- HVAC
- Drainage & Sewage
- Water Supply
- Heating Products
- Sewage Products
- PRESSURE BOOSTING PRODUCTS
Customised solutions for your project
As one of the world’s leading premium suppliers of pumps and pump systems for building services, we offer you tailored products with high system efficiency and maximum energy saving. Our focus at the same time is always on keeping your solution as individual as necessary and as efficient as possible.
With our many years of experience from projects in building services, we will support you both in the design stage and during the implementation phase of your projects.
Energy-efficient and reliable
Heating is the heart of a home – whether using classic radiators or underfloor heating. Wilo high-efficiency pumps convert every room into a feel-good zone. They not only provide warmth and comfort, but they also help to save energy and costs. At the same time, they are simple to install, easy to maintain and particularly reliable.
This you can always expect from our Wilo pumps. Our high-efficiency pumps are also suitable for commercial fields of application and decisively reduce energy costs. Condensing boilers installed below the backflow level need to have a condensate lifting unit to remove the resulting condensate. Wilo offers tailor-made and high-quality solutions for precisely this application.
Using precious drinking water
Water is essential for life and subject to the highest quality requirements. This also applies to the technology that controls and safeguards the domestic hot water supply. Circulators from Wilo are the solution for all who have the most exacting demands on materials, operation and convenience.
Water is one of the most important resources worldwide. And this is what makes the sustainable handling of this resource so important. Over 70 percent of the earth’s surface is covered by water, but only a fraction of this amount is entirely suitable for use as drinking water. As the water used for drinking water is extracted as 70 percent groundwater and spring water.
Hot-water convenience that pays off
Lack of circulation or too long a pipe distance are often the reasons why cold water first comes out the tap and the water temperature only gradually rises. Until the water has been heated to the desired temperature, several litres of drinking water flow down the drain. In order to curb wastage of drinking water in the home, it is worth getting hold of a circulator. Reliable domestic hot water supply faces a challenge in commercial use as well. Circulators from Wilo satisfy the most exacting quality requirements when handling water, the substance that is essential for life. They ensure trouble-free operation and are particularly efficient, which means they save electricity. Intelligent technology can do both: it provides hot water quickly, while saving energy and resources at the same time.
The water quality of drinking water
The water quality is normally legally regulated and controlled by directives, various guidelines, recommendations and regulations. The taste of drinking water varies in many regions due to the differing minerals that are dissolved in the water from the ground and rock substrates the water passes through. Healthy, clean drinking water is colourless and clear as well as neutral in taste, odourless and safe.
The drinking water supply process is made up of water extraction, treatment and distribution. During the complete drinking water supply process chain, the preservation of contamination barriers is enormously important in order to keep the need for technical treatment to a bare minimum. Contamination due to material, substances or legionella does not occur in distribution systems that have been installed in a proper manner and which are regularly and correctly maintained and operated. Therefore the decisive component for high drinking water quality is excellent management of the systems, which is the responsibility of water utilities and building owners or operators. To meet these challenges, Wilo offers tailored, high-quality solutions for a drinking water supply that you can rely on.
Facilitating water supply
Especially in older buildings, the problem often occurs that the water pressure in the water pipes is too low. Raised water pressure is necessary to ensure correct usage of all devices. Wilo has an extremely wide range of pump system products that can meet these challenges. Part of this being, of course, a wide model range for drinking water supply. Our products promise excellent water quality, which fulfils all regulations. The expertise we have gained over many years shows that whether the water comes from the surface or from ground water has no impact on the quality.
Based on our extensive experience with building services projects, you can rely on our support, both at the design stage and during the implementation phase of your projects.
The correct drinking water installation
The water utility companies guarantee the water supply quality up to your building installation. However, the building owners or operators are responsible for the continued quality of the water until it emerges from the tap and reaches the end consumer. In order to fulfil this obligation and comply with the prescribed limit values, the carefully considered selection and installation of pipes and pumps is extremely important.
Professional installation
The professional installation of the pump system by a certified installer or contractor can avoid a wide range of problems, which protects your drinking water and prevents contamination. The installation contractor should only use products with a mark of conformity from an accredited certification body for the performance of their services. You are on the safe side with products from Wilo.
Our tips
- Work on your drinking water installation should only be carried out by specialist contractors.
- Treating water in a respectful and sustainable manner saves both money and energy.
- You should avoid disposing of poisonous substances or waste via the sewer system in order to conserve and maintain our drinking water resources.
- Getting a dripping tap repaired is not just relief for your nerves, it also lightens the load on your wallet and the environment. A dripping tap can waste over 1,000 litres of drinking water per annum.
- If water stands in the pipes for a long period, the resulting stagnant water can still easily be used for watering plants.
Wilo Building Services in the area of heating, air conditioning and cooling – your advantages at a glance
Powerful, easy-maintenance, reliable – these are the properties you can naturally expect from Wilo pumps. If you value top-rate performance, our high-efficiency pumps are the ones for you. Supplying a property with water and heat at all times puts high demands on a pump with regard to energy efficiency and resource conservation. Wilo meets these requirements using customised solutions and highly efficient technology. Our highly efficient heating systems achieve maximum efficiencies in doing so. This way, landlords and business owners can noticeably lower their operating costs and increase the value of their property in the long run.
Another plus: Products from Wilo are durable and very easy-maintenance, and guarantee you customised solutions and state-of-the-art technology.
Customised Solutions for your needs
Maximum efficiency is our premise across all applications. Therefore, we provide a wide range of energy-efficient solutions. From the single product to the complete system – with our Wilo solutions you are well-advised, no matter what the case. It makes no difference whether smaller pumps for residential buildings are concerned or larger systems for office buildings, hospitals or even airports, train stations or shopping centres. Our products are always equipped with a pioneering technology. Our coordinated and high-efficiency systems are complemented by a comprehensive service. For you, this means: a complete one-stop-shop offering.
Sewage is created wherever people live in buildings and can be split into the categories of wastewater and rainwater. Wastewater is usually piped straight into the sewer system and then treated at a wastewater treatment plant, so that it can be returned to the water cycle. However, rainwater can be drained both separately via a separation system or together with the wastewater using a mixing system. Developers and operators are advised to always draw up a drainage plan with a specialist planner to prevent surprises later on.
In order to ensure the drainage station remains operational, the individual elements such as the sewage lifting unit, backflow prevention devices and pipes must be maintained and cleaned at regular intervals. In cellars flooded by severe precipitation, the problem is usually caused by the lack of a shut-off device for the drainage points. As a not insignificant number of the drainage pipes installed in buildings leak or start to leak over time, it is recommended that you perform a leak test regularly to ensure that your sewage lifting unit does not pump sewage into the masonry and cause extensive damage. Wilo, as a premium manufacturer of high-quality pump systems, is pleased to be your first port of call for customer-oriented service and integrated system solutions.
Drainage of properties and buildings
For most people, smooth, trouble-free sewage removal is a normal state that is taken for granted. The importance of properly functioning building and property drainage stations usually only becomes apparent when the water no longer drains away properly.
Normally, problems occur in drainage stations due to damaged or broken pipes, which allow sewage and eroded earth to get into the ground water. This causes contamination, resulting in enormous costs due to longer pump running times in wastewater treatment plants. Severe erosion and washout of earth under roads can endanger the infrastructure in the vicinity. This is why property owners are obliged to ensure that correct operation of the drainage station is maintained. We are pleased to be at your side as a competent partner on all matters relating to care and maintenance.
Fields of application for drainage stations
Drainage stations are used both in domestic households and properties as well as in public facilities. Wilo drainage pumps have been used successfully for many years in underground and structural engineering, landscaping and in sports facilities. In addition to this, our pumps are used for extracting water from lakes and rivers, dewatering and in diverse drainage systems.
Fast, clean and reliable
Regardless of whether a shower, toilet, driveway or garage, we offer you an optimum solution for drainage in an emergency as well. It makes no difference whether a stationary or a portable installation is concerned. Our pumps are suited in this respect for both municipal sewage and rainwater. Our product portfolio for drainage and flood protection comprises sewage lifting units, basement drainage, wastewater pumps and even high-performance faeces lifting units. Our chief aim is to provide you with the most reliable product requiring the least amount of maintenance. The risk of flooding has increased significantly in recent years. When strongly contaminated water has to be disposed of – after flooding, for example – you need expert problem solvers. Wilo has developed a few true all-rounders to deal with challenging tasks like these, such as the Wilo-Drain TP series. The ultra-lightweight pumps are easy to transport and use. They are also characterised by a particularly heavy-duty plastic hydraulics system.
Reliable and sustainable system solutions for wastewater collection
Products and systems from Wilo set standards in terms of performance and efficiency. In addition, we provide you with support from the design phase, through to commissioning and the maintenance of your system. At Wilo, you get everything from one source: from domestic drainage, to pumps stations, intermediate and collection pumping stations, through to pressure drainage.
System solutions for properties with challenging conditions
Wherever there is no sewer system available and it is either impossible or uneconomical to build one, pressure drainage using pipes with small diameters is recommended. The new Wilo-Port 600 and Wilo-Port 800 pump chambers are designed for exactly these applications. The pump chamber bodies are made of heavy-duty, non-corroding polyethylene. They are anti-buoyant up to ground level. They are also durable and reliable.
Expertise in solids separation
For the drainage of commercial, public and industrial building complexes, there is need for a reliable solution that is financially incentivising. The Wilo-EMUport solids separation systems are a true innovation in the field of sewage disposal. They operate highly efficiently, entail only minimal operating costs and are easy to maintain. As only pre-treated sewage passes through the pump hydraulics, clogging is avoided and operational reliability is increased.
Perfect renewal of water resources
In view of global climate change, low energy consumption is a key issue in the market. The cost pressures on municipal or private suppliers are rising. The challenges are growing. These include increasing levels of solids in sewage, more and more regulations, and stricter legal requirements. Against this backdrop, Wilo is a partner you can depend on fully in all areas. The economical use of precious water resources almost goes without saying these days, although it also increases the share of solids in sewage to the same extent. The pumping of raw water is proving to be increasingly more complicated because of this. Wilo is synonymous throughout the world with a tradition of first-class German engineering. Wilo pumps and systems set new standards for municipal sewage treatment with regard to technical performance and efficiency. With respect to environmental protection and conservation of resources, sewage treatment plays an important role.
Intelligent solutions for the sewage treatment cycle
From design and configuration to commissioning and maintenance: our experts provide you with personal support in every phase of the project. Systems and product solutions from Wilo set new standards in technical performance, cost efficiency, reliability and durability.
