Building management software. Development of automation systems

In the modern world, any structure, both industrial and residential, has an extensive network of various devices and assemblies, united into systems and complexes that ensure normal and comfortable use. For example, this is water supply, energy supply, air conditioning. To simplify the operation of complex complexes, automation of engineering systems is used. This allows you to reduce both the time for maintenance and control, and the consumption of energy resources. When building such systems, two approaches are used:

• Fully automatic operation complex of equipment, in this case, a person is involved only in the design, production, installation and commissioning. Further, his intervention is not required.
• Semi-automatic, or as it is also called automated - a person makes control decisions. Same way the creation of an automated control process is called dispatching.

Dispatching of engineering systems is used to control the operation of equipment. The use of this technique allows you to optimize the operating time, thereby reducing operating costs. Anything can be automated - power supply, heating, air conditioning, water supply. Thanks to this process, energy consumption is reduced, energy consumption is optimized. All this is achieved by the development of optimal functioning algorithms - various sensors (movement, volume, lighting, temperature) are used, switching modes depending on the day of the week and time.

Before starting work on automation, you need to determine:

• Which piece of equipment needs to be automated?
• Which approach will be implemented: simple or complex?
• The equipment will operate with or without human participation.
• Economic effect.

After that, specialists, based on the discussions and calculations obtained at each of the stages, develop an automation algorithm. According to this algorithm, hardware and software solutions are selected, installation, commissioning, tuning and testing of the entire complex is carried out.

Despite the seemingly high costs of creating and implementing process control systems, the economic effect from their use is quite significant. Creation costs are refunded within 3-5 years. Then comes the net savings, thanks to the rational use of energy and other resources.

The process of supporting such implemented solutions takes into account the specifics of the construction and includes the maintenance of sensors, the readings from which are used during operation, signal and control circuits, control valves, shut-off valves and other parts.

The specialists of the company "Autonomous Technologies" have extensive experience in the creation, implementation and maintenance of automatic and dispatched control systems. This allows you to perform all operations quickly, efficiently and on time.

In the conditions of constant improvement of technologies, operation is an integral function of real estate management. Engineering equipment and communications of modern buildings are becoming an increasingly complex system, the maintenance of which requires highly specialized knowledge and serious training. The success and professionalism of the management company providing maintenance services is determined by the human factor - highly qualified and experienced personnel. The quality of operation largely depends on the qualifications of the employees and the degree to which the work of all technical services involved in the facility is coordinated.

The efficiency of operational processes is determined by the clear interaction of technical services on site and quality control. At the present stage of real estate management, building management automation systems are being actively developed and implemented to optimize the operation processes. Software developed specifically for the operation process, available both in use and at a price, is able to solve the problem of organizing effective interaction between technical services and provide comprehensive management of the quality of operation.

Management of engineering services and equipment is a complex area of ​​automation. With the help of automation systems, you can keep records of rental objects and tenants, parameters of premises, equipment used in the building. Modern automation systems also allow keeping records of services rendered to each tenant - parking, repairs, removal of solid waste, cleaning, washing windows, heating, air conditioning, lighting, security, etc. For each service, the limit included in the rental rate or operating costs is controlled, the terms of payment and the time of service are fixed. The equipment of the facility is taken into account and a technical passport is maintained for each individual element. Each technical object, material value, tenant is tied to a section of the floor plan, which is created using the graphics package integrated into the program. On the basis of the data of the equipment passports, service schedules of objects are formed. Based on regulations and actual costs, the system calculates the operating cost of the building. The automated system allows you to formulate estimates for cleaning the territory, building maintenance, security, etc.

The cost and parameters of each part, the timing of repairs, the frequency of maintenance, replacement, as well as data about the personnel - the qualifications of each engineer, electrician, their salary, etc. are entered into the automated systems. Based on mathematical algorithms, the system calculates which work, on what day and which employee must perform, taking into account vacations, weekends, holidays, working hours, etc. It is believed that an experienced engineer will be able to draw up such a schedule on his own, without an automation system. However, when external conditions change (an employee gets sick, equipment fails), modern programs can quickly recalculate so that the potential damage from changing the work schedule is minimal. In addition, the programs take into account requests for tenant service, the movement of parts, consumables and other material assets, and calculates the cost of maintenance operations.

