Station aquarobot 15 how it works. Aquarobot m wiring diagram video, aquarobot turbopress electricity connection. The device and principle of operation of the pumping station

Automatic pumping stations for water supply "AQUAROBOT M"- based on submersible vibration pumps "UNIPUMP BAVLENETS" (Russia), with a hydraulic accumulator with a capacity of 5 or 24 liters, designed to supply clean cold water from open sources, storage tanks, wells and wells (with a diameter of more than 100 mm).

For autonomous water supply of individual buildings, cottages, country houses, for the organization of watering gardens, garden plots, small farms.

The temperature of the pumped water is up to +35°C, the total amount of mechanical impurities in the water is not more than 100 g/m3, the size of the impurities is not more than 1 mm.

Pumping stations for automatic water supply of the AQUAROBOT M series are reliable in operation, easy and convenient to install, the pump can be submerged in water for a long time. If desired, the pump can be easily dismantled from the water source and again immersed in water.

If the operating conditions are observed, vibration pumps are able to work for many years, do not require lubrication and filling with water, and can be turned on immediately after immersion in water.

The device and principle of operation of the station

Pumping station "AQUAROBOT M" consists of the following main components:

1. Submersible vibration electric pump "BAVLENETS".
2. Hydraulic accumulator.
3. PM/5-3W devices (combining pressure switch, pressure gauge, fitting).
4. Check valve.

Submersible vibration electric pump consists of 3 main units: yoke, vibrator and base. At the base there are holes covered with a rubber valve. A hose is attached to the outlet pipe with a clamp. Water is supplied from a pressure chamber limited by a rubber valve and a piston. As a result of vibrational oscillations of the electromagnetic drive, the piston reciprocates and pushes water out of the outlet pipe under pressure.

The hose connects the pump outlet to the station control unit, which includes a hydraulic accumulator and a PM/5-3W device.

The PM/5-3W device is mounted directly on a gyroaccumulator of the appropriate volume. This device automatically turns on the pump when the pressure in the water supply network is below the threshold level (factory setting - 1.5 atm) and turns off the pump when the pressure in the water supply network exceeds the upper threshold (factory setting - 3 atm).

The pump activation pressure is adjustable from 1 atm to 2.5 atm. The pump shutdown pressure is adjustable from 1.8 atm to 4.5 atm. The hydraulic accumulator maintains the pressure in the water supply network within the specified limits.

We open the tap - water flows to the consumer from the accumulator. As the water from the accumulator is used up, the pressure in the water supply network drops. When the pressure falls below the switch-on threshold, the control device switches on the pump. The pump supplies water to the consumer. We close the tap, the pump continues to work for some time, replenishing the supply of water in the accumulator. As the accumulator fills up, the pressure in the water supply network increases. When the pressure reaches the switch-off threshold, the control device switches off the pump.

Station Specifications

Pumping stations of the AQUAROBOT M series are produced with hydraulic accumulators with a volume of 5 l or 24 l and an electric cable 10, 15, 25 or 40 m long. 15" - model with 5 liter hydraulic accumulator and 15 meter cable).

1. Mains voltage, V - 220 ± 10%
2. Electric network frequency, Hz - 50 ± 1
3. Switching pressure 1.5 atm.
4. Cut-off pressure 3.0 atm.
5. Hydraulic accumulator capacity 5 l or 24 l
6. The air pressure in the accumulator is 1.5 atm.
7. Water operating temperature range, 0°С+1...+35
8. Connecting dimensions, 25 mm
9. Pump outlet diameter 20 mm
10. Power consumption - 0.245 kW
11. The maximum immersion depth of the pump under the water surface is 3 meters

Pressure-flow characteristics

* - the given data on the maximum pressure and performance are valid at zero suction depth and voltage of the electrical network 220V ± 10%.