We support you with solutions for
- Stormwater retention tanks
- Intake pumping stations
- Mechanical cleaning and primary treatment
- Biological cleaning
- Biological cleaning with MBBR
- Secondary treatment, discharge pumping station and sludge treatment
Garden irrigation and cleaning of outdoor areas – clever, inexpensive and environmentally friendly using rainwater
Rainwater utilisation systems from Wilo pump water directly to the extraction points in the property. Rational use of rainwater is clever, inexpensive and environmentally friendly. With specially designed systems from Wilo, about 50 % of the daily water requirement can be met using rainwater. This way, you can protect the environment and your household budget. Use the valuable liquid that nature provides: With rainwater, you can irrigate your garden and clean your outdoor areas, like patios or garden paths – an inexpensive and environmentally friendly alternative to using drinking water. A rainwater reservoir in combination with a needs-based rainwater utilisation system ensures uniform and low-noise irrigation. Sprinkling, watering, irrigating and cleaning – where drinking water is too expensive, rainwater utilisation is recommended, using a complete system from Wilo.
Continuous power at the highest level
Reliable supply of water in static high-lying taps. Fluctuating water consumption in different types of buildings, such as schools, hospitals or hotels, requires flexible systems which meet individual demands. When gravitational systems such as water towers cannot be used for the water supply due to spatial conditions, a system is required to boost the pressure. These systems provide adequate water pressure in high-rise buildings, in high-altitude inhabited areas and in plant systems, either in supply or circulation systems. Using Wilo pressure-boosting systems, you can ensure that water will be supplied reliably.
Customised Wilo solutions for optimal water pressure
Especially in the case of residential areas that have grown up over time or attic conversions, the pressure cannot be maintained above and immediately below water reservoirs. Therefore, a pressure-boosting system might also be required in residential buildings. Buildings such as apartment blocks, schools, hospitals and hotels place considerable demands on the water supply on all floors. Wilo provides flexible systems for pressure boosting for every installation location to enable a convenient and reliable supply of water. What’s more, a self-priming pump from Wilo is the ideal solution for outdoor cleaning purposes or for plant irrigation. It can be set up next to ponds, lakes, streams or rainwater barrels. This saves on costly precious tap water.
Solution for wells and surface waters
Wherever large quantities of water are needed, the extraction of surface water is also a frequent option. Water is pumped and transferred, for water purification for example, by using shallow wells in lakes or rivers.
The establishment and management of wells are major cost factors in water supply. Of great importance is extensive knowledge in geohydrology, water quality, water resource development options and materials, as well as flow conditions at the well. Having your own well or borehole makes you independent of expensive drinking water and rainwater that is only limitedly available. Wilo submersible pumps will help you pump ground water and irrigate larger areas reliably and easily.
Reliable solutions for all volume flows
Municipal suppliers as well as industry require large quantities of water on a daily basis. Efficient methods and the development of new sources such as desalinated seawater or aquifers (ground water pipes) are possible options for securing future supplies. Ecologically and economically high standards are already being applied to the production of water from lakes, dams, rivers, and seas. A well offers great potential for savings if the pump is operating at its optimum duty point. Wilo submersible pumps can be precisely adjusted to operating conditions. The installation depth and well yield determine which pump to use. The selection criteria are optimal efficiency for minimising energy costs and the use of suitable materials for long-term and maintenance-free pumping operation. In addition, precise trimming of the impeller diameter enables the desired delivery rates to be established precisely. This guarantees you an economical solution. We can handle even fluctuating water levels, for example behind dams, with optimum levels of efficiency and a high degree of operational reliability. For the extraction of water containing corrosive and abrasive elements we use resistant materials such as duplex and coatings like Ceram or Ceram CT. They withstand attacks from aggressive substances and allow long-term pumping operation.
Fire protection and drinking water
Fire-extinguishing and fire protection systems only get used in the event of a fire. They are filled with water and if not flushed, there is the danger that the water could become hygienically unsafe. If such systems are connected to a drinking water installation, they pose a danger to the drinking water. Stagnant water typically forms in fire-extinguishing systems. Stagnant water may lead to pathogenic germs forming. Under DIN 1988 and DIN EN 1717, process water systems such as fire-extinguishing systems are required to be isolated from public drinking water system, e.g. by means of free outflow protection devices (type: AA, AB). The potential hazard of bacteriological re-contamination of domestic and public drinking water systems has to be eliminated by law. In the drinking water separator station from WILO IndustrieSysteme, the certified free outflow type AB is integrated.
Ready for use in every instance
Different building situations, combined with different regional regulations, require specific solutions. Fire-extinguishing systems can be individually assembled with high-quality Wilo components. Profit from our expertise and our highly efficient pump technology. For example, with fully automatic water-supply units in a robust system made up of energy-efficient high-pressure centrifugal pumps and standard motors.
Wilo high-efficiency pumps for firefighting offer solutions specific to the industrial sector and ensure compliance with regional regulations. Our solutions meet the requirements of DIN 14462 for the maximum protection of people, goods and buildings. Just as important is the absolute operational reliability in the event of a fire.
Wilo offers high-quality complete systems for reliable and safe fire water usage. The fire-extinguishing systems from Wilo are particularly suitable
- For wall and exterior hydrants
- For sprinkler systems in addition to wall and exterior hydrants
- For high-rise buildings and properties
Beautiful mountains and long valleys are any walker’s dream. For a water utility company, however, this scenario sets a highly complex set of challenges. Efficient pumps that can constantly provide suitable pressure and good planning are necessary to reliably supply regions that have significant differences in elevation and numerous consumption points that are spread out.
However, even in areas that are less geographically striking, water still has to be transported over long distances and distributed. Especially in large cities with numerous tall and large buildings, distribution at the correct pressure is a challenge that should not be underestimated as it necessitates a huge distribution network of pipes.
Efficient pressure management from the waterworks to the
Reliable and trouble-free supply of water is necessary to guarantee the living standards and health of the population. Old pipework often constitutes a problem as it becomes porous when constantly subjected to water pressure. This, in turn, causes cracks through which water is lost. To prevent this sort of water loss, the water pipe system is constantly inspected by electronic devices. Another means of minimizing the losses due to excessive pressure in the pipes is the selection of the right pump with an efficient pressure management. Reliable, intelligent Wilo pumps ensure that the desired pressure is always provided to the end consumer and any losses and the associated costs are kept to an absolute minimum.
In the agricultural sector, a sustainable approach to the use of water is a basic requirement for the production of natural food under constantly changing climatic conditions. The changing climate noticeably affects production in many regions of the world. Irrigation is necessary under such conditions to secure the crop yields. Other conditions such as too little precipitation or severely fluctuating precipitation also necessitate irrigation to balance out the natural water supply. Irrigation is the key to turning vast areas into usable, fertile land, which would otherwise lie dry and barren. For this reason, artificial irrigation is used worldwide for the husbandry of around 150 million hectares of land.
Modern irrigation systems for agriculture
Modern field irrigation provides differing options for supplying the root systems with ample amounts of water. The water requirement depends significantly on the type of crop sown, the soil conditions and the climate.
Applications in professional irrigation/agriculture
Differing pump systems and irrigation systems are needed to ensure all plants get enough water. Especially in dry regions, it is important to extract and deliver irrigation water as effectively as possible. Wilo has the necessary expertise and the right technologies. Wilo borehole pumps and turbines ensure, for example, that water can be drawn from the ground or from water pipes to safeguard the required supply.
Not all farmers have the same conditions for pumping water. That is why Wilo has developed pumps that can be positioned freely. For example, they can be located quite feasibly on a float to simply pump water from a river or lake. Wilo’s glanded pumps are tried and trusted in practice. They allow you draw off the amount of water you require regardless of the respective water level and transport it precisely to where it is needed.
On large flat surfaces there is often not enough water pressure to secure supply, especially where water levels fluctuate severely. This is where high-efficiency pressure-boosting systems from Wilo come in. They make sure that all of the plants on your fields aresufficiently watered at the right water pressure. That guarantees supply at a constant pressure, even with fluctuating water levels; all done in the most energy-efficient manner possible.
Series Description
Scope of delivery
- Pump
- Including thermal insulation
- Including seals for threaded connection
- Incl. washers for flange screws (for nominal connection diameters DN 32 - DN 65)
- Including installation and operating instructions
Special features/product advantages
- Energy savings through greater system efficiency with the Q-Limit function (volume flow limiter)
- Improved Energy Efficiency Index (EEI) ≤0.20 for all single pumps.
- Optimised display for better readability and operation
- Space-saving installation due to compact design and location-dependent LC display
- Modular concept for connection of all conventional bus systems (e.g. Modbus, BACnet, CAN, LON and PLR)
- Tried and tested quality and reliability
Design type
Glandless circulation pump with threaded connection or flange connection, EC motor with automatic power adjustment.
Application
Hot-water heating systems of all kinds, air-conditioning systems, closed cooling circuits, industrial circulation systems.