Software is an essential part of an automated operations management system. There are general requirements for software:

ü convenient, graphical interface with plans of objects;

ü the ability to manage both individual objects and the entire system;

ü logging of events (alarms, access to premises, etc.) and operator's actions in the computer memory;

ü password protection of operators' access rights;

ü editing the database, recording user data into it;

ü automatic generation of a list of system messages for viewing, printing and analysis;

ü accounting of working hours;

ü programming of system reactions to external events.

It is preferable to use domestic software, since its modification for specific requirements for foreign products is unlikely. The software product must be flexible, customizable, scalable system. An additional benefit can be the openness of the PC to third-party developers, when the customer is given the opportunity to develop their own hardware drivers.

Software developed specifically for the operation process must perform two main functions:

1) The function of operational accounting, which is responsible for the automatic formation of a set of basic operating documents, on the basis of which the entire process is controlled.

2) Operation management function, designed to automate the planning, organization, control and analysis of the effectiveness of maintenance activities.

The structure of the base of operational accounting is developed on the basis of a detailed analysis of regulatory and methodological documents for the operation of buildings and structures, their structures and engineering systems, modern concepts and methods of operating facilities, as well as domestic and foreign equipment for life support systems of real estate objects.

On the basis of a unified register of objects of technical accounting and the developed equipment reference book, a unified hierarchical structure (register) of objects of operational accounting is formed in the database of operational accounting.

In the register of operational accounting, the location of the equipment is determined not only in the structure of the engineering system, but also in the structure of the planning solution of the facility (in the rooms in which it is installed), which is displayed in the graphical part of the software package on floor plans. This allows the operating personnel to gain prompt access to information on the equipment and to effectively manage its operation.

The structure of the register of operational accounting is flexible and customizable, it allows you to include in it characteristics for a complete initial description of objects of operational accounting with any degree of detail, as well as information in full on planning, organizing, monitoring and analyzing the operation of real estate objects.

The initial characteristics of the objects of operational accounting include the following main groups:

ü general information about the objects of operation;

ü passport data of equipment;

ü technical characteristics of objects, their functional components and elements;

ü working characteristics of engineering systems;

ü operational characteristics of objects and their elements, including standard performance indicators;

ü operating conditions of engineering systems and equipment;

ü installation characteristics of engineering systems and equipment.

On the basis of the performed operational accounting, registers of equipment, operational passports of facilities, engineering systems and equipment are dynamically formed, including initial characteristics and information on planned and performed works, accumulated operating costs of the object in question.

As part of planning the operation of real estate objects in the software package, the following basic procedures are performed:

ü drawing up long-term long-term plans (projects) for the operation of facilities;

ü Calculation substantiation of the planned costs for performance of work on the operation and budgets for the operation of facilities for the long term;

ü drawing up medium-term operation plans based on the results of long-term planning;

ü Calculated justification of the planned costs for current repairs, maintenance, maintenance of facilities and annual budgets (projects) of their operation;

ü Calculated justification of the planned costs of utilities for the objects of operation.

The universal methodology implemented in the software package makes it possible to apply modern principles and methods of planning maintenance, repairs, maintenance and provision of facilities with utilities in accordance with a given level of facilities functioning.

Justification of the cost of the planned work on the technical operation and maintenance of facilities is provided by performing estimate calculations based on the built-in normative estimate database and the calculation algorithm developed in the software package.

The combination of a universal methodology for planning operation and the developed structure of a unified register of objects of operational accounting allows:

ü to carry out not only object-by-object, but also element-by-element planning of operation works;

ü calculate operating costs;

ü Determine operating costs to justify budgeting for the operation of real estate in the long term.

As part of the operation management in the software package, the following basic procedures are performed:

ü documentary support for the organization of work on the technical operation and maintenance of facilities, including on its own and with the involvement of third-party organizations;

ü organization of constant monitoring of the performance of works on technical operation and maintenance of facilities;

ü analysis of the performance of work on the operation of facilities and annual budgets for their implementation;

ü adjusting the timing and scope of work on the operation of facilities, as well as the scope of their prospective and annual budgeting.