Installation and commissioning

To put into operation pumping stations "AQUAROBOT M" it is necessary:

1. Connect the station to the consumer's water supply network. To do this, connect the outlet of the device "PM / 5-3W" (female thread 1") to the main pipe of the consumer's water supply system, which unites all points of water intake.
2. Connect the pump outlet to the check valve installed on the PM/5-3W. For this, it is preferable to use flexible plastic hoses with a diameter of 20 mm. To make donning easier, the end of the hose can be softened in hot water. Tighten the ends of the hose with clamps. To ensure a tight tightening, we recommend placing a strip cut from the hose. Connect the pump to rigid pipes only through a flexible hose at least 2 meters long.
3. Lower the pump into the water source. Be guided by the Scheme of installation of the pump in a reservoir. The immersion depth of the pump must not exceed 3 meters. The vertical distance from the accumulator to the water surface in the reservoir should not exceed 30 meters. The distance from the bottom of the reservoir must be at least 30 cm. To mount the pump in the reservoir, tie the hanger (3) (included in the station kit) to the pump eye. Fasten the other end of the suspension to the crossbar (7), as shown in the diagram of installing the pump in a pond. When submerging the pump into the well, put the protective ring (9) on the pump. Fasten cable (5), hose (6) and suspension with bundles (2) at intervals of 1 - 2 meters;
4. Connect the station to a 220 V power source.
5. The station is ready to go.

The pump must not run for more than 2 hours continuously.
After 2 hours of continuous work, take a break for 15 to 20 minutes.

Freezing of water in the station is not allowed.
In winter, if there is a risk of water freezing, it is necessary to completely drain the station and the entire water supply system.

Equipment in the online store

Pumping station AQUAROBOT M 5-10V

4 423 rubles

Pumping station AQUAROBOT M 5-10N

4 423 rubles

Pumping station AQUAROBOT M 5-15V

4 579 RUB

The human need for water is very high. In the modern world, it is needed almost everywhere. Therefore, many problems are associated with the problems of water supply, with its correct and safe consumption.

Eternal problems with interruptions in water supply, the need to provide a small farm with water, the need for a reliable irrigation system for vegetable gardens, orchards, increased pressure in the water supply system - these are just some of the problems that Russians face. All of them affect the desire of consumers to secure permanent access to water resources in any way.

Each person comes out of a situation differently. However, the best solution to this problem is drilling your own well. But in this case, there is a need for the entire plumbing system to ensure the safety and control of its working pressure.

Automatic control unit "AQUAROBOT Turbipress", which relatively recently appeared on sale, helps in solving the problems of protecting and automating the operation of electric pumps. In essence, this is a small automation unit that combines a pressure switch and a liquid flow switch and turns the pump on or off under certain conditions. It is noteworthy that this automatic pump control unit is produced by a Russian manufacturer - LLC "Subline Service".

In order to determine the use of this device, we will get acquainted with its functionality.

So, "AQUAROBOT" is capable of:

automatically turn off the pump when the pressure rises above the maximum setpoint and turn it on when the pressure drops below the minimum setpoint,

turn off the pump in the absence of water flow, pump jamming (protection against dry running),

after shutdown, due to the detection of malfunctions, it is able to conduct test runs after 5, 20, 60 minutes, and in the event of water, it immediately switches the pump to operating mode.

The system can be used at low mains voltage (up to 170V). The maximum pump power is 2.2 kW, the maximum current is 20 A. AQUAROBOT Turbipress operates with single-phase submersible and surface pumps.

Pump control unit "AQUAROBOT Turbipress"

The pump control unit can be used in the same way as summer residents, owners of country houses, and various industrial enterprises and organizations.

On the front side of the device there are two LEDs, red - "emergency", green - "control". Green lights up when the AQUAROBOT Turbipress device is turned on, and red lights up only in case of malfunctions.

Consists of "AQUAROBOT" of interacting with a pressure sensor and a water flow switch. The set parameters of the threshold pressure for actuation/shutdown of the pump are indicative for the microcontroller, comparing them with the data of the pressure sensor, the microcontroller sends a signal to turn the pump on/off.