Equipment/function
Operating modes
- Manual control mode (n=constant)
- p-c for constant differential pressure
- p-v for variable differential pressure
- p-T for temperature-controlled differential pressure (programmable via IR-Stick, IR-Monitor, Modbus, BACnet, LON or CAN)
- Q limit for limiting the maximum volume flow (setting only via IR-stick)
Manual functions
- Setting the operating mode
- Differential pressure setpoint setting
- Setting automatic setback operation
- Setting the pump ON/OFF
- Setting the speed (manual control mode)
Automatic functions
- Infinitely variable power adjustment according to the operating mode
- Automatic setback operation
- Deblocking function
- Soft start
- Full motor protection with integrated trip electronics
External control functions
- "Overriding Off" control input (possible with Stratos IF-Modules)
- "Overriding Min" control input (possible with Stratos IF-Modules)
- "Analogue In 0 - 10 V" control input (remote speed adjustment) (possible with Stratos IF-Modules)
- "Analogue In 0 - 10 V" control input (remote setpoint adjustment) (possible with Stratos IF-Modules)
Signal and display functions
- Collective fault signal (potential-free NC contact)
- Individual run signal (potential-free NO contact) (possible with Stratos IF-Modules)
- Fault signal light
- LCD display for indication of pump data and fault codes
Data exchange
- Infrared interface for wireless data exchange with IR-Stick/IR-Monitor
- Modbus RTU serial digital interface for connection to building automation BA via RS485 BUS system (possible with Stratos IF-Modules)
- BACnet serial digital interface MS/TP Slave for connection to building automation BA via RS485 BUS system (possible with Stratos IF-Modules)
- CAN serial digital interface for connection to building automation BA via CAN BUS system (possible with Stratos IF-Modules)
- LON serial digital interface for connection to a LONWorks network (possible with Stratos IF-Modules)
- PLR serial digital interface for connection to BA via Wilo interface converter or company-specific coupling modules (possible with Stratos IF-Modules)
Dual pump management (twin-head pump or 2 x single pumps)
- Main/standby operation (automatic fault-actuated switchover/time-dependent pump cycling): various combinations with Stratos IF-Modules (accessories) possible
- Parallel operation (efficiency-optimised peak load activation and deactivation): various combinations with Stratos IF-Modules (accessories) possible
Equipment
- Wrench attachment point at pump body (for threaded pipe union pumps with P2< 100 W)
- For flange-end pumps: Flange versions
- Standard version for DN 32 to DN 65 pumps: PN 6/10 combination flange (PN 16 flange according to EN 1092-2) for PN 6 and PN 16 counter flanges
- Standard version for DN 80/DN 100 pumps: PN 6 flange (designed for PN 16 according to EN 1092-2) for PN 6 counter flange
- Special version for DN 32 to DN 100 pumps: PN 16 flange (according to EN 1092-2) for PN 16 counter flange
- Plug-in position for optional extension with Wilo-IF-Modules
- Thermal insulation as standard for heating applications
Type key
| Example: | Wilo-Stratos 30/1-12 |
| Stratos | High-efficiency pump (screw-end or flange-end pump), electronically controlled |
| 30/ | Nominal connection diameter |
| 1-12 | Nominal delivery head range [m] |
Technical data
- Permissible temperature range --10°C to +110°C
- Mains connection 1~230 V, 50/60 Hz
- Protection class IP X4D
- Screwed connection or flange connection (depending on type) Rp 1 to DN 100
- Max. operating pressure, standard version: 6/10 bar or 6 bar (special version: 10 bar or 16 bar)
Materials
- Pump housing: Grey cast iron with cataphoretic coating
- Thermal insulation: Polypropylene
- Shaft: stainless steel
- Bearing: Carbon, metal impregnated
- Impeller: Plastic
Description/construction
- Glandless circulation pump with EC motor and integrated automatic power adjustment
- Red button technology and graphic display
- Motor protection with trip electronics
- Plug connection for functional extension with optional IF-Module for building automation (BA)
- Impeller with three-dimensionally curved blades and plastic can made of carbon fiber composite material
Downloads
REACH Regulation
| Edition | 2018-10 |
| Page format | 209.9 x 296.7 mm |
| Number of pages | 4 |
PDF (581 kB)
General overview 2018 International version
| Article Number | 2200591 |
| Edition | 2018 |
| Version number | 1 |
| Page format | 209.9 x 297.0 mm |
| Number of pages | 72 |
PDF (11 MB)
Wilo-IF module Stratos CAN
| Article Number | 2096947 |
| Edition | 1103 |
| Version number | 02 |
| Page format | A4 |
| Number of pages | 2 |
PDF (379 kB)
Product
| Product description | Mains connection | Energy efficiency index (EEI) | Max. volume flow Q | Max. delivery head H | Maximum operating pressure PN | Pump connection | Port-to-port length l0 | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|---|---|---|---|
| Stratos 25/1-6 | 1~230 V, 50/60 Hz | 0.20 | 7.6 m³/h | 6.00 m | 10 bar | G 1½ | 180 mm | 4.8 kg | 2090447 |
| Stratos 25/1-8 | 1~230 V, 50/60 Hz | 0.20 | 8.8 m³/h | 8.00 m | 10 bar | G 1½ | 180 mm | 4.8 kg | 2090448 |
| Stratos 30/1-6 | 1~230 V, 50/60 Hz | 0.20 | 7.6 m³/h | 6.00 m | 10 bar | G 2 | 180 mm | 4.8 kg | 2090449 |
| Stratos 30/1-8 | 1~230 V, 50/60 Hz | 0.20 | 8.8 m³/h | 8.00 m | 10 bar | G 2 | 180 mm | 4.8 kg | 2090450 |
| Stratos 30/1-12 | 1~230 V, 50/60 Hz | 0.20 | 12 m³/h | 12.00 m | 10 bar | G 2 | 180 mm | 6.3 kg | 2090451 |
| Stratos 25/1-10 | 1~230 V, 50/60 Hz | 0.20 | 8 m³/h | 10.00 m | 10 bar | G 1½ | 180 mm | 4.8 kg | 2103615 |
| Stratos 30/1-10 | 1~230 V, 50/60 Hz | 0.20 | 8 m³/h | 10.00 m | 10 bar | G 2 | 180 mm | 4.9 kg | 2103616 |
| Stratos 25/1-4 | 1~230 V, 50/60 Hz | 0.20 | 5.5 m³/h | 4.00 m | 10 bar | G 1½ | 180 mm | 4.8 kg | 2104225 |
| Stratos 30/1-4 | 1~230 V, 50/60 Hz | 0.20 | 5.5 m³/h | 4.00 m | 10 bar | G 2 | 180 mm | 4.8 kg | 2104226 |
| Stratos 25/1-12 | 1~230 V, 50/60 Hz | 0.20 | 12 m³/h | 12.00 m | 10 bar | G 1½ | 180 mm | 6.2 kg | 2104941 |
| Stratos 25/1-8 | 1~230 V, 50/60 Hz | 0.20 | 8.8 m³/h | 8.00 m | 10 bar | G 1½ | 180 mm | 4.8 kg | 2063363 |
| Stratos 25/1-6 | 1~230 V, 50/60 Hz | 0.20 | 7.6 m³/h | 6.00 m | 16 bar | G 1½ | 180 mm | 4.8 kg | 2065097 |
Series Description
Scope of delivery
- Pump
- Seals
- Installation and operating instructions
Type key
| Example: | Wilo-Star-RS 25/4 |
| Star-RS | Standard pump (screw-end pump) |
| 25/ | Nominal connection diameter Rp |
| 4 | Nominal delivery head [m] at Q = 0 m3/ h |
Technical data
- Permissible temperature range -10°C to +110°C
- Mains connection 1~230 V, 50 Hz
- Protection class IP 44
- Threaded connection Rp ½, Rp 1 or Rp 1¼
- Max. operating pressure 10 bar
Materials
- Pump housing: Grey cast iron
- Impeller: Plastic
- Shaft: stainless steel
- Bearing: Carbon, metal impregnated
Special features/product advantages
- Suitable for any installation location with a horizontal shaft; terminal box in 3-6-9-12 o'clock position
- Three preselectable speed stages for load adjustment
- Easy and safe installation due to practical wrench attachment point on pump body
- Simplified electrical installation due to terminal box with removable threaded cable connection that can be used on both sides; quick connection with spring clips
Design type
Glandless circulation pump with threaded connection. Preselectable speed stages for power adjustment
Application
Hot-water heating systems of all kinds, industrial circulation systems, cold water systems and air-conditioning systems
Equipment/function
Operating modes
- Speed-stage switching
Manual functions
- Setting of speed stages (3 speed stages)
Equipment
- Wrench attachment point on pump body
- Cable lead-in possible on both sides
- Quick connection with spring clips
- Blocking current-proof motor
Downloads
Product
| Product description | Mains connection | Pump connection | Nominal flange diameter | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|
| Star-RS 25/2 | 1~230 V, 50 Hz | G 1½ | G 1½ | 2.5 kg | 4032952 |
| Star-RS 25/4 | 1~230 V, 50 Hz | G 1½ | G 1½ | 2.5 kg | 4032954 |
| Star-RS 25/6 | 1~230 V, 50 Hz | G 1½ | G 1½ | 2.7 kg | 4032956 |
| Star-RS 30/2 | 1~230 V, 50 Hz | G 2 | G 2 | 2.7 kg | 4033760 |
| Star-RS 30/4 | 1~230 V, 50 Hz | G 2 | G 2 | 2.7 kg | 4033765 |
| Star-RS 30/6 | 1~230 V, 50 Hz | G 2 | G 2 | 2.8 kg | 4033770 |
| Star-RS 25/4-130 | 1~230 V, 50 Hz | G 1½ | G 1½ | 2.3 kg | 4033776 |
| Star-RS 25/6-130 | 1~230 V, 50 Hz | G 1½ | G 1½ | 2.5 kg | 4033782 |
| Star-RS 25/4-RG | 1~230 V, 50 Hz | G 1½ | G 1½ | 2.7 kg | 4035758 |
| Star-RS 25/6-RG | 1~230 V, 50 Hz | G 1½ | G 1½ | 2.8 kg | 4035761 |
| Star-RS 25/7 | 1~230 V, 50 Hz | G 1½ | G 1½ | 2.9 kg | 4037310 |
| Star-RS 30/7 | 1~230 V, 50 Hz | G 2 | G 2 | 3.0 kg | 4037311 |
Series Description
Scope of delivery
- Pump
- Thermal insulation
- Including seals for threaded connection
- Washers for flange screws (for nominal connection diameters DN 40 - DN 65)
- Installation and operating instructions
Type key
| Example: | TOP‐S 40/10 |
| TOP-S | Standard pump (screw-end pump or flange-end pump) |
| 40/ | Nominal connection diameter |
| 10 | Nominal delivery head [m] at Q = 0 m3/ h |
Technical data
- Permitted temperature range -20 °C to +130 °C, for short periods (2 h) to +140 °C (TOP-S 25/13, 80/15, 80/20: -20 °C to +110 °C)
- Mains connection:
- 1~230 V, 50 Hz (depending on type)
- 3~230 V, 50 Hz (with optional switching plug)
- 3~400 V, 50 Hz
- Protection class IP X4D
- Screwed connection or flange connection (depending on type) Rp 1 to DN 100
- Max. operating pressure of standard version: 6/10 bar or 6 bar (special version: 10 bar)
Materials
- Pump housing: Grey cast iron
- Impeller: Plastic
- Shaft: stainless steel
- Bearing: Carbon, metal impregnated
Special features/product advantages
- Direction of rotation signal lamp for displaying the correct sense of rotation (only with 3~)
- Manual power adjustment with 3 speed stages
- Pump housing with cataphoretic coating (KTL) protects against corrosion due to condensation formation
Design type
Glandless circulation pump with screwed connection or flange connection.
