under the mechanical seal 1.4404 (316L)
O-ring of EPDM (FKM gasket on request)
Jacket pipe made of stainless steel 1.4301 (AISI 304)
For aggressive media
Impellers, stage housings and guide vane apparatuses made of stainless steel 1.4404 (316L)
Pump housing made of stainless steel 1.4404 (316L)
Shaft made of stainless steel 1.4404 (316L) or 1.4462 (AISI 318LN) (depending on version)
Sleeve under the mechanical seal 1.4404 (316L)
O-ring of FKM (EPDM gasket on request)
Jacket pipe made of stainless steel 1.4404 (316L)
Helix VE 22, 36, 52:
Standard version
Stage housings, impellers, guide vane apparatuses made of stainless steel 1.4307 (AISI 304L)
Pump housing made of stainless steel 1.4301 (AISI 304) or cataphoretic-coated grey cast iron EN-GJL 250, loose flanges made of EN-GJS 400 for Helix VE 36-52.
Shaft made of stainless steel 1.4057 (AISI 431)
Sleeve under the mechanical seal 1.4404 (316L)
O-ring of EPDM (FKM gasket on request)
Jacket pipe made of stainless steel 1.4301 (AISI 304)
For aggressive media
Stage housings, impellers, and guide vane apparatuses made of stainless steel 1.4404 (316L)
Pump housing: all parts which come in contact with the media are made of cast stainless steel 1.4409 (316L); loose flanges of cataphoretic-coated grey cast iron EN-GJL 250 for Helix VE 22 / EN-GJS 400 for Helix VE 36-52.
Baseplate made of stainless steel 1.4301 (AISI 304)
Shaft made of stainless steel 1.4404 (316L) or 1.4462 (AISI 318LN) (depending on version)
Sleeve under the mechanical seal 1.4404 (316L)
O-ring of FKM (EPDM gasket on request)
Pressure shroud made of stainless steel 1.4404 (316L)
screws, nuts and gaskets
4″ Stainless Steel Submersible Borehole Pump.
Your advantages
Long service life thanks to corrosion-resistant stainless steel, optionally available in V4A quality
ACS certified for drinking water applications
A high degree of flexibility thanks to versions in the 4, 6, 8 and 10-inch area
High range of performance from 1 to 250 m³/h
Construction
Multistage 4″ submersible pump in tie strap version for vertical or horizontal installation
Application
For water and drinking water supply from boreholes and rainwater storage
Process water supply
For municipal water supply, sprinkling and irrigation
Pressure boosting
Lowering of the water level
For pumping water in industrial applications
For pumping water without long-fibre and abrasive constituents
Equipment/function
Multistage submersible-motor pump with radial or semi-axial impellers
Integrated non-return valve
NEMA coupling
Single-phase or three-phase AC motor
Hermetically sealed motors
Scope of delivery
Hydraulics + motor completely assembled
1.5/2.5 m connection cable drinking water approval (cross-section: 4 x 1.5 mm2)
Single-phase version including switchbox with capacitor, thermal motor protection and On/Off switch
Installation and operating instructions
Technical data
Mains connection: 1~230 V, 50 Hz or 3~400 V, 50 Hz
Submerged operating mode: S1
Fluid temperature: 3 – 30 °C
Minimum flow rate at motor: 0.1 m/s
Max. sand content: 50 g/m3
Max. number of starts: 20/h
Max. immersion depth: 150 m
Protection class: IP68
Pressure connection: Rp 1¼ – Rp 2
Materials
Hydraulics housing: Stainless steel 1.4301
Impellers: Stainless steel 1.4301
Hydraulic shaft: Stainless steel 1.4057
Motor housing: Stainless steel 1.4301
Motor shaft: Stainless steel 1.4305
Description/construction
Submersible pump with ACS approval for vertical or horizontal installation.
Hydraulics
Multistage submersible-motor pump with 4″ NEMA connection and radial or semi-axial impellers with sectional construction. Integrated non-return valve. All parts that come in contact with the fluid are made of corrosion-free materials.
Motor
Corrosion-free single-phase or three-phase motor for direct starting. Sealed and hermetically cast motor, resin-impregnated, with enamel-insulated winding, self-lubricating bearing, with water-glycol filling.
Cooling
The motor is cooled by the pumped fluid. The motor must always be immersed when operated. The limit values for maximum fluid temperature and minimum flow velocity must be adhered to. Vertical installation is possible with or without cooling jacket. Horizontal installation must be performed in conjunction with a cooling jacket.