Thus, the operation service gets the opportunity to move from object-based operation management to element-by-element management, to plan the operation of facilities with any degree of detail, applying the principles and methods of operation that are determined by the developed operation policy in relation to infrastructure facilities, as well as the concept of operation of each facility and element.

Rice. 7.1. Operations Register (ValMaster ™ FM)

Rice. 7.2 Planning Maintenance Costs (ValMaster ™ FM)

The integration of algorithms for budget calculations and operational planning allows them to be implemented as a single procedure and thereby significantly reduce the complexity of planning work.

The support of operation planning processes by calculation mechanisms, combined with the possibility of implementing element-by-element work planning, make it possible to ensure the transparency and validity of the formation of the budget for the operation of facilities.

The implementation of the management procedures for the operation of facilities is ensured by the dynamic formation of the corresponding operational documentation: long-term plans and schedules for the performance of work, facility and local estimates, resource sheets, technical personnel, annual budgets, etc.

Several development companies offer software for automation of operational processes. Among them, it is worth noting ValMaster Facilities Manager - an industrial platform for building corporate information systems for real estate management from ValMaster, a company specializing in software products for the real estate market. Also of interest are the development of the company IT-grad "Operation Service" and "Property Management", created on the basis of the well-known program "1C". The company "Infor" offers to use its Datastream 7i system to automate the operation management processes at the facility. This system is an American product, it has a modular structure and web-architecture, which allows you to customize it for objects of various functionality and makes it available via the Internet or a local corporate network.

Despite the obvious advantages of the above programs, they have not yet become widespread due to the complexity of management and high cost.

Automation of real estate operation processes leads to simplification of planning and control of the operation of the maintenance department, and the budget becomes an absolutely transparent and efficient tool.

When introducing an automation system, it must be remembered that the impeccably organized operation of the facility depends, first of all, on the professionalism of the employees of the operation department. Poor personnel training can negate any technical advantages of the software package. It is people with their experience and professional skills that are the main competitive advantage of the maintenance service.

By avoiding mistakes, building automation works to increase productivity and comfort. Smart devices save time and effort for employees, make staying at the workplace comfortable and safe, protect expensive equipment from excessive loads and take on any other important tasks. With them, labor productivity increases at least twice.

Maximum efficiency

Modern technologies for the automation of buildings and structures make it possible to implement almost any idea. It became possible to intelligently control the climate with maintaining a comfortable temperature and humidity, regulate the supply of fresh air to the premises depending on the number of personnel located here, control lighting depending on the outside illumination and time of day, and automatically turn off engineering systems after a working day. The list of options depends only on the wishes of the customer and, to a lesser extent, on the specifics of the object.

"Smart" technologies are always accompanied by dispatching, which collects data on the state of building automation elements. It ensures the preservation of recordings from video cameras, captures temperature or pressure drops, estimates the distribution and consumption of resources or loads - that is, it consolidates all the information that is important for safety and high results of work. The system analyzes the collected data and provides engineering personnel with work data in a clear graphical form and gives recommendations for optimization.

Continuous monitoring

When creating a unified building automation and management system, the controllers of the automation system are connected to each other and dispatch stations via the internal network, the Internet or Wi-Fi. Controllers collect and process data, control actuators, and also transmit data on the state of engineering systems to the dispatching level. In the event of failures or threats, the dispatching system gives alarm signals. All this allows you to timely avoid dangerous failures and assess the impact of specific factors on labor productivity.

The amount of information sometimes reaches impressive proportions. Therefore, complex automation projects and dispatching of engineering systems of buildings require a dispatching workplace in case of emergencies. In small firms and private houses, there is no such need - it is also possible to remotely monitor the state of systems using convenient and simple mobile applications.

Each building automation and management project is created strictly on an individual basis. There are no universal solutions here. Alfa Integration offers optimal and always successful solutions for your facility.