Application
Hot-water heating systems of all kinds, industrial circulation systems, air-conditioning systems and closed cooling circuits
Equipment/function
Operating modes
- Speed-stage switching
Manual functions
- Setting the speed stages: 3 speed stages (2 speed stages for 1~ pumps with P2 ≥ 350 W)
Automatic functions
- Internal protection against non-approved high winding temperatures (only for pumps for which P2 ≤180 W)
Signal and display functions
- Thermal winding contact (WSK, potential-free NC contact) only for pumps for which P2 ≥180 W) for full motor protection in all speed levels with optional tripping unit SK 602N/SK 622N
- Direction of rotation control light (only for 3~pumps )
- Display of selected speed stage
Dual pump management (twin-head pump or 2 x single pumps)
- Main/standby operation or parallel operation (for automatic fault-actuated switchover/time-dependent pump cycling, a corresponding switchgear must be provided on-site)
Equipment
- For flange-end pumps: Flange versions
- Standard version for DN 40 to DN 65 pumps: PN 6/10 combination flange (PN 16 flange according to EN 1092-2) for PN 6 and PN 16 counter flanges,
- Standard version for DN 80/DN 100 pumps: PN 6 flange (designed for PN 16 according to EN 1092-2) for PN 6 counter flange
- Cable inlet possible from both sides (only for 1~pumps and 3~pumps with P2≥180 W)
- Thermal insulation as standard for heating applications
Downloads
Product
| Product description | Mains connection | Pump connection | Nominal flange diameter | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|
| TOP-S 25/5 (1~230 V, PN 10) | 1~230 V, 50 Hz | G 1½ | G 1½ | 4.4 kg | 2044009 |
| TOP-S 25/5 (3~400/230 V, PN 10) | 3~400 V, 50 Hz | G 1½ | G 1½ | 4.6 kg | 2044010 |
| TOP-S 25/7 (1~230 V, PN 10) | 1~230 V, 50 Hz | G 1½ | G 1½ | 5.3 kg | 2048320 |
| TOP-S 25/7 (3~400/230 V, PN 10) | 3~400 V, 50 Hz | G 1½ | G 1½ | 5.3 kg | 2048321 |
| TOP-S 25/10 (1~230 V, PN 10) | 1~230 V, 50 Hz | G 1½ | G 1½ | 7.1 kg | 2061962 |
| TOP-S 25/13 (1~230 V, PN 10) | 1~230 V, 50 Hz | G 1½ | G 1½ | 5.5 kg | 2084440 |
| TOP-S 25/13 (3~400/230 V, PN 10) | 3~400 V, 50 Hz | G 1½ | G 1½ | 5.5 kg | 2084441 |
| TOP-S 25/10 (3~400/230 V, PN 6/10) | 3~400 V, 50 Hz | G 1½ | G 1½ | 7.0 kg | 2165521 |
| TOP-S 30/4 (1~230 V, PN 10) | 1~230 V, 50 Hz | G 2 | G 2 | 5.1 kg | 2044011 |
| TOP-S 30/4 (3~400/230 V, PN 10) | 3~400 V, 50 Hz | G 2 | G 2 | 5.1 kg | 2044012 |
| TOP-S 30/5 (1~230 V, PN 10) | 1~230 V, 50 Hz | G 2 | G 2 | 4.6 kg | 2044013 |
| TOP-S 30/5 (3~400/230 V, PN 10) | 3~400 V, 50 Hz | G 2 | G 2 | 4.7 kg | 2044014 |
Series Description
Type key
| Example | IL 40/160-4/2 |
| IL | In-line pump |
| 40 | Nominal diameter DN of the pipe connection |
| 160 | Nominal impeller diameter |
| 4 | Rated motor power P2 in kW |
| 2 | Number of poles |
Technical data
- Permissible temperature range -20 °C to +140 °C
- Mains connection 3~400 V, 50 Hz (others on request)
- Protection class IP 55
- Nominal diameter DN 32 to DN 250
- Max. operating pressure 16 bar (25 bar on request)
Materials
- Pump housing and lantern: Standard: EN-GJL-250; optionally spheroidal cast iron EN-GJS-400-18-LT
- Impeller: Standard: EN-GJL-200; special version: Bronze CuSn 10
- Shaft: 1.4122
- Mechanical seal: AQEGG; other mechanical seals on request
Description/construction
Single-stage, low-pressure centrifugal pump in in-line design with
- Mechanical seal
- Flange connection with pressure measuring connection R 1/8
- Lantern
- Coupling
- IEC standard motor
Special features/product advantages
- Reduced life cycle costs thanks to optimized efficiency
- Standard condensate drainage holes in the motor housings
- Can be used flexibly in air-conditioning and cooling systems, with application benefits due to direct draining of condensate via optimised lantern design (patented)
- High standard of corrosion protection thanks to cataphoretic coating
- High worldwide availability of standard motors (according to Wilo specifications) and standard mechanical seals
Design type
Glanded pump in in-line design with flange connection
Application
Pumping of heating water (acc. to VDI 2035), cold water and water/glycol mixtures without abrasive substances in heating, cold water and cooling systems.
Scope of delivery
- Pump
- Installation and operating instructions
Downloads
Products
| Product description | Mains connection | Motor efficiency class | Rated power P2 | Port-to-port length l0 | Nominal flange diameter | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|---|---|
| CronoLine-IL 32/140-1,5/2 | 3~400 V, 50 Hz | IE3 | 1.50 kW | 320 mm | DN 32 | 57.7 kg | 2120862 |
| CronoLine-IL 32/150-2,2/2 | 3~400 V, 50 Hz | IE3 | 2.20 kW | 320 mm | DN 32 | 60.2 kg | 2120863 |
| CronoLine-IL 32/160-2,2/2 | 3~400 V, 50 Hz | IE3 | 2.20 kW | 320 mm | DN 32 | 60.2 kg | 2120864 |
| CronoLine-IL 32/160-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | 320 mm | DN 32 | 63.8 kg | 2120865 |
| CronoLine-IL 32/170-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | 320 mm | DN 32 | 63.8 kg | 2120866 |
| CronoLine-IL 32/170-4/2 | 3~400 V, 50 Hz | IE3 | 4.00 kW | 320 mm | DN 32 | 71.4 kg | 2120867 |
| CronoLine-IL 40/140-2,2/2 | 3~400 V, 50 Hz | IE3 | 2.20 kW | 340 mm | DN 40 | 61.2 kg | 2120868 |
| CronoLine-IL 40/150-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | 340 mm | DN 40 | 65.8 kg | 2120869 |
| CronoLine-IL 40/160-4/2 | 3~400 V, 50 Hz | IE3 | 4.00 kW | 340 mm | DN 40 | 70.7 kg | 2120870 |
| CronoLine-IL 40/170-5,5/2 | 3~400 V, 50 Hz | IE3 | 5.50 kW | 340 mm | DN 40 | 93.5 kg | 2120871 |
| CronoLine-IL 40/200-7,5/2 | 3~400 V, 50 Hz | IE3 | 7.50 kW | 440 mm | DN 40 | 131.0 kg | 2120872 |
| CronoLine-IL 40/220-11/2 | 3~400 V, 50 Hz | IE3 | 11.00 kW | 440 mm | DN 40 | 179.0 kg | 2120873 |
Series Description
Type key
| Example | NL 40/200B-11/2 |
| NL | Standard pump with axial suction |
| 40 | DN for the pressure flange |
| 200 | Impeller nominal diameter [mm] |
| B | Hydraulic version |
| 11 | Rated power P2 [kW] |
| 2 | Number of poles |
Technical data
- Permissible temperature range of -20°C to +120°C
- Mains connection 3~400 V, 50 Hz
- Protection class IP 55
- Nominal diameter DN 32 to DN 150
- Max. operating pressure 16 bar
Materials
- Pump housing and pressure lid: EN-GJL-250
- Bearing bracket: EN-GJL-250
- impeller: EN-GJL-250 (special version: G-CuSn10)
- Shaft: X20Cr13
- Mechanical seal: AQ1EGG (other mechanical seals on request)
Description/construction
- Single-level, low-pressure centrifugal pump as baseplate pump with axial suction ports with flanged bearing bracket and axle fastening for flexibly coupled drives
- Spacer coupling (sleeve coupling) available optionally, they provide the option to leave the motor in position when dismantling the rotor unit
Special features/product advantages
- Reduced life-cycle costs through optimised efficiency levels
- Bidirectional, force-flushed mechanical seal
- Low NPSH values, best cavitation properties
- Shaft coupling with or without spacer coupling
Design type
Single-stage, low-pressure centrifugal pump with axial suction, mounted on a baseplate.
Application
- Pumping of heating water (acc. to VDI 2035), cold water and water/glycol mixtures without abrasive substances in heating, cold water and cooling systems.
- Applications for irrigation, building services, general industry, power stations, etc.
Equipment/function
Single-stage low-pressure centrifugal pump in monobloc design with coupling, coupling guard, motor and baseplate
- Mechanical shaft seal or stuffing box
Scope of delivery
- Pump
- Installation and operating instructions
- Pump with free shaft end or
- Pump on baseplate with coupling and coupling guard, without motor or
- Completely mounted pump on baseplate with electric motor
Downloads
Products
| Product description | Rated power P2 | Article number |
|---|---|---|
| CronoNorm-NL 32/125-0.55/2 | 0.55 kW | 4108876 |
| CronoNorm-NL 32/125-0.75/2 | 0.75 kW | 4108878 |
| CronoNorm-NL 32/125-1.1/2 | 1.10 kW | 4108880 |
| CronoNorm-NL 32/125-1.5/2 | 1.50 kW | 4108882 |
| CronoNorm-NL 32/125-2.2/2 | 2.20 kW | 4108884 |
| CronoNorm-NL 32/160-1.5/2 | 1.50 kW | 4108892 |
| CronoNorm-NL 32/160-2.2/2 | 2.20 kW | 4108894 |
| CronoNorm-NL 32/160-3/2 | 3.00 kW | 4108896 |
| CronoNorm-NL 32/160-4/2 | 4.00 kW | 4108898 |
| CronoNorm-NL 32/160-5.5/2 | 5.50 kW | 4108900 |
| CronoNorm-NL 32/200-2.2/2 | 2.20 kW | 4108910 |
| CronoNorm-NL 32/200-3/2 | 3.00 kW | 4108912 |
Series Description
Type key
| Example | DL 40/160‐4/2 |
| DL | In-line twin-head pump |
| 40 | Nominal diameter DN of the pipe connection |
| 160 | Nominal impeller diameter |
| 4 | Rated motor power P2 in kW |
| 2 | Number of poles |
Technical data
- Permissible temperature range -20 °C to +140 °C
- Mains connection 3~400 V, 50 Hz (others on request)
- Protection class IP 55
- Nominal diameter DN 32 to DN 200
- Max. operating pressure 16 bar
Materials
- Pump housing and lantern: Standard: EN-GJL-250
- Impeller: Standard: EN-GJL-200; special version: Bronze CuSn 10
- Shaft: 1.4122
- Mechanical seal: AQEGG; other mechanical seals on request
Description/construction
Single-stage, low-pressure twin-head pump in in-line design with
- Switchover valve
- Mechanical seal
- Flange connection with pressure measuring connection R 1/8
- Lantern
- Coupling
- IEC standard motor
Special features/product advantages
- Reduced life cycle costs through optimised efficiency
- Can be used flexibly in air-conditioning and cooling systems, with application benefits due to direct draining of condensate via optimised lantern design (patented)
- High standard of corrosion protection thanks to cataphoretic coating
- Main/standby mode or peak-load operation (by means of external auxiliary device)
Design type
Glanded twin-head pump in in-line design with flange connection
Application
Pumping of heating water (acc. to VDI 2035), cold water and water/glycol mixtures without abrasive substances in heating, cold water and cooling systems.