Pressure shroud
The pressure shroud is used for the direct installation of the unit in the pipe system. Standard models are without mounted non-return valves. The maximum inlet pressure is 10 bar.
Dual fixed-speed vertical multistage pressure boosting system.
Compact pressure boosting system according to DIN 1988 and DIN EN 806, for direct or indirect connection. Consisting of non self-priming, switched in parallel, vertically-mounted stainless steel high-pressure centrifugal pumps in glanded versions. Ready for connection with stainless steel pipework, mounted on a base frame, including control device with all necessary measurement and adjustment equipment.
For fully automatic water supply and pressure boosting in residential, commercial and public buildings, hotels, hospitals, department stores and for industrial systems.
For pumping drinking water, process water, cooling water, fire water (apart from fire-extinguishing systems in accordance with DIN 14462 and with the approval of the local fire safety authorities) or other types of industrial water that do not attack the materials either chemically or mechanically and do not contain abrasive or long-fibre constituents.
Special features/product benefits
Heavy-duty system which satisfies all the requirements of DIN 1988 (EN 806)
WRAS/ KTW/ ACS approval of the pumps for all parts that come in contact with the fluid (EPDM version)
High-efficiency pump hydraulics of the Helix V series in conjunction with IE2 IEC standard motors, including 7.5 kW and larger IE3 standard motor (optional for smaller motor power)
Bidirectional mechanical seals in the pumps for easy maintenance
Flexible lantern design permits direct access to the mechanical seal
The spacer coupling enables the mechanical seal to be replaced without dismantling the motor (from 7.5 kW)
Hydraulics of entire system are pressure-loss optimised.
Parts that come in contact with the fluid are corrosion-resistant
Comfort control device SC-FC, maximum degree of control with symbol-based LC display, simple navigation with clear menu and red-button technology for parameter setting, including a frequency converter for infinitely variable control of the base-load pump
Factory inspection and default setting at optimum operating range (incl. acceptance test certificate based on EN10204 – 3.1)
Equipment/function
Stainless steel high-pressure centrifugal pumps of the Helix V series
Base frame of electrolytically galvanised steel, with height-adjustable vibration absorbers for insulation against structure-borne noise
Shut-off valve on the suction and pressure sides of each pump
Non-return valve on the pressure side of each pump
8 litre diaphragm pressure vessel, PN16 including throughflow fitting to DIN 4807, pressure side
Pressure sensor (4-20 mA), pressure side
Pressure gauge, pressure side
Automatic pump control by means of a fully electronic
Smart-Controller (SC-FC) in a sheet metal enclosure, protection class IP 54 consisting of internal control voltage supply unit, microprocessor with soft PLC, frequency converter, analogue and digital inputs and outputs.
A working area of 1 m around the system is recommended in order to facilitate the maintenance process.
Operation/ display
LC display (backlit) for display of the operating data, controller parameters, operating statuses of the pumps, error messages and history log
Menu navigation with symbols and menu numbers
LEDs for display of the system status (operation/fault)
Factory-preset parameters for easy commissioning/start-up
Configuration of operating parameters and acknowledgement of fault signals using red-button technology
Lockable main switch
Operation selectable with / without standby pump by customer service
Elapsed time indicator for each pump and for entire system
Switching cycle counter for each pump and for entire system
Fault log for the last 16 faults
Control
Fully automatic control for 1 to 4 uncontrolled pumps by means of setpoint/actual value comparison
Frequency converter with sine filter for infinitely variable control of the base-load pump
Setpoint changeover: 2nd setpoint can be activated by contact
External remote setpoint adjustment by 4…20 mA signal
Automatic, load-sensitive cut-in of 1 to n peak-load pump(s) depending on the pressure – constant, p-c control variable
Contactors for switching on the pumps. SD models include thermal triggering and a timer relay for the star-delta combination
2 parameter sets selectable, easy menu (setpoint & control mode) or expert menu (operation and control parameters)
Operating mode of the pumps freely selectable (manual, off, automatic)
Automatic, configurable pump cycling
Standard setting: Impulse – The base-load pump is cycled at each new demand, regardless of operating hours
Alternative: Pump cycling dependent on operating hours, cycling of the base-load pump after the specified operating hours