Today it is one of the main tasks of any construction, since during automation all engineering and information networks can be combined under one computer control. This includes the following systems:

• heating
• ventilation
• water supply
• security
• telecommunications
• electrical supply

Building automation in Moscow has already become a prerequisite due to the large amount of engineering equipment in modern buildings, rising energy prices and tightening quality control of the facilities being built. Since huge money is spent on building maintenance, implementing an automation system significantly reduces costs.

For example, during the construction of a building, about 5% of the total budget is spent on building automation, but during operation, thanks to it, you can save up to 40% of the budget. It turns out that the savings in operation during automation are several times greater than the savings during the construction phase.

The minimum comfort requirements for a building by consumers are ventilation, air conditioning and heating, which consumes most of the energy consumption in the building. The company "Art-In" carries out the automation of these and other systems in commercial and residential buildings, large structures, urban and private buildings.

What subsystems can be monitored?

The concept of “Smart Home” is a fairly widespread phenomenon in modern society. The automation system allows you to control absolutely all electrical appliances and engineering systems, monitor the correct operation, even when you are far from home.

Building automation works in the same way, but on a larger scale. Thanks to her, you can control:

• power supply - you can control the supply of energy to all consumers, carry out quality control in normal and emergency modes, monitor the overload of lines, check the health of elements (substations, power cables, batteries, and others), turn on the economy mode and much more
• lighting - you can control the switching on and off of lights on stairwells, in duty and emergency rooms, supply light to certain parts of the building at a certain time, control the lighting in the courtyard and obstruction lights
• heating and hot water supply - you can control the heating system, check the air temperature in the room, check the serviceability of the pipelines, monitor the state of the recharge of the circuits, pressure, and so on.
• cold water supply - you can control all technological equipment, maintain optimal pressure in pumps, check drinking pumps, fire systems, water filters, monitor the condition of pipes and much more.
• ventilation - automatically maintain the optimal air temperature in the premises, check the state of moisture in the whole building, in individual blocks, turn on or off individual objects or the entire ventilation system if necessary, check energy consumption, and more
• climate control - individual or decentralized control of climate, humidity, heating and ventilation systems in separate rooms and rooms
• security - checking the operability of all video cameras, sensors, alarm systems, turning them on / off, monitoring power consumption, managing the system in emergency mode, and more
• engineering systems - checking the condition of all drains, sewers, roofs, basements, monitoring water leakage, gas pollution, the environment, elevator equipment, energy accounting and much more.

The above parameters can only give a general idea of ​​what and how can be controlled in building automation. Thanks to this “smart” system, absolutely all engineering systems and devices are under control: if a breakdown occurs somewhere or a pre-emergency situation appears, the “Smart Home” system instantly reacts, blocks the operation of a specific section and notifies about the breakdown.

Building automation benefits

In modern construction, this task presents a number of advantages for both investors and residents, and even for maintenance services. Let's take a look at some of the benefits:

• for investors - the value of the building increases and its status rises; the life of the entire building is getting longer, which leads to a decrease in accidents and emergencies, which increases the interest of landlords.
• operational services - one information space can be created to increase the functionality of the services; to coordinate the work of all automated engineering systems of the building; high level of resource management; lower costs and better working conditions
• for residents - comfort; security; cost reduction

It is advisable to introduce automation at the time of construction of a building or major repairs, since in order to combine all engineering systems into one control system, it is necessary to carry out test work in advance, make sure that all devices and systems are working properly and will not require replacement in the near future.

After that, an assessment of all parameters of residential, municipal and commercial premises is carried out, where all the nuances must be taken into account, because they can greatly affect the operation of the system. Once this check has been completed, a work plan is drawn up for the installation of hardware, software and associated sensors.

The next step is to install the system and test it. Since the “smart home” independently controls absolutely all engineering systems, it takes a certain amount of time for the program to study the load on various installations at different times and work schedules. After the program receives all the necessary data, the most optimal mode of operation and control is established.

Automation can be carried out both comprehensively and in stages.