Equipment/function
NO VALUE
Scope of delivery
- Pump
- Installation and operating instructions
Downloads
Products
| Product description | Mains connection | Motor efficiency class | Rated power P2 | Port-to-port length l0 | Nominal flange diameter | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|---|---|
| CronoTwin-DL 32/140-1,5/2 | 3~400 V, 50 Hz | IE3 | 1.50 kW | 320 mm | DN 32 | 133.3 kg | 2121010 |
| CronoTwin-DL 32/150-2,2/2 | 3~400 V, 50 Hz | IE3 | 2.20 kW | 320 mm | DN 32 | 138.3 kg | 2121011 |
| CronoTwin-DL 32/160-2,2/2 | 3~400 V, 50 Hz | IE3 | 2.20 kW | 320 mm | DN 32 | 138.3 kg | 2121012 |
| CronoTwin-DL 32/160-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | 320 mm | DN 32 | 146.5 kg | 2121013 |
| CronoTwin-DL 32/170-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | 320 mm | DN 32 | 146.5 kg | 2121014 |
| CronoTwin-DL 32/170-4/2 | 3~400 V, 50 Hz | IE3 | 4.00 kW | 320 mm | DN 32 | 161.7 kg | 2121015 |
| CronoTwin-DL 50/110-1,5/2 | 3~400 V, 50 Hz | IE3 | 1.50 kW | 340 mm | DN 50 | 129.5 kg | 2121022 |
| CronoTwin-DL 50/120-2,2/2 | 3~400 V, 50 Hz | IE3 | 2.20 kW | 340 mm | DN 50 | 132.2 kg | 2121023 |
| CronoTwin-DL 50/130-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | 340 mm | DN 50 | 144.1 kg | 2121024 |
| CronoTwin-DL 50/140-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | 340 mm | DN 50 | 141.8 kg | 2121025 |
| CronoTwin-DL 50/140-4/2 | 3~400 V, 50 Hz | IE3 | 4.00 kW | 340 mm | DN 50 | 157.0 kg | 2121026 |
| CronoTwin-DL 50/160-5,5/2 | 3~400 V, 50 Hz | IE3 | 5.50 kW | 340 mm | DN 50 | 202.2 kg | 2121027 |
Series Description
Scope of delivery
- Pump
- Installation and operating instructions
Type key
| Example | BL 40/160-4/2 |
| BL | Monobloc pump |
| 40 | Nominal diameter DN of the pipe connection (pressure port) |
| 160 | Nominal impeller diameter |
| 4 | Rated power P2 in kW |
| 2 | Number of poles |
Technical data
- Permissible temperature range of -20 °C to +140 °C
- Mains connection 3~400 V, 50 Hz (others on request)
- Protection class IP55
- Nominal diameter DN 32 to DN 150
- Max. operating pressure 16 bar (optionally 25 bar on request)
Materials
- Pump housing and lantern: Standard: EN-GJL-250; optional: Spheroidal cast iron EN-GJS-400-18-LT (depending on type)
- Impeller: Standard: EN-GJL-200; special version: Bronze CuSn 10 stainless steel 1.4408 (depending on type)
- Shaft: 1.4122
- Mechanical seal: AQEGG; other mechanical seals on request
Description/construction
Single-stage low-pressure centrifugal pump in monobloc design, with axial suction port and radially arranged pressure port with Flange connection with pressure measuring connection
Special features/product advantages
- Energy-efficient due to state-of-the-art pump hydraulics and the use of IE3 motors
- Cataphoretic coating of all cast iron components ensures high resistance to corrosion and long service life
- Universal use in diverse applications thanks to different impeller materials, several motor options as well as different mechanical seals
- Easy installation due to standard pump support feet and optional supporting blocks
- Easy maintenance and user-friendly design with optional “back pull-out” design and cartridge mechanical seal for large pump types
Description
The legal requirements and regulations pertaining to drinking water are becoming ever more stringent, especially in highly-developed countries. Increasing demands are therefore being placed on the materials in the pumps and systems that are used. At the same time, global megatrends such as urbanisation are escalating the need to rely on ever more efficient systems. The Wilo-CronoBloc is our solution due to its high efficiency and drinking water approval.
Design type
Glanded pump in block design with flange connection
Application
For pumping heating water (in accordance with VDI 2035), water-glycol mixtures, cooling water and cold water without abrasive substances in heating, cold water and cooling water systems.
Downloads
Products
| Product description | Mains connection | Motor efficiency class | Rated power P2 | Nominal flange diameter | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|---|
| CronoBloc-BL 32/140-2,2/2 | 3~400 V, 50 Hz | IE3 | 2.20 kW | DN 32 | 59.0 kg | 2121125 |
| CronoBloc-BL 32/150-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | DN 32 | 62.0 kg | 2121126 |
| CronoBloc-BL 32/160-4/2 | 3~400 V, 50 Hz | IE3 | 4.00 kW | DN 32 | 70.0 kg | 2121127 |
| CronoBloc-BL 32/170-5,5/2 | 3~400 V, 50 Hz | IE3 | 5.50 kW | DN 32 | 95.0 kg | 2121128 |
| CronoBloc-BL 32/210-7,5/2 | 3~400 V, 50 Hz | IE3 | 7.50 kW | DN 32 | 106.5 kg | 2121129 |
| CronoBloc-BL 32/220-11/2 | 3~400 V, 50 Hz | IE3 | 11.00 kW | DN 32 | 179.0 kg | 2121130 |
| CronoBloc-BL 40/110-1,5/2 | 3~400 V, 50 Hz | IE3 | 1.50 kW | DN 40 | 52.0 kg | 2121131 |
| CronoBloc-BL 40/120-2,2/2 | 3~400 V, 50 Hz | IE3 | 2.20 kW | DN 40 | 55.0 kg | 2121132 |
| CronoBloc-BL 40/130-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | DN 40 | 56.0 kg | 2121133 |
| CronoBloc-BL 40/140-3/2 | 3~400 V, 50 Hz | IE3 | 3.00 kW | DN 40 | 59.0 kg | 2121134 |
| CronoBloc-BL 40/140-4/2 | 3~400 V, 50 Hz | IE3 | 4.00 kW | DN 40 | 67.0 kg | 2121135 |
| CronoBloc-BL 40/160-5,5/2 | 3~400 V, 50 Hz | IE3 | 5.50 kW | DN 40 | 97.0 kg | 2121136 |
Series Description
Scope of delivery
- Pump
- Installation and operating instructions
Type key
| Example | IL-E 50/170-7,5/2-R1 |
| IL-E | In-line pump with electronic control |
| 50 | Nominal diameter DN of the pipe connection |
| 170 | Nominal impeller diameter |
| 7.5 | Rated motor power P2 in kW |
| 2 | Number of poles |
| R1 | Version without pressure sensor |
Technical data
- Permissible temperature range of -20 °C to +140 °C
- Mains connection
- 3~440 V ±10 %, 50/60 Hz
- 3~400 V ±10 %, 50/60 Hz
- 3~380 V -5 % +10 %, 50/60 Hz
- Protection class IP 55
- Nominal diameter DN 40 to DN 200
- Max. operating pressure 16 bar
Materials
- Pump housing and lantern: EN-GJL-250
- Impeller
- Standard version: EN-GJL-200
- Special version: Bronze CuSn 10
- Shaft: 1.4122
- Mechanical seal: AQEGG; other mechanical seals on request
Description/construction
Single-stage, low-pressure centrifugal pump in in-line design with
- Mechanical seal
- Flange connection
- Lantern
- Coupling
- Drive with integrated electronic speed control
Special features/product advantages
- Energy savings due to integrated electronic power adjustment
- Optional interfaces for bus communication using plug-in IF-Modules
- Simple operation with Green Button Technology and display
- Integrated dual pump management
- Integrated full motor protection (PTC thermistor sensor) with trip electronics
Design type
Electronically controlled glanded single pump in in-line design with flange connection and automatic power adjustment
Application
Pumping of heating water (acc. to VDI 2035), cold water and water/glycol mixtures without abrasive substances in heating, cold water and cooling systems.