It also interacts with the water flow sensor, the only difference is that in the latter case it checks the system only for the presence of water flow. If there is no water in the system, then "AQUAROBOT Turbipress" will turn off the pump and will check the presence of water at regular intervals. If water does not appear within 24 hours, the device stops trying to turn on the pump and switches to the emergency indication mode.

After eliminating the emergency situation with the lack of water in the water supply source, the device can be started manually by pressing one of the two buttons. After that, it returns to work with the settings previously installed on it.

For visual control of the pressure value, the device has a manometer. The system also has three threaded pipes, cable entry / exit. All devices are enclosed in a plastic case, which gives the structure a harmonious look and design.

Connection of the pump control unit "AQUAROBOT turbopress" to the water supply system and to the electrical network must be carried out in accordance with the conditions and rules described in the documentation attached to the device.

The pressure pipeline and the water consumer must be installed in the system so that the direction of the water flow corresponds to the arrow on the device body, i.e. from source to consumer. Both vertical and horizontal installation of the device is acceptable. All connections must be tight.

The electrical connection must be made according to the diagram attached to the documentation for the device. 2 cables are connected to the "aquarobot" - one from the pump, the other from the electrical network.

After connecting, it is necessary to fill the system with water and configure the device. On the device, you can set the lower and upper pressure, like a conventional pressure switch. The difference lies in the fact that when performing these actions on other devices, for example, at, it is necessary to turn special nuts with the cover removed.

In this case, all settings are performed using two buttons on the front panel of the "aquarobot", which is much more convenient and pleasant. The programming process for setting the upper and lower pressure limits is not difficult, takes several minutes and is described in sufficient detail in the instruction manual.

The automatic pump control unit "AQUAROBOT Turbipress" is very convenient. It is easy to install, it is easy to program, and one cannot forget about the high reliability and quality of the task. Despite all of the above, the cost of the device is acceptable and amounts to no more than 3 thousand rubles.

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Pumping station Aquarobot-M 5-10 V is an automatic water supply station, the pumping part of which is a submersible vibration pump "Rucheyek". It also includes a 5l hydraulic accumulator, a device that combines a five-pin fitting, a pressure switch and a pressure gauge. It combines the economy and performance of vibrating brook-type pumps with the possibilities of automated pumping. Important! Use for pumping only clean water with a minimum content of solids.

It can be used for automatic water supply of cottages or houses, for watering a personal plot or garden. The source of water can be a well or well with a diameter of more than 100 mm, as well as any open natural or artificial reservoir or reservoir.

The letter "B" - the upper water intake at the vibration pump, "H" - the lower intake

The number before the letters B or H - 10, 15, 25, 40 - is the length of the electric cable of the pump.

5 - the volume of the accumulator, l.

Specifications

Electrical network voltage, V - 220 ± 10% Pump power, W - 225 Electrical network frequency, Hz - 50 ± 1 Pump on / off pressure 1.5 atm - 3.0 atm Hydraulic accumulator volume, l - 5 Water operating temperature range, ° С - +1. +35 Connecting dimensions — 1″ (25 mm) Diameter of pump outlet nozzle Creek for wells — 18 mm Diameter of automation system inlet pipe — 3/4″ (20 mm) Total amount of mechanical impurities in water, g/m3, not more than — 100 Impurity size, mm, no more – 1

The maximum immersion depth from the water surface of the Brook pump is 3m.

Pressure and performance indicators

The package includes: Pump - 1 pc. Control unit with hydraulic accumulator assy - 1 pc. Suspension for the pump - 1 pc.

Packing container - 1 piece

Station device Aquarobot-M 5-10 V

1 - pump 2 - hydraulic accumulator 3 - a device that includes a pressure switch, fitting and pressure gauge. 4 - check valve

The operation of the pumping station is carried out as follows. From the vibration pump, water is supplied to the pump control device and from there to the accumulator and to the line leading to the consumers. If water is parsed (the taps open), the pressure in the system drops and water is first supplied to the system from the accumulator. Further, the pressure switch turns on the pump and water is supplied to maintain a certain pressure level. If the water intake stops (the taps are closed), the automatic pressure switch turns off the pump when the upper pressure threshold is reached. At the same time, the accumulator is filled.