IS Ecolife is ready to perform work on automation and dispatching of engineering systems for your facility. At the same time, we both design and implement intelligent solutions for objects of various purposes: residential and office buildings, cafes and restaurants, shops and supermarkets, public and administrative buildings.

In addition, IS Ecolife performs one-time and periodic maintenance of automation and dispatching systems, as well as their current repair and, if necessary, diagnostics and troubleshooting.
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Automation and dispatching of engineering systems

One day to build and literally forget about the existence of engineering systems allows automation and dispatching. Without automation, any of the subsystems would have more problems than comfort, since it would require constant and careful attention to its work.

Has the desired temperature been reached? Will the water in the heater freeze? Is the tank overfilled? Will the air heater burn out? Is there a water flow? Is your blood pressure normal? Is there tension? Which sensor has triggered? And this is not a complete list of questions to which the automation and dispatching system gives answers.

The complexity and cost of such systems depends on the level of their intelligence and the number of functions performed. However, any automation system must perform basic functions, which in relation to, for example, ventilation and air conditioning systems, are the following:

Monitoring and control of the operation of units that are part of the equipment of ventilation and air conditioning systems,
- Control of valves and dampers,
- Ensuring safety: blocking the heater in the absence of air movement, protection against freezing of the water air heater,
- Protection of equipment against overheating, short circuit, incorrect connection,
- Indication of the state of the operating equipment,
- Performance regulation,
- Centralized temperature control in all rooms,
- Implementation of a temporary control algorithm (daily / seasonal / annual) without the intervention of service personnel.

In addition, automation is mandatory for heating systems, is very popular in electric lighting systems, and can also be introduced into the power supply system, security, etc.

Automation and dispatching are numbers 1 and 2 in the list of principles for the design and construction of modern engineering systems. On the one hand, technology strives to ensure that networks work with minimal human participation - as they say, built, launched and forgotten. On the other hand, the customer is tasked with ensuring the most reliable control of the processes occurring in the network along its entire length.

In the event of a change in the parameters of the system and various emergency situations, a signal about this should immediately go to the control center, where the automation or the human operator will make an operational decision. So, if the pressure in the water supply system drops, the automation must immediately turn off the emergency section. If there is a threat of melting of the heating element, disconnect the input voltage or reduce the amperage.

In addition, from the control center, commands should be given as quickly as possible to change the parameters of individual sections of networks or the entire network in the event of a change in external conditions. For example, when the air temperature in a heated house drops, the power of the boiler is automatically increased. If the incoming voltage drops in the external electrical network, stabilizers, uninterruptible power supplies, and, if necessary, an autonomous generator or other backup line come into operation.

Automated control of building engineering systems is carried out on the basis of industrial controllers. The main advantage of controllers is their functionality and uniformity, that is, one and the same controller can control any engineering system.
Depending on the connection of the required sensors to any engineering system, the engineer chooses a controller that matches the number of digital and analog inputs and outputs.

After completing all the work on the selection of controllers, sensors, other necessary elements, laying communication lines, the programmer proceeds to visualization and programming of processes directly on the computer. Programming and visualization of processes is carried out in the so-called SCADA system, which is represented by various computer programs, depending on the manufacturer of the equipment and the data transmission interface.

Examples of automation of household and industrial systems

Ecolife Engineering Systems has significant experience in the design, installation, commissioning and maintenance of engineering systems of any complexity, length and localization. We work with a wide variety of environments:

Water (automation of water supply, heat supply and heating systems);
- air and gas-air mixtures (automation of ventilation and air conditioning systems);
- various industrial fluids and liquid fuels;
- intangible objects - electricity, light, radio waves.

Our engineers and installers carry out professional installation and adjustment of auxiliary automated systems - fire extinguishing, burglar and fire alarms, remote access control, interior and facade lighting.

In all cases, the emphasis is on the maximum autonomy of the systems. For automatic lighting control timers are used, adjusted taking into account the calendar duration of the day and night, photocells that record the natural illumination of a room or terrain, motion sensors configured to move objects of a given mass and size.

The control of the perimeter or internal volume is carried out by electromagnetic sensors that record the crossing of a conditional border or movement within it.