Equipment/function
Operating modes
- Δp-c for constant differential pressure
- Δp-v for variable differential pressure
- PID control
- Constant speed (n=constant)
Manual operation level
- Green button and display
Manual functions
- Differential pressure setpoint setting
- Setting the speed (manual control mode)
- Setting the operating mode
- Setting the pump ON/OFF
- Configuration of all operating parameters
- Fault acknowledgement
External control functions
- "Overriding Off" control input
- “External pump cycling” control input (effective only in dual pump operation)
- Analogue input 0 – 10 V, 0 – 20 mA for constant speed (DDC) and remote setpoint adjustment
- Analogue input 2 – 10 V, 4 – 20 mA for constant speed (DDC) and remote setpoint adjustment
- Analogue input 0 – 10 V for actual value signal from pressure sensor
- Analogue input 2 – 10 V, 0 – 20 mA, 4 – 20 mA for actual value signal from pressure sensor
Signal and display functions
- Collective fault signal SSM
- Collective run signal SBM
Data exchange
- Infrared interface for wireless data exchange with IR-Monitor/IR-Stick
- Plug-in position for Wilo IF-Modules (Modbus, BACnet, CAN, PLR, LON) for connection to building automation
Safety functions
- Full motor protection with integrated trip electronics
- Access disable
Dual pump management (twin-head pump or 2 x single pumps)
- Main/standby operation (automatic fault-actuated switchover)
- Pump cycling main/standby operation after 24 hours
- Parallel operation
- Parallel operation (efficiency-optimised peak-load activation and deactivation)
Downloads
REACH Regulation
| Edition | 2018-10 |
| Page format | 209.9 x 296.7 mm |
| Number of pages | 4 |
PDF (581 kB)
General overview 2018 International version
| Article Number | 2200591 |
| Edition | 2018 |
| Version number | 1 |
| Page format | 209.9 x 297.0 mm |
| Number of pages | 72 |
PDF (11 MB)
Wilo-CronoLine-IL-E/DL-E/BL-E
| Article Number | 2160196 |
| Edition | 2017-12 |
| Version number | 03 |
| Page format | 209.9 x 297.0 mm |
| Number of pages | 261 |
PDF (25 MB)
Products
| Product description | Motor efficiency class | Mains connection | Version | Rated power P2 | Pump connection | Port-to-port length l0 | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|---|---|---|
| CronoLine-IL-E 40/220-11/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 11.00 kW | DN 40 | 440 mm | 231.0 kg | 2153737 |
| CronoLine-IL-E 50/210-11/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 11.00 kW | DN 50 | 440 mm | 260.0 kg | 2153738 |
| CronoLine-IL-E 50/220-15/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 15.00 kW | DN 50 | 440 mm | 262.0 kg | 2153739 |
| CronoLine-IL-E 65/170-11/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 11.00 kW | DN 65 | 430 mm | 208.0 kg | 2153740 |
| CronoLine-IL-E 65/200-15/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 15.00 kW | DN 65 | 475 mm | 269.0 kg | 2153741 |
| CronoLine-IL-E 65/210-18,5/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 18.50 kW | DN 65 | 475 mm | 333.0 kg | 2153742 |
| CronoLine-IL-E 65/220-22/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 22.00 kW | DN 65 | 475 mm | 361.0 kg | 2153743 |
| CronoLine-IL-E 80/160-11/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 11.00 kW | DN 80 | 440 mm | 217.0 kg | 2153744 |
| CronoLine-IL-E 80/170-15/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 15.00 kW | DN 80 | 440 mm | 235.0 kg | 2153745 |
| CronoLine-IL-E 80/190-18,5/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 18.50 kW | DN 80 | 500 mm | 346.0 kg | 2153746 |
| CronoLine-IL-E 80/200-22/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 22.00 kW | DN 80 | 500 mm | 370.0 kg | 2153747 |
| CronoLine-IL-E 100/145-11/2-R1 | IE4 | 3~440 V, 50 Hz | without differential pressure sensor | 11.00 kW | DN 100 | 500 mm | 244.0 kg | 2153748 |
Series Description
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
- 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
- Protection class: IP 55
- Max. ambient temperature: +40°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, ATEX, extended ambient temperature range).
- The Helix series is also available with an integrated frequency converter.
Special features/product 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)
Design type
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
Type key
| Example: | Helix V 2202/2-1/16/E/X/KS/../400-50 |
| Helix V | Vertical high-pressure multistage centrifugal pump in in-line design |
| 22 | Flow rate in m3/h |
| 02 | Number of impellers |
| 2 | Number of trimmed impellers (optionally) |
| 1 | Pump material |
| 1 = Pump housing 1.4301 (AISI 304) Hydraulics 1.4307 (AISI 304L) | |
| 2 = Pump housing 1.4409 (AISI 316L) Hydraulics 1.4404 (AISI 316L) | |
| 3 = Pump housing EN-GJL-250 (cataphoretic-coated) Hydraulics 1.4307 (AISI 304L) | |
| 4 = Monobloc pump housing EN-GJL-250 (cataphoretic-coated) Hydraulics 1.4307 (AISI 304L) [Only Helix VE 22.. and larger] | |
| 16 | Maximum operating pressure in bar |
| 16 = 16 bar (PN 16 flange) | |
| 25 = 25 bar (PN 25 flange) | |
| 30 = 30 bar (PN 40 flange) | |
| E | Gasket type E = EPDM V = FKM |
| X | "X-Care" special version |
| K | Cartridge type mechanical seal |
| S | The coupling guard is on a line with suction and discharge ports of the pump. |
| .. | Optional |
| 400 | Connection voltage in V |
| 50 | Frequency in Hz |
Downloads
Products
| Product description | Rated power P2 | Pump connection | Cartridge | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|
| Helix V 202-1/16/E/KS | 0.37 kW | G 1 | Cartridge mechanical seal | 26.0 kg | 4161704 |
| Helix V 203-1/16/E/KS | 0.37 kW | G 1 | Cartridge mechanical seal | 27.0 kg | 4161705 |
| Helix V 204-1/16/E/KS | 0.37 kW | G 1 | Cartridge mechanical seal | 27.0 kg | 4161706 |
| Helix V 205-1/16/E/KS | 0.55 kW | G 1 | Cartridge mechanical seal | 32.0 kg | 4161707 |
| Helix V 206-1/16/E/KS | 0.55 kW | G 1 | Cartridge mechanical seal | 32.0 kg | 4161708 |
| Helix V 207-1/16/E/KS | 0.55 kW | G 1 | Cartridge mechanical seal | 33.0 kg | 4161709 |
| Helix V 208-1/16/E/KS | 0.75 kW | G 1 | Cartridge mechanical seal | 38.0 kg | 4161710 |
| Helix V 209-1/16/E/KS | 0.75 kW | G 1 | Cartridge mechanical seal | 38.0 kg | 4161711 |
| Helix V 210-1/16/E/KS | 0.75 kW | G 1 | Cartridge mechanical seal | 39.0 kg | 4161713 |
| Helix V 211-1/16/E/KS | 1.10 kW | G 1 | Cartridge mechanical seal | 41.0 kg | 4161715 |
| Helix V 212-1/16/E/KS | 1.10 kW | G 1 | Cartridge mechanical seal | 44.0 kg | 4161717 |
| Helix V 213-1/16/E/KS | 1.10 kW | G 1 | Cartridge mechanical seal | 45.0 kg | 4161719 |
Series Description
Technical data
- Mains connection: 1~230 V, 50 Hz (only MTC 40) and 3~400 V, 50 Hz
- Submerged operating mode: S1
- Non-immersed operating mode: S2-15 min or S3 30%
- Protection class: IP68
- Insulation class: F
- Fluid temperature: 3…40 °C (MTC 40: 3…35 °C)
- Cable length: 10 m
Special features/product advantages
- Heavy-duty version made of cast iron
- External macerator
- Sealing with mechanical seal on fluid side
- Sealing chamber
Design type
Submersible sewage pump with external macerator for continuous duty for stationary and portable wet well installation.
Application
Pumping of
- Sewage containing faeces
- Pre-cleaned sewage without faeces and long-fibre components
- Wastewater
Equipment/function
- Macerator with external blade and pulling cut
- Winding temperature monitoring with bimetallic strip
Scope of delivery
- Pump
- 10-metre connection cable with bare cable end
- A version with attached float switch and shockproof plug
- Installation and operating instructions
Type key
| E.g.: | Wilo-Drain MTC 32F55.13/66Ex |
| MT | Macerator technology |
| C | Cast iron version |
| 32 | Nominal diameter [mm] |
| F | Impeller shape |
| 55 | Max. delivery head [m] |
| 13 | Max. volume flow [m3/h] |
| 66 | Power P2 [kW] = (value/10 = 6.6 kW) |
| Ex | ATEX approval |
| A | With float switch and shockproof plug |
Materials
- Motor housing: EN-GJL-200 or EN-GJL-250
- Hydraulics housing: EN-GJL-250
- Impeller: EN-GJL-HB175, EN-GJS-500 or EN-GJL-250
- Shaft: Stainless steel 1.0503, 1.7225 or 1.4021
- Macerator: Stainless steel 1.4112, Abrasit/1.4034 or X102CrMo17K4
- Sealing on pump side: SiC/SiC
- Sealing on motor side:
- MTC 40 Al oxide/SiC
- MTC 32F39.16: NBR
- MTC 32F49.17 and MTC 32F55.13: Carbon/ceramic
- Static gasket: NBR
Description/construction
Submersible sewage pump with external macerator as submersible monobloc unit for stationary and portable wet well installation in continuous duty.
Hydraulics
The outlet on the pressure side is designed as a horizontal thread connection/flange connection (MTC 40) or as flange connection (MTC 32). Open multi-channel impellers are used.
Motor
The motors available are surface-cooled motors in single-phase version (only MTC 40) and three-phase version for direct starting. The waste heat is given off directly to the surrounding fluid via the motor housing. These motors can operated immersed in continuous duty (S1) and non-immersed in short-time duty (S2) or intermittent periodic duty (S3).
Furthermore the motors are equipped with thermal winding monitoring. The thermal winding monitor protects the motor winding from overheating. Bimetallic strips are used for this as standard.
The connection cable has bare cable ends and is 10 m long as standard. The "A" model is equipped with a float switch and shockproof plug.
Seal
There is a sealing chamber between the motor and hydraulics. It is filled with medical white oil and protects the motor from media ingress by the seal on pump side. Pump-side and motor-side sealing is available in different versions depending on the motor type:
- MTC 32F39.16: mechanical seal on the fluid side, two rotary shaft seals on the motor side
- MTC 32F49.17, ...55.13 and MTC 40: two independently acting mechanical seals
Downloads
REACH Regulation
| Edition | 2018-10 |
| Page format | 209.9 x 296.7 mm |
| Number of pages | 4 |
PDF (581 kB)
General overview 2018 International version
| Article Number | 2200591 |
| Edition | 2018 |
| Version number | 1 |
| Page format | 209.9 x 297.0 mm |
| Number of pages | 72 |
PDF (11 MB)
Wilo-Drain MTC 40
| Article Number | 6047007 |
| Edition | 2015-03 |
| Version number | 02 |
| Page format | 209.9 x 297.0 mm |
| Number of pages | 94 |
PDF (7 MB)
Wilo-Drain MTC 32
| Article Number | 2090114 |
| Edition | 2016-07 |
| Version number | 04 |
| Page format | 209.9 x 297.0 mm |
| Number of pages | 348 |
PDF (18 MB)
Products
| Product description | Article number |
|---|---|
| Drain MTC 40F16.15/7-A (1~230 V) | 2081260 |
| Drain MTC 40F16.15/7 (3~400 V) | 2081261 |
| Drain MTC 32F39.16/30Ex (3~400 V) | 2081262 |
| Drain MTC 32F39.16/30 (3~400 V) | 2081263 |
| Drain MTC 32F49.17/66Ex (3~400 V) | 2081264 |
| Drain MTC 32F49.17/66 (3~400 V) | 2081265 |
| Drain MTC 32F55.13/66Ex (3~400 V) | 2081266 |
| Drain MTC 32F55.13/66 (3~400 V) | 2081267 |
Series Description
Technical data
- Mains connection: 3~400 V, 50 Hz
- Immersed and non-immersed operating modes: S1
- Protection class: IP68
- Insulation class: F
- Max. fluid temperature: 3 - 40 °C
- Free ball passage: 80 or 95 mm
- Max. immersion depth: 20 m
Materials
- Pump housing: PUR
- Impeller: PUR
- Shaft: Stainless steel 1.4404
- Mechanical seal on pump side: SiC/SiC
- Mechanical seal on motor side: C/Cr
- Static gasket: NBR
- Motor housing: Stainless steel 1.4404
Description/construction
Submersible sewage pump as submersible monobloc unit for stationary wet well and dry well installation as well as portable wet well installation.