Design and operational features of the pumping station Aquarobot-M 5-10 V

Provides stable automatic operation of the system when opening and closing taps, the pump automatically turns on and off. - the presence of a hydraulic accumulator, which stabilizes the pressure in the system. - maintains the pressure in the system at a given level. - high quality components. The PM/5-3W pump automation device is made in Italy. - Sufficient ease of use. When installing the station, it is important to follow the operating instructions. - vibration pump The stream is not designed for many hours of operation, so you should take breaks in water consumption (pump operation) - 15-20 minutes. After every hour of work.

The immersion depth of the pump should not exceed 3 meters from the water surface, and its distance to the bottom of the well or reservoir - 30 cm.

Connection of the pumping station Aquarobot-M 5-10 V

10 - hydraulic accumulator pneumatic valve

This automatic water supply system is optimal for providing water to a small cottage or house, both for technical purposes and drinking water. It can also be used to water a small area, a greenhouse or a vegetable garden. The design of this pumping unit allows you to quickly install the pumping station and connect it to the water supply system. Installation of a vibration pump is also simple - just lower the pump into a well or well on a special cable, after attaching a hose to it. It is also easy to dismantle the pump and automation with a hydraulic accumulator. One of the advantages of this pumping station is a fairly low cost. This is due to the low price of the vibration pump. The conclusion is as follows: for a fairly low cost, you get a high-quality automatic water supply system based on a vibration pump, which will last for more than one year with proper and economical operation.

How to buy a pumping station

You can buy a pumping station Aquarobot-M 5-10 V by making a purchase directly on the website of the online store, or by calling by phone in the Contacts section. Our manager will contact you and arrange delivery or reserve the goods for pickup.

If you need a pumping station in Moscow, we offer delivery within the city and the nearest suburbs. For buyers from other regions of Russia - delivery by any transport company or postal service as agreed.

• The difference is in the frequency of turning on / off the vibration pump of the type Brook, Malysh, and also in the presence of a small supply of water, about 7 liters (for stations with a 24-liter hydraulic accumulator).

• For a well with a depth of 24 meters, we recommend a station with an automation system based on a vibration pump such as a Brook, Malysh. Unlike stations based on surface pumps, which have a maximum suction depth of 8 meters, the AQUAROBOT M station is able to provide automatic water supply from a depth of up to 30 meters.

• When the station is based on a vibration pump of the Brook, Malysh type, the pressure and productivity of the station will be enough for two points of analysis (in this case, a storage water heater and irrigation), provided that water is taken from a depth of up to 30 meters. A larger accumulator only provides more water and reduces the frequency of pump on/off.

• Such a set of automation can be used with any other submersible pumps. When connected to high-performance pumps, it is recommended to increase the volume of the accumulator.

• Unscrew the fixing plastic screw located in the center of the PM / 5-3W relay housing, adjust the pressure switch in accordance with the attached Installation and Operating Instructions.

• If for some reason you want to change the standard factory settings of the on and off pressure, optimized for most pumps, disconnect the AQUAROBOT M from the electrical network, open the pressure switch by removing the plastic cover, adjust the pump OFF pressure by turning the nut pressing the BIG spring ( increasing pressure by turning the nut clockwise, decreasing - counterclockwise). To adjust the pump ON pressure, do the same by turning the nut holding the SMALL spring. Details in the enclosed Installation and Operating Instructions.

"AQUAROBOT series JET, JS, QB"

• To increase the pressure in the main water supply, we recommend using a universal station with a power of 450 W. The station will operate in automatic mode, significantly increase the pressure in the line and will not fail in the absence of water flow.

• Station "AQUAROBOT" goes into emergency mode. Check the tightness of the suction line and the line after the station, as well as whether the system has a leaking toilet bowl, a dishwasher with a clogged filter, etc. Eliminate the cause or seek advice at.