A fire signal is given by devices that analyze the state of the atmosphere and the ambient temperature. The smoke analyzer, having caught the particles or molecules of combustion products in the surrounding space, simultaneously sends a signal to the central control room and activates the local means of fighting the fire. Automation reacts in the same way in the event of a sharp increase in the temperature of the air or surrounding objects.

As we have already indicated above, automation is needed not only for emergency response in the event of a fire, flood or intruders entering the facility, but also for resolving quite normal situations associated with a change in the degree of load on the network. For example, in industrial production, working in one or two shifts automation of power supply systems will allow, without human intervention, to increase the power supply capacity of the facility every morning, and every evening to reduce it. Our specialists will quickly and professionally install the necessary equipment that will help optimize energy consumption and reduce current payments to resource supplying organizations.

Building and network management systems

The larger the facility on which the automated engineering systems are mounted, the more important is the role of their dispatching - that is, remote control and management of engineering systems and notification of all processes occurring in the system. In a large building or structure, where pipes, air ducts, power cables and SCS have a length of tens and hundreds of kilometers, and the accessibility of many nodes and sections for technical and design reasons is very difficult, the availability of a workable end-to-end monitoring system comes to the fore.

Dispatching concerns two main parameters - the state of the media moving through the engineering systems and the state of the engineering systems themselves.

To measure the parameters of the content of networks, sensors of temperature, pressure, density, viscosity, direction and speed of movement, chemical analyzers are used. System state sensors react to cracks, ruptures, corrosion, mechanical damage to valves and fittings, blockages, salt or oxide deposits on pipe walls and other negative changes that can affect the effective operation of the engineering structure and jeopardize the safety of the facility. In the case of power supply systems, the measuring equipment records the current voltage and current strength, an abnormal increase in resistance in certain sections of the network, which leads to an increase in energy consumption and overheating of cables, which in turn can cause a short circuit or a fire. If we are talking about production with several sections that consume a large amount of industrial current, then competent dispatching of the system will allow rationally distributing the loads, thus saving electricity and preventing excessive load on one line in comparison with others.

Automation of ventilation and air conditioning systems

Ventilation in modern buildings is represented by a supply and exhaust ventilation system with heat recovery in winter. This system provides for the installation of a number of sensors: a sensor for the temperature of the incoming outdoor air, a sensor for the temperature of the air leaving the atmosphere, a temperature sensor for the discharge pipe of the air heater, a temperature sensor for the outgoing air stream from the building, a room temperature sensor, a pressure and air velocity sensor in the air duct. It is also necessary to monitor the operating mode of the supply (supply) and exhaust fans, the state of the recuperator, clogging of the air duct filters and other parameters. For the control and operational regulation of all these parameters of the system, automated control systems based on industrial controllers are used.

In commercial buildings (shopping, entertainment centers, restaurants, airports, etc.), there is a need for centralized control of split systems or a set of systems with a chiller-fan coil. Management can be carried out on the basis of an industrial controller with a supervisory control system.

Dispatching and automation of ventilation and air conditioning systems in a large office center, it will also save the costs of operating systems by taking into account such factors as temperature and humidity in the room and outside the window, the number of people working in the premises, and insolation of the building. A modern automatic climate control program can save up to 50% in energy compared to a typical situation when all air conditioners in a building are turned on at full capacity in summer. In addition to the financial benefits, optimization in terms of the climate will allow avoiding personnel losses - after all, it is well known that uncontrolled operation of air conditioners and climate systems is the main cause of colds in the summer.

Engineers of our company will carry out the necessary calculations for the ventilation and air conditioning system, carry out the installation of automation equipment and, together with the company's programmers, will set up the system in the shortest possible time.

Alarm systems automation

Literate signaling systems dispatching- a guarantee of the safety of any object. Professionals of the EKOLIFE company are ready to perform work on the complex installation of security systems of any level of complexity. We work with perimeter alarms, protection of the internal space of open areas and closed spaces, protection of specific objects intended for storing inventory items or playing any other important role (safes, storage rooms, storerooms, archives, armory rooms, control and communication centers, etc.). etc.).