Hydraulics
The outlet on the pressure side is designed as DN 80 or DN 100 horizontal flange connections. Single-channel impellers are used as the impeller shape.
Motor
Surface-cooled motors are standard-equipped with clogging-free sheath current cooling. This ensures that heat is given off directly to the fluid. As a result, these units can be operated in immersed and non-immersed state for permanent or intermittent operation.
In addition, the motor is equipped with a leakage detection unit and a thermal motor monitoring unit. A sealing chamber protects the motor from fluid ingress. The filling fluid used is potentially biodegradable and environmentally safe.
The cable lead-in is longitudinally watertight, the standard cable length is 10 m.
Seal
Sealing on the fluid side and on the pump side is achieved by two bidirectional mechanical seals.
Special features/product advantages
- Self-cooling motor for use in wet well and dry well installation
- Corrosion-resistant stainless steel motor housing made of 1.4404
- Patented clogging-free hydraulics
- Longitudinally watertight cable inlet
- Lightweight
Design type
Submersible sewage pump for continuous duty for stationary and portable wet well installation, as well as stationary dry well installation.
Application
Pumping of
- Sewage containing faeces
- Pre-cleaned sewage without faeces and long-fibre components
- Process water
- Wastewater
Equipment/function
- Thermal motor monitoring
- Leakage detection in the motor
- ATEX approval
- sheath flow cooling
Scope of delivery
- Pump ready for connection with 10 m connection cable (bare cable end)
- Installation and operating instructions
Type key
| E.g. | Wilo-Drain TP 80E160/17 |
| TP | Submersible pump |
| 80 | Nominal diameter [mm] |
| E | Single-channel impeller |
| 160 | Nominal diameter of impeller [mm] |
| 17 | Power P2 [kW] = (value/10 = 1.7 kW) |
Downloads
REACH Regulation
| Edition | 2018-10 |
| Page format | 209.9 x 296.7 mm |
| Number of pages | 4 |
PDF (581 kB)
General overview 2018 International version
| Article Number | 2200591 |
| Edition | 2018 |
| Version number | 1 |
| Page format | 209.9 x 297.0 mm |
| Number of pages | 72 |
PDF (11 MB)
Wilo-Drain TP 80E/100E
| Article Number | 6060910 |
| Edition | 2017-06 |
| Version number | 04 |
| Page format | 209.9 x 297.0 mm |
| Number of pages | 200 |
PDF (11 MB)
Products
| Product description | Mains connection | Max. delivery head H | Max. volume flow Q | Optimal delivery head Hopt | Optimal volume flow Qopt | Rated current IN | Rated power P2 | Explosion protection ATEX | Article number |
|---|---|---|---|---|---|---|---|---|---|
| Drain TP 100E210/52 | 3~400 V, 50 Hz | 16.00 m | 165 m³/h | 16 m | 165 m³/h | 14.10 A | 5.20 kW | yes | 2003559 |
| Drain TP 100E230/70 | 3~400 V, 50 Hz | 19.00 m | 175 m³/h | 19 m | 175 m³/h | 16.70 A | 7.00 kW | yes | 2003561 |
| Drain TP 100E250/84 | 3~400 V, 50 Hz | 21.00 m | 180 m³/h | 21 m | 180 m³/h | 18.80 A | 8.40 kW | yes | 2003563 |
| Drain TP 100E190/39 | 3~400 V, 50 Hz | 12.00 m | 160 m³/h | 12 m | 160 m³/h | 12.50 A | 3.90 kW | yes | 2008469 |
| Drain TP 80E160/17 | 3~400 V, 50 Hz | 9.00 m | 75 m³/h | 9 m | 75 m³/h | 6.40 A | 1.70 kW | yes | 6043950 |
| Drain TP 80E170/21 | 3~400 V, 50 Hz | 10.00 m | 85 m³/h | 10 m | 85 m³/h | 6.70 A | 2.10 kW | yes | 6043957 |
| Drain TP 80E190/29 | 3~400 V, 50 Hz | 13.00 m | 100 m³/h | 13 m | 100 m³/h | 7.30 A | 2.90 kW | yes | 6043963 |
| Drain TP 80E210/37 | 3~400 V, 50 Hz | 15.00 m | 100 m³/h | 15 m | 100 m³/h | 8.50 A | 3.70 kW | yes | 6043971 |
| Drain TP 80E230/40 | 3~400 V, 50 Hz | 17.00 m | 95 m³/h | 17 m | 95 m³/h | 9.50 A | 4.00 kW | yes | 6043983 |
Series Description
PDF:Wilo-Comfort CO-/COR-MVI.../CC
Technical data
- Mains connection 3~230 V/400 V ± 10%, 50 Hz
- Max. fluid temperature 50 °C (70 °C optional)
- Operating pressure 16 bar (25 bar optional)
- Inlet pressure 10 bar
- Nominal connection diameters on discharge side R 1½ - DN 200
- Nominal connection diameter on the intake side R 1½" - DN 200
- Rated speed 2850 rpm
- Protection class IP 54 (CC control device)
- Fuse protection on mains side AC 3 according to motor power and EVU regulations
- Approved fluids (other fluids on request):Note on fluids: Approved fluids are generally water mixtures which do not chemically or mechanically attack the materials used and do not contain either abrasive or fibrous matter
- Drinking water and domestic hot water
- Cooling water
- Fire water
Special features/product advantages
- Easy-to-operate system in accordance with DIN 1988
- 2-6 vertical stainless steel high-pressure centrifugal pumps, switched in parallel, of the MVI series
- Easy-to-use "CC" control device, with memory-programmable microcomputer control and completely graphics-capable touch display, menu-prompted input of operating parameters, available with frequency converter for infinitely variable control of the base-load pump with COR systems
Design type
Pressure boosting system with 2 to 6 parallel-switched, non self-priming stainless steel high-pressure multistage centrifugal pumps
Application
- Fully automatic water supply and pressure boosting in residential, commercial and public buildings, hotels, hospitals, department stores and for industrial systems.
- Pumping of drinking water and 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.
Equipment/function
- 2-6 pumps of the MVI series per system
- Automatic pump control via CC Controller
- Components that come in contact with fluid are corrosion-resistant
- Base frame galvanised, with height-adjustable vibration absorbers for insulation against structure-borne noise
- Check valve at each pump, on the suction and pressure sides
- Non-return valve, pressure side
- Diaphragm pressure vessel 8 l, PN16, pressure side
- Pressure sensor, on the discharge side
- Optional pressure gauge, suction side
- Pressure gauge, discharge side
- Optional low-water cut-out switchgear
Scope of delivery
- Factory-mounted, connection-ready pressure boosting system checked for functionality and impermeability
- Packaging
- Installation and operating instructions
Type key
| Example: | Wilo-COR-4 MVI 804/CC |
| CO | Compact pressure boosting system |
| R | Control of the respective base-load pump by frequency converters |
| 4 | Number of pumps |
| MVI | Pump series |
| 8 | Rated volume flow of the single pump [m3/h] |
| 04 | Number of single-pump stages |
| CC | Control unit; CC = Comfort-Controller |
Materials
MVI 1.. to 16..-6
- Impellers and stage chambers made of 1.4301/1.4404 stainless steel (MVI 16..-6 only in 1.4301)
- Pump housing made of 1.4301/1.4404 stainless steel
- Shaft 1.4301/1.4404 stainless steel
- Gasket EPDM (EP 851) / FKM (Viton)
- Housing cover made of 1.4301/1.4404 stainless steel
- Housing bottom 1.4301/1.4404 stainless steel
- Mechanical seal B-carbon/tungsten carbide, SiC/carbon
- Pressure shroud 1.4301/1.4404 stainless steel
- Bearing, tungsten carbide
- Pump base EN-GJL-250
- Pipework made of 1.4571 stainless steel
MVI 16.. to 95..
- Impellers 1.4301/1.4404 stainless steel
- Stage chambers 1.4301/1.4404 stainless steel
- Pump housing EN-GJL-250/1.4404
- Shaft 1.4057/1.4404 stainless steel
- Gasket EPDM (EP 851) / FKM (Viton)
- Housing cover made of 1.4301/1.4404 stainless steel
- Housing bottom 1.4301/1.4404 stainless steel
- Mechanical seal B-carbon/tungsten carbide, SiC/carbon
- Pressure shroud 1.4301/1.4404 stainless steel
- Bearing, tungsten carbide
- Pipework made of 1.4571 stainless steel
Description/construction
- Base frame: galvanised and provided with height-adjustable vibration absorbers for comprehensive insulation against structure-borne noise; other versions on request
- Pipework: complete pipework made of stainless steel, suitable for the connection of all piping materials used in building services; the pipework is dimensioned according to the overall hydraulic performance of the pressure boosting system
- Pumps: 2 to 6 pumps of the MVI 2 to MVI 95 series switched in parallel are used; all pump components in contact with fluid are made of stainless or, starting with MVI 16.., of grey cast iron (cataphoretic-coated) or stainless steel on request
- Valves: each pump is fitted on the suction and pressure side with a check valve with DVGW approval mark or annular shut-off valves and a pressure-side DVGW-approved non-return valve
- Diaphragm pressure vessel: 8 l/PN 16 located on the discharge side with a butyl rubber diaphragm, completely safe in accordance with food safety laws, for testing and inspection purposes, with ball valve, with drain and throughflow fitting according to DIN 4807
- Pressure sensor: 4 to 20 mA, located on the discharge side for activating the central Comfort Controller
- Pressure display: suction- and discharge-side pressure gauge (ø 63 mm); additional digital display of discharge pressure in the alphanumeric touchscreen of the Comfort Controller.