• Universal stations "AQUAROBOT" (with a 24 liter hydraulic accumulator), in contrast to the adaptive stations "AQUAROBOT" (with a 5 liter hydraulic accumulator), having a built-in pressure switch, allow you to adjust the upper and lower pressure thresholds in the system.

• If the AQUAROBOT QB60 is not used for a long time, before turning it on again, we recommend turning the motor shaft manually (the impeller of the vortex pump may stick due to oxidation). It is necessary to turn from the side of the rear of the engine, having removed the fan casing. The shaft must rotate freely. If the temperature in the room is positive in winter, then the water can not be drained. When freezing, draining water is required.

• To increase the pressure in your line, as well as to ensure a constant necessary supply of water, we recommend you the universal stations of the series.

• The designations "JET L" and "JET S" in the labeling of stations are the types of surface pumps used. The difference between "JET L" and "JET S" is that the surface pump "JET L" has an elongated internal ejector, such a pump provides more stable suction when working at critical depths of 8 meters, it is less critical to airing the suction pipe.

• Suction depth is the height from the water surface in a well or well to the ground surface (pump installation site).

• We recommend using pipes with a diameter of 32 mm at the inlet and outlet of the pumping station. When installing pipes of a smaller diameter, the pressure and performance losses of the pump increase, especially if there is a long distance from the pump to the points of water intake.

• The AQUAROBOT TURBIPRESS pump control unit can be placed anywhere and in any position, but there are two exceptions: 1) the AQUAROBOT TURBIPRESS cannot be screwed onto the vertical accumulator flange, 2) the diameter of the AQUAROBOT TURBIPRESS connection with the accumulator cannot be narrowed.

• Yes, when the power is turned off, the settings are saved.

• Yes, you can plug the third connector with a female thread, but in this case the hydraulic accumulator in the system must be connected after the "AQUAROBOT TURBIPRESS" at its outlet to the water main.

• We are constantly improving the device, design changes have been made to the device and new blocks have a different setting. For correct setup, follow the Instructions for use and installation, which comes with your device.

• The green LED should flash when the pump is running, and should stay on when the pump is turned off.

• Such installation of "AQUAROBOT TURBIPRESS" is possible. You can see the installation options in

• You need to enter the calibration mode and set new values ​​for the upper and lower pressure thresholds:

• In all cases when pump control units equipped with a flow sensor are installed in the system (including when installing "AQUAROBOT TURBIPRESS"), the points of water intake must be mounted AFTER such devices.

• All pump control units of the AQUAROBOT TURBI series can start the pump stably when the mains voltage drops to 170 V. Attention: it must be borne in mind that long-term operation at low voltages reduces the life of the pump, and also leads to a loss of its pressure characteristics.

• It is possible to connect the "AQUAROBOT TURBI" unit to the vibration pump, but only as a protection against "dry running" when the pump is running to the spout. It is not recommended to use "AQUAROBOT TURBI" without a pressure switch and a hydraulic accumulator for automatic control of vibration pumps.

• Unscrew the plastic screw on the cover of the pressure switch and remove the cover. Connect the wire from the pump to the contacts marked "MOTOR", connect the wire from the electrical outlet to the contacts marked "LINE". Close the pressure switch and tighten the screw.

• When installing a filtration system upstream of the pumping station, the likelihood of additional suction resistance increases. We recommend installing cleaning systems after the pumping station.

• If we are talking about pressure control in the accumulator, then the air pressure in it is checked after draining the water.

• and AQUAROBOT pumping stations based on surface pumps are capable of sucking water from a depth of up to 8 meters, stations based on submersible pumps can be used up to a depth of 30 meters.

• The noise level for different types of pumps is different, it depends on many factors and technical conditions (eg: running with water or idling, etc.). AQUAROBOT pumping stations are certified for domestic use and approved for operation in Russia. On average, the noise level of stations based on surface pumps is about 68 dB.

