Garden irrigation system main country of buyer

When you hear “the main country of the buyer” in the context of irrigation systems, you immediately think about climatic features and agrotechnical traditions. In Shandong Lingyao we are often asked: 'Is it suitable for hot climates?' - but it’s not just a matter of temperature, but how to combinegarden irrigation systemwith local soils and cultural practices. This is what you constantly encounter when selecting equipment.

Understanding regional peculiarities

For example, last year we installed drip irrigation in the Krasnodar Territory - where the customer initially demanded maximum automation, but then it turned out that local agronomists were accustomed to controlling watering 'by leaf'. I had to redo the circuit with remote humidity sensors. This is a typical story: technology must adapt to the human factor, and not vice versa.

By the way, about drip lines - many still believe that the more emitters, the better. In practice, for sandy soils a frequent step is really needed, but for loams it is better to step less often, but with a higher flow rate. We are inbuyer's main countryIn projects, we always first request data on the mechanical composition of the soil, otherwise later there will be excessive water consumption.

I noticed an interesting detail: in the southern regions they often save on filters, they say, the water is clean. And then after a season they complain about clogged drips. We have to explain that even in clear water there are suspended matter that gradually accumulate. Therefore, in our projects we always include stepwise filtration - mesh plus disk filters.

Equipment in action

Let's take our frequency converter for pumps - a seemingly standard solution. But in steppe regions with power surges, it really saves the situation. I remember that in the Rostov region, a farmer was at first skeptical about “extra electronics” until he saw how the system itself adjusted to surges in the network without turning off the irrigation.

Automatic valves are a different story altogether. Often customers ask to supply the cheapest electromagnetic ones, without taking into account the salinity of the water. And then they wonder why the valves stick after six months. Now I always insist on a test water analysis - especially in regions with a high salt content.

By the way, aboutirrigation systemfor greenhouses - here many people make mistakes with the placement of sensors. They are placed only at the entrance, but in the depths of the greenhouse the parameters are completely different. We generally recommend zoning with separate controllers for different crops. Shandong Linyao LLC develops such customized solutions for specific greenhouse farms.

Design pitfalls

When we were doing a project for a vegetable farm in the Stavropol region, we were faced with the fact that standard hydraulic calculations did not work - the terrain turned out to be more difficult than the maps showed. We had to make adjustments on the spot, adding additional pressure regulators. Now we always include a 15% margin for the productivity of the pumping station.

Another point - many people underestimate the importance of drainage in irrigation systems. Especially when growing root crops - if you do not provide for the drainage of excess water, you can lose half the harvest from rot. In our projects, we always model not only watering, but also the drainage regime.

I noticed that inbuyer's main countryoften try to save on installation costs by hiring random workers. Then it turns out that the connections are leaky and the pipes are laid at the wrong slope. Therefore, we always insist on installation supervision by our specialists - it is more expensive, but we avoid problems in the future.

From implementation practice

I remember a case with a farmer from the Voronezh region - he first installed a homemade drip irrigation system, but did not take into account the wind load. After the first storm, the tape was torn, and the fastening had to be completely redone. Now in windy regions we always recommend laying the strips in the surface layer of soil.

Automation is also not easy. One client demanded complete autonomy, but when the system began to work without human intervention, it turned out that agronomists were losing control of the process. I had to add a hybrid control mode. Conclusion: automation should be gradual, with staff training.

An interesting experience was with the fertigation system - combining watering and fertilizing. In the Belgorod region, at first they could not achieve uniform distribution of fertilizers. It turned out that the problem was uneven pressure in the line. We decided to install additional valves and EC sensors. Now we use this case as an example for other farms.

Development prospects

Nowadays there is a lot of talk about smart agriculture, but in practice it often comes down to the quality of communications in remote areas. We at Shandong Linyao LLC are testing hybrid solutions - somewhere we use GSM modules, somewhere a radio channel. It is important to select technologies for a specific area, and not try to implement a single standard.

I have noticed a trend - recently even small farms have become interested in monitoring systems. Apparently, the experience of past dry seasons is taking its toll. Soil moisture sensors with the ability to read data remotely are especially in demand - this allows you to optimize watering without constantly traveling to the field.

If we talk aboutbuyer's main countrypriorities, there is now a clear shift towards energy efficiency. Frequency-controlled pumps, solar panels for powering automation – all this is becoming not exotic, but a necessity. And this is correct - after all, the cost of electricity is constantly growing, and the margins of agricultural producers are already small.