- Switchgear/controller: the system is equipped with a CC Comfort Controller as standard; COR additionally with a frequency converter
Downloads
Products
| Product description | Control | Mains connection | Maximum operating pressure PN | Number of standby pumps | System output without standby pump Q | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|---|---|
| Comfort COR-2 MVI 7001/1/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 586.0 kg | 2523245 |
| Comfort COR-2 MVI 7001/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 687.0 kg | 2523246 |
| Comfort COR-2 MVI 7002/2/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 738.0 kg | 2523247 |
| Comfort COR-2 MVI 7002/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 810.0 kg | 2523248 |
| Comfort COR-2 MVI 7003/2/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 838.0 kg | 2523249 |
| Comfort COR-2 MVI 7003/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 960.0 kg | 2523250 |
| Comfort COR-2 MVI 7004/2/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 968.0 kg | 2523251 |
| Comfort COR-2 MVI 7004/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 1014.0 kg | 2523252 |
| Comfort COR-2 MVI 7005/2/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 1236.0 kg | 2523253 |
| Comfort COR-2 MVI 7005/CC | With frequency converter | 3~400 V, 50 Hz | 16 bar | 1 | 100.0 m³/h | 1236.0 kg | 2523254 |
| Comfort COR-2 MVI 7006/2/CC | With frequency converter | 3~400 V, 50 Hz | 25 bar | 1 | 100.0 m³/h | 1303.0 kg | 2523255 |
| Comfort COR-2 MVI 7006/CC | With frequency converter | 3~400 V, 50 Hz | 25 bar | 1 | 100.0 m³/h | 1347.0 kg | 2523256 |
Series Description
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
- 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
- Protection class: IP 55
- Max. ambient temperature: +40°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, ATEX, extended ambient temperature range).
- The Helix series is also available with an integrated frequency converter.
Special features/product 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)
Design type
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
Type key
| Example: | Helix V 2202/2-1/16/E/X/KS/../400-50 |
| Helix V | Vertical high-pressure multistage centrifugal pump in in-line design |
| 22 | Flow rate in m3/h |
| 02 | Number of impellers |
| 2 | Number of trimmed impellers (optionally) |
| 1 | Pump material |
| 1 = Pump housing 1.4301 (AISI 304) Hydraulics 1.4307 (AISI 304L) | |
| 2 = Pump housing 1.4409 (AISI 316L) Hydraulics 1.4404 (AISI 316L) | |
| 3 = Pump housing EN-GJL-250 (cataphoretic-coated) Hydraulics 1.4307 (AISI 304L) | |
| 4 = Monobloc pump housing EN-GJL-250 (cataphoretic-coated) Hydraulics 1.4307 (AISI 304L) [Only Helix VE 22.. and larger] | |
| 16 | Maximum operating pressure in bar |
| 16 = 16 bar (PN 16 flange) | |
| 25 = 25 bar (PN 25 flange) | |
| 30 = 30 bar (PN 40 flange) | |
| E | Gasket type E = EPDM V = FKM |
| X | "X-Care" special version |
| K | Cartridge type mechanical seal |
| S | The coupling guard is on a line with suction and discharge ports of the pump. |
| .. | Optional |
| 400 | Connection voltage in V |
| 50 | Frequency in Hz |
Downloads
Products
| Product description | Rated power P2 | Pump connection | Cartridge | Gross weight, approx. m | Article number |
|---|---|---|---|---|---|
| Helix V 202-1/16/E/KS | 0.37 kW | G 1 | Cartridge mechanical seal | 26.0 kg | 4161704 |
| Helix V 203-1/16/E/KS | 0.37 kW | G 1 | Cartridge mechanical seal | 27.0 kg | 4161705 |
| Helix V 204-1/16/E/KS | 0.37 kW | G 1 | Cartridge mechanical seal | 27.0 kg | 4161706 |
| Helix V 205-1/16/E/KS | 0.55 kW | G 1 | Cartridge mechanical seal | 32.0 kg | 4161707 |
| Helix V 206-1/16/E/KS | 0.55 kW | G 1 | Cartridge mechanical seal | 32.0 kg | 4161708 |
| Helix V 207-1/16/E/KS | 0.55 kW | G 1 | Cartridge mechanical seal | 33.0 kg | 4161709 |
| Helix V 208-1/16/E/KS | 0.75 kW | G 1 | Cartridge mechanical seal | 38.0 kg | 4161710 |
| Helix V 209-1/16/E/KS | 0.75 kW | G 1 | Cartridge mechanical seal | 38.0 kg | 4161711 |
| Helix V 210-1/16/E/KS | 0.75 kW | G 1 | Cartridge mechanical seal | 39.0 kg | 4161713 |
| Helix V 211-1/16/E/KS | 1.10 kW | G 1 | Cartridge mechanical seal | 41.0 kg | 4161715 |
| Helix V 212-1/16/E/KS | 1.10 kW | G 1 | Cartridge mechanical seal | 44.0 kg | 4161717 |
| Helix V 213-1/16/E/KS | 1.10 kW | G 1 | Cartridge mechanical seal | 45.0 kg | 4161719 |
Series Description
Type key
| Example: | MHI 205-1/E/3-400-50-2-IE3 |
| MHI | Multistage horizontal high-pressure centrifugal pump |
| 2 | Flow rate in m3/h |
| 05 | Number of impellers |
| 1 | Material 1 = 1.4301 (AISI 304) 2 = 1.4404 (AISI 316L) |
| E | Gasket type E = EPDM V = FKM (Viton) |
| 3 | 1 = 1~ (alternating current) 3 = 3~ (three-phase current) |
| 400 | Connection voltage in V |
| 50 | Frequency in Hz |
| 2 | Number of poles |
| IE3 | IE3 motor |
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
Special features/product 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)
Design type
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)
Downloads
Products
| Product description | Mains connection | Gross weight, approx. m | Article number |
|---|---|---|---|
| Economy MHI 202 (1~230 V, EPDM) | 1~230 V, 50 Hz | 11.3 kg | 4024282 |
| Economy MHI 202 (3~400 V, EPDM) | 3~400 V, 50 Hz | 10.4 kg | 4024283 |
| Economy MHI 203 (1~230 V, EPDM) | 1~230 V, 50 Hz | 11.3 kg | 4024284 |
| Economy MHI 203 (3~400 V, EPDM) | 3~400 V, 50 Hz | 10.4 kg | 4024285 |
| Economy MHI 204 (1~230 V, EPDM) | 1~230 V, 50 Hz | 12.1 kg | 4024286 |
| Economy MHI 204 (3~400 V, EPDM) | 3~400 V, 50 Hz | 11.2 kg | 4024287 |
| Economy MHI 205 (1~230 V, EPDM) | 1~230 V, 50 Hz | 13.7 kg | 4024288 |
| Economy MHI 206 (1~230 V, EPDM) | 1~230 V, 50 Hz | 17.2 kg | 4024290 |
| Economy MHI 402 (1~230 V, EPDM) | 1~230 V, 50 Hz | 11.3 kg | 4024292 |
| Economy MHI 402 (3~400 V, EPDM) | 3~400 V, 50 Hz | 10.4 kg | 4024293 |
| Economy MHI 403 (1~230 V, EPDM) | 1~230 V, 50 Hz | 12.2 kg | 4024294 |
| Economy MHI 403 (3~400 V, EPDM) | 3~400 V, 50 Hz | 11.3 kg | 4024295 |
| Economy MHI 404 (1~230 V, EPDM) | 1~230 V, 50 Hz | 13.7 kg | 4024296 |
| Economy MHI 405 (1~230 V, EPDM) | 1~230 V, 50 Hz | 16.7 kg | 4024298 |
| Economy MHI 406 (1~230 V, EPDM) | 1~230 V, 50 Hz | 19.3 kg | 4024300 |
| Economy MHI 802 (1~230 V, EPDM) | 1~230 V, 50 Hz | 17.3 kg | 4024302 |
| Economy MHI 803 (1~230 V, EPDM) | 1~230 V, 50 Hz | 16.0 kg | 4024304 |
| Economy MHI 804 (1~230 V, EPDM) | 1~230 V, 50 Hz | 17.5 kg | 4024306 |
| Economy MHI 1602 (3~400 V, EPDM) | 3~400 V, 50 Hz | 19.7 kg | 4210710 |
| Economy MHI 1603 (3~400 V, EPDM) | 3~400 V, 50 Hz | 22.1 kg | 4210713 |
| Economy MHI 1604 (3~400 V, EPDM) | 3~400 V, 50 Hz | 23.1 kg | 4210715 |
| Economy MHI 205 (3~400 V, EPDM) | 3~400 V, 50 Hz | 15.2 kg | 4210718 |
| Economy MHI 206 (3~400 V, EPDM) | 3~400 V, 50 Hz | 17.4 kg | 4210722 |
| Economy MHI 404 (3~400 V, EPDM) | 3~400 V, 50 Hz | 15.1 kg | 4210725 |
Series Description
Scope of delivery
- Pump with or without carrying frame, depending on the version
- Installation and operating instructions
Type key
| Example: | WJ-203-X-EM |
| WJ | Wilo jet pumps |
| 2 | Nominal flow rate Q in m³/h at optimum efficiency |
| 03 | Index for pump pressure Version 03 with higher pressure than version 02 (no indication of number of impellers!) |
| X | Version without carrying frame |
| [Space] | Portable version with carrying frame |
| EM | Single-phase current, 1~230 V, 50 Hz |
| DM | Three-phase current, 3~230/400 V, 50 Hz |
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 IP44
- Suction- and pressure-side connection G 1
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 ceramic/carbon
- Diffuser/injector made of Noryl
- Seals made of NBR
Special features/product advantages
- 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; even 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)
Design type
Self-priming multistage centrifugal pumps
Application
- Pumping water from wells
- Filling, pumping empty, transferring by pumping, irrigation and sprinkling
- As emergency pump for overflows
Equipment/function
- With or without handle, depending on the version
- For single-phase motor ( 1~ 230 V):
- Connection cable with plug
- On/off switch
- Thermal motor protection switch
Downloads
Products
| Product description | Gross weight, approx. m | Article number |
|---|---|---|
| Jet WJ 202 X (1~230 V) | 10.2 kg | 4081221 |
| Jet WJ 203 X (1~230 V) | 11.3 kg | 4081222 |
| Jet WJ 203 X (3~230/400 V) | 10.6 kg | 4212734 |
| Jet WJ 204 X (1~230 V) | 12.3 kg | 4143999 |
| Jet WJ 204 X (3~230/400 V) | 14.4 kg | 4212735 |
| Jet WJ 202 (1~230 V) | 11.0 kg | 4081224 |
| Jet WJ 203 (1~230 V) | 12.0 kg | 4081225 |
| Jet WJ 204 (1~230 V) | 13.0 kg | 4144401 |