• Stations "AQUAROBOT" are initially equipped with a hydraulic accumulator with a capacity of 5 or 24 liters. The volume of the accumulator allows you to have a certain supply of water in the event of a power outage, and also smooths out water hammer in the system and reduces the number of pump on / off, leading to wear. The useful volume of water in the accumulator, with a capacity of 24 liters, is approximately 7 liters.

• If there is no air pressure in the accumulator (1.5 atm) or there is no water, the AQUAROBOT station will not turn on.

• The online store of pumping equipment delivers innovative AQUAROBOT equipment at prices from the manufacturer in Moscow and the Moscow region.

We are happy to answer any technical question. The response will be sent to your email address and will also appear in this section.

Good day, summer residents. I saw a post about plumbing and decided to write a little about my father-in-law's dacha.

The water is collective, but it is naturally similar in color to Fanta and in taste to a piece of iron. Filters help of course, but it is better to let this water only for irrigation. About 3 years ago, the father-in-law decided to dig a well, hired guests with shovels, bought rings and away we go. The well turned out to be only 9 rings, the water is the lower one and a half rings. I bought a pumping station based on the Typhoon-2 vibration pump from Bosna-LG. Included with the pump was automation like the name Istok, their own design. It worked all 2 seasons and this year it was covered. The pump is vibrating, and there are no growers on the connecting bolts, it got drunk and burned out. Well, we remembered him and bought the same pump, but he did not work with the old automation. Does not turn off and drives water. Dope in it decently and presses decently. I searched the entire Internet, found an article on how to improve the pump with growers by disassembling it and adding them naturally wherever possible. With automation, it was generally fun, either the prices were overpriced or there was nothing. Ran into Aquarobot. I read it, I looked, I called 7 stores, I ate all my ears about whether it would work with my Typhoon. Everywhere they say "HZ, must" called the sellers of these typhoons, they naturally say that "HZ, must." In general, I bought the Aquarobot-M automatic equipment separately with a 5-liter hydraulic tank. WORKS! very satisfied. Up to 3 points, the pump pumps and the automation turns it off, the pressure drops to 1.5 points and the automation turns on the pump. To put it simply, I opened the tap and the water went - the pump pumps. Turned off the faucet, the pump built up pressure and turned off. There are only a few photos as installed in the well. A photo of the pump from the Internet, the box next to it is the Source.

Added 2 years ago. Channel:

How Pampela KIV-1A Wistan 3 works.

Added 3 years ago. Channel:

Automation for a water supply pump wholesale price from a warehouse in Kyiv. There is an automatic pump for sale.

Added 4 months back. Channel:

We will tell and show how to assemble with the help of a water supply system for a summer residence based on a Brook pump. Membrane.

Added 5 years ago. Channel:

LLC "SUBLINE SERVICE" - www.unipump.ru. Demonstration of a simple and quick adjustment of the pressure thresholds of the control unit.

Added 4 years ago. Channel:

The video clearly shows what the automatic pump control unit actually is.

Added 3 years ago. Channel:

Internet address of the product in the plumbing catalog - http://www.viropt.ru/catalogue/info/f000104/

Added 6 years ago. Channel:

www.groma.ru - Aquarobot M: Water supply for wells and wells with a depth of more than 8 meters. Automation system.

Added 6 years ago. Channel:

An employee of the company describes what pressure switches exist, performance characteristics and the principle of operation.

Added 2 years ago. Channel:

THE CONTROLLER PROVIDES: - soft start of the pump - constant pressure in the water supply network - protection against inadmissible.

Added 2 years ago. Channel:

Video about pampela Wistan-3 vibration pump control station (Kid, Brook). It's good to buy a car.

Added 6 years ago. Channel:

The device and installation of the electronic relay BRIO 2000. The encyclopedia of the home master is a huge amount.

Added 3 months back. Channel:

Republic of Tatarstan Naberezhnye Chelny Drilling a well for Abyssinian water

Added 4 years ago. Channel:

Added 2 months back. Channel:

How to make automation for the pump, how to connect, how to set up - see this video.