The most important is reliable dispatching when arranging perimeter security systems, which can be tens of kilometers long. More than ten types of signaling have been invented in the world, but they all operate according to the same principle: as a result of an attempt to penetrate the perimeter (or even when approaching a conventional line), a certain electrical circuit is opened (or vice versa), as a result of which an alarm signal is sent to the control center ... In modern security systems, penetration can also cause other forms of reaction - turning on emergency lighting, video recording and photographic recording systems, warning sirens, blocking outputs, etc. Turning to the specialists of ECOLIFE Group of Companies for help, you can make your object practically invulnerable to all forms of ill-wishers and intruders.

Automation of heating and heat supply systems. Boiler room dispatching

Our interests extend not only to large industrial facilities that provide large volumes of design, installation, commissioning and service work. With the same responsibility, we are ready to automate and dispatch engineering systems at low-rise construction sites.

Many owners of cottages and summer cottages strive to equip their homes with the latest technology, initially without thinking about the cost of operating systems. Meanwhile, our experience shows that the correct placement and equipment of networks will make their operation not only convenient, but also economically profitable.

In a small country house, this applies primarily dispatching of a boiler house and a heat point, which will allow you to efficiently use natural gas or other fuel and maintain an optimal energy balance at home using an autonomous heating system.

IS Ecolife specializes in the automation of all types of heating of residential buildings and other premises.
Temperature sensors are used to automate the heating process. At the request of the client, a choice of temperature control method is made taking into account the optimality criterion. To set the required parameters of the system operation, control panels are used, which, together with sensors and servo drives, are connected to the controller.

Optimization of heat in residential buildings has been a trend in developed countries for over a decade and a half. Gradually, it begins to gain popularity in Russia, although our climatic conditions are objectively more difficult than in Europe, where the philosophy of internal energy efficiency was originally born. It is curious that in English such a house is called a passive house.

In Russia, with its sharply continental climate, it is hardly possible to do without heating and build a completely “passive house”. But by setting up a competent accounting of heat consumption, using effective insulating materials and controlled heating systems, you can minimize fuel consumption, and therefore material costs, and harm to the environment.

Boiler room dispatching with the help of IS ECOLIFE specialists - the most important part of the device for autonomous heating at home. Often, boilers are installed directly in basements and plinths, however, from the point of view of fire safety and environmentalists, it is better to do this in a separate building. Heat loss when supplying hot water from the boiler room to the house with high-quality insulation is insignificant.

Having established remote control over the operation of the boiler room, the owner of the house can control fuel consumption, steam pressure in the heat exchanger, water temperature in the circuits, percentage of mixture combustion and other parameters directly from the office. Information comes both from a variety of sensors and visually using video cameras. Telemetry information can be broadcast by wire and wireless communication channels (bluetooth, Wi-Fi, radio). Dispatching can also be organized at remote sites, controlling, for example, the operation of a boiler room in a country house from a city apartment, office, or simply from a mobile phone, being on the other side of the world. Modern mobile and information technologies provide unlimited opportunities for organizing both control room at the facility and a virtual control room on the World Wide Web.

Five advantages of working with IS ECOLIFE

By ordering services for automation and dispatching of engineering systems from EKOLIFE, you can safely count on the following competitive advantages:

1. The highest professionalism and many years of experience of our specialists, always focused on results and accustomed to unconventional ways of solving the most complex technical problems.
2. Equipping with innovative equipment, modern tools, materials of the latest generation.
3. Focus on digital technologies and achievements of the global IT industry.
4. Rationality and ability to adapt to any situation. If we see that a good old relay can at the current stage successfully replace an expensive electronic module for controlling the heat exchange system, we will never insist on excessive spending and will offer our client all the options for completing the system. The well-being of our customers is ultimately our well-being.
5. A universal approach to the design, implementation and implementation of projects. Our experts are ready to carry out the same high quality automation project for a small cottage, and dispatching of heat points an apartment building, and complex automation of engineering networks of a shopping center or industrial building. The scope of work never scares us, on the contrary, they serve as an incentive for our specialists to reveal all facets of their knowledge and talents.