Automatic, configurable pump test run (pump kick)
Can be activated/deactivated
Time between two test runs is freely programmable
Disabling times can be programmed as desired
Speed can be adjusted as desired
Monitoring
Actual value of the system is output via a 0-10 Volt analogue signal for external measurement / display applications, 10 Volt depending on the sensor range value
4-20mA sensor signal (conductivity test of the sensor cable) for control variable actual value
Protection of the pump motors in the DOL version: via motor protection switch; in the SD version: Fuses in combination with thermal triggering
Automatic changeover to the standby pump in the event of a operating pump fault
Monitoring of maximum and minimum system values with adjustable time delays and limits
Zero-flow test for switching off the system when no water is being drawn off (adjustable parameters)
Pipe filling function for filling empty pipes (initial filling of the consumer network)
Protection against low water level via contact e.g. for float switch or pressure switch
Interfaces
Potential-free contacts for SBM/SSM collective operation and collective fault signals
Logical reversal can be applied to SBM and SSM
Contacts for external on/off, low water and 2nd setpoint
External on/off via contact for deactivation of the system’s automatic mode
Optional accessories (factory installation or retrofitting after technical checks)
Manual-0-Automatic switch Preselection of the operating mode of each pump and manual operation in the event of a controller fault “Manual” (emergency/test mode available at mains power, motor protection available), “O” (pump switched off – cannot be switched on using the controller) and “Auto” (pump enabled for automatic mode via the controller)
Evaluation relay for PTC motor protection
Individual operation and fault signal, low-water signal
Signal converter for 0/ 2-10V to 0/ 4-20mA
Soft starter for peak-load pumps
Connection to BMS systems in accordance with VDI 3814
Recommended accessories (to be ordered separately)
Optional WMS low-water cut-out switchgear kit;
Flexible connection lines or expansion joints
Break tank for system separation
Diaphragm pressure vessel
Threaded caps for systems with threaded joint tubing
Bus systems (optional)
BACnet, LON-Bus, Modbus RTU
Standards followed
Specifications for drinking water installations (TRWI) DIN 1988 (EN806)
Diaphragm pressure vessel/ diaphragm expansion tank DIN 4807
Electronic Equipment for Use in Power Installations (EN 50178)
Electrical Equipment of Machines (EN 60204-1)
Household and Similar Electrical Appliances – Safety (EN 60335-1)
Low-voltage switchgear combinations EN 60439-1/ 61439-1
EMC – Immunity for Industrial Environments (EN 61000-6-2)
EMC emitted interference for domestic, trade and commercial applications and small companies EN 61000-6-3 (up to 9.0 kW, above this EN 61000-6-4 emitted interference for industrial applications)
Your advantages
Very compact construction for installation in a wet area or under the shower tray (HiDrainlift 3-24)
Low-noise operation and installed active carbon filter for high user comfort
Reliable capacity and low electricity consumption for efficient wastewater disposal
Simple installation with flexible connection options
Systems ready for connection (HiDrainlift 3-35 and HiDrainlift 3-37)
Construction
Small sewage lifting unit for floor-mounted installation
Application
Pumping of pre-cleaned sewage without faeces (according to DIN EN 12050-2) that cannot be piped to the sewer system through the use of natural falls.
Equipment/function
Ready-to-plug
Thermal motor protection
Level checking via a pneumatic pressure transducer
Integrated non-return valve
Fixation material
Active carbon filter
Scope of delivery
Ready for connection wastewater lifting unit with macerator, active carbon filter and integrated non-return valves
Installation and operating instructions
Connection set for inlet and pressure pipes
Type key
Example:
HiDrainlift 3-35
HiDrainlift
Product family: Wastewater lifting unit
3 Product level 3 = Standard
3 Number of inlet connections
5 Rated delivery head in m
Technical data
Mains connection 1~230 V, 50 Hz
Mains connection cable 1.5 m, with shock-proof plug
Fluid temperature max. 35 °C (up to 60/ 75 °C in short-time duty for 5 minutes, depending on the model)
Pressure connection DN 32
Inlet connection DN 40
Protection class IP 44
Gross tank volume 3.9 l / 16 l / 15.5 l
Switching volume 1.7 l / 2 l / 2 l
Materials
Pump housing: PPGF30
Motor housing: PPGF30
Gasket: EPDM
Tank material: PP
Description/construction
Ready-for-connection, automatically-switching wastewater lifting unit with built-in non-return valve and 2-3 inlet connecting pieces (depending on model). Odour-free exhaust ventilation into the installation room is implemented by means of an integrated active carbon filter.