Added 7 years ago. Channel:

Pumping equipment, pumps, Aquarobot, pumps, Unipump, pumps, unipamp, pumps, Subline Service, pumps, turn.

Added 3 years ago. Channel:

Internet address of the goods in the plumbing catalog.

Added 3 years ago. Channel:

Internet address of the product in the plumbing catalog - http://www.viropt.ru/catalogue/info/f000481/

Added 3 years ago. Channel:

Internet address of the goods in the plumbing catalog.

• -Type: surface pumping station
• -Bandwidth: 1.2 cu. m/hour
• - Diving depth: 3m
• - Mains voltage: 220/230 V
• -Max head: 85 m
• - Power consumption: 225W
• - Water quality: pure
• - Filtered particle size: 1mm
• - Permissible fluid temperature: 1°C to 35°C
• - Pump installation: horizontal

* Check with the seller for exact specifications.

Today, the owners of private houses in our country, accustomed to the dominance of European and American manufacturers in the pumping equipment market, are increasingly casting a closer look at domestic brands.

One of them - the AquaRobot trademark - has recently been of great interest to the knowledgeable public.

We decided to get to know the products of this manufacturer closer, and at the same time tell our readers about its features.

AquaRobot pumping stations (PS) are an inexpensive and high-quality solution for those who intend to organize an autonomous water supply network in a house or on a site outside the city limits.

Each model comes fully assembled, so to get started, the owner only needs to connect it to the water supply network and a source of electricity.

This completely exhausts the user's participation, the NS AquaRobot performs all its functions automatically, while maintaining optimal parameters in the water supply system.

A feature of AquaRobot pumping stations is a well-thought-out comprehensive security system that takes into account any emergency that may occur:

• shutdown of the pump in case of lack of water in the suction line (dry running of the pump);
• shutdown of the pump in case of impeller blocking or jamming;
• shutdown of the pump in the absence of air pressure in the storage tank;
• the station recognizes the presence of leaks in the water supply network and in this case does not pump water;
• the station adapts to the parameters of the water supply network and, in case of technical problems, reacts with a decrease in pressure or a complete shutdown of the pump;
• blocking of the equipment is provided in case of incorrect connection to the pressure or suction lines.

Unlike imported pumping stations, which are very picky about the quality of power supply, NS AquaRobot easily tolerate a significant voltage drop even up to 120 V.

Seasonal summer residents will appreciate the mobility of the NS AquaRobot, which, due to its low weight, can be easily and quickly dismantled with the onset of cold weather.

How it works ^

Under the AquaRobot trademark, two types of pumping stations are produced, which are positioned by the manufacturer as universal and adaptive.

Universal NS ^

The device that controls the operation of the pump in this system is a pressure switch.

It starts the pump drive when the pressure in the network drops, which occurs during the use of the water supply, and turns it off as soon as the pressure returns to its previous value.

With factory settings the on and off thresholds correspond to pressures of 1.5 and 3 atm, respectively, however, the user can reconfigure the relay as desired.

The switching threshold is adjustable from 1 to 2 atm, switching off - from 1.8 to 4 atm.

All models of universal stations equipped with a membrane hydraulic accumulator with a capacity of 24 liters.

Pumping stations with a capacious accumulator and controlled ones are best suited to meet domestic needs in which water is consumed for short periods of time.

In addition to the pressure switch, you will also need it, it is designed to maintain a constant pressure level, eliminates water leakage from the system and a possible pump stop.

Adaptive NNs ^

In these station models, the pump is turned on by a signal from the flow sensor. In addition, the pump motor will start when the pressure in the water supply drops below 1.53 atm.

Adaptive NS AquaRobot is equipped with small-volume hydraulic accumulators (2 and 5 l), which are necessary to start the pump and smooth out the resulting water hammer.

Low-pressure systems controlled by flow sensors work best when water is predominantly used for long periods of time, such as for irrigation or pool filling.

With such a consumption scheme, the pump works stably, and does not “twitch”, turning on and off, which would be observed with an increase in the power of the station and its equipping with a pressure switch.

At the same time, there is no need to use a large-capacity storage tank, which is designed to compensate for water consumption during short-term use of the water supply system.

Pump station selection ^

The AquaRobot automatic pumping station is selected according to the following parameters:

• suction depth;
• pressure;
• performance.

The maximum suction depth for various models of the NS AquaRobot is 5 and 8 m.

When choosing a station according to this parameter, it should be borne in mind that the water level will drop somewhat during the operation of the pump, so a small margin must be provided.

The pressure and productivity of the station are interdependent quantities. In addition to their maximum values, tables or graphs are given in the passport for the pumping station, called the main characteristic of the pump.

They show what performance the pump of the station will have at a particular pressure. In fact, the pressure is the pressure that the pump has to develop in order to provide the required water supply parameters.

To calculate it, add the required pressure at the farthest point of consumption ( the optimal value, as a rule, is 2 atm or 20 meters of water column), the height of the maximum point of the network relative to the pump and the pressure loss due to hydraulic resistance in the pipeline.

The last component is calculated according to a rather complicated technique, but it can be replaced by approximate empirical data: every 10 m of pipe, the pressure drops by 0.1 atm (1 m w. St.).

The required performance can be calculated based on the number of connected consumers and how often they will work simultaneously.

An easier way is to take experimental data as a basis.

Thus, peak water consumption for garden plot(possibly with a small house) is 0.8 - 1 cu. m/h; for a cottage(standard project) with a living in it a family of 4 - 6 people - 1.5 - 2 cubic meters. m/h; for a solid mansion with a pool or fountains - 4 cubic meters. m/h and more.

Now we need to choose a station model, in the main characteristic of which the pressure calculated by us will correspond to the performance we need.

If you are just choosing a pumping station and have not decided on the manufacturer, read the article about, the most important and relevant information is only in our magazine!

Also, good pumps are produced by the Italian company Marina, read reviews about these devices, prices and tips on choosing, buy exactly what you need!

Most Popular Models ^

We have prepared a list of the most popular Aquarobot pumping stations, which are optimal in terms of price-quality ratio.

AquaRobot QB 60 370 W (adaptive) ^

This model is completed with the Unipump QB 60 centrifugal pump having the 370 W electric drive.

The pump body is made of cast iron, the impeller is made of brass, the stuffing box is made of graphite and ceramics. The maximum pressure and productivity are 33 m and 30 l / min, respectively.

The maximum suction depth is 5 m. The station is equipped with a built-in hydraulic accumulator with a capacity of 5 liters. The use of a pressure boosting station is not provided.

Cost - 4390 rubles.

AquaRobot JET 60S-24 450 W (universal) ^

This model can be used both to supply water to the water supply system, and to increase the pressure when connected to a centralized water supply.

The 450 W pump is capable of developing a head of 33 m, and its maximum performance is 40 l / min. The maximum allowable pump installation height relative to the water surface in the source (suction depth) is 8 m.

Cost - 7060 rubles.

AquaRobot JS 100-24 750 W (universal) ^

Like all AquaRobot universal stations, this model is equipped with a pressure switch and a storage tank with a volume of 24 liters.

The material of the pump housing is stainless steel. Motor power - 750 W, maximum head and productivity - 40 m and 55 l / min. Suction depth - 8 m.

Price - 8022 rubles.

AquaRobot JET 100L-24 750 W (universal) ^

High-performance model with a maximum capacity of 56 l/min. The maximum pressure at the outlet pipe is 43 mV. Art. Suction depth - up to 8 m. Can be used as a pressure booster.

Cost - 7700 rubles.

Pump stations AquaRobot M series ^

Models of this series are equipped with downhole pumps of the Vibratory type "Rucheyek" with a power of 225 W. The volume of the storage membrane tank for various models is 5 and 20 liters.

The maximum immersion depth for the pump (relative to the water surface) is 3 m. The operation of the pump is controlled by a pressure switch of the PM / 5-3W brand from the Italian company ItalTecnica.

The cost of the model is 3960 rubles.