Tasks the project
The client turned to our company to organize a private house heating area 120 м², where the warm floor system was planned. The main goal was to find an effective and economical method of heating, which would provide comfort in the cold period and minimize electricity costs.
After analyzing the options, the inverter heat pump Raymer Ray-13DS1-EVI was selected 13 kW. This modern equipment is characterized by high energy efficiency and stable work even at low temperatures. An electric boiler remained as a backup source of heat in the system, which was installed earlier.
Stages of work
1. Outdoor unit installation
The outer block of the heat pump Raymer Ray-13DS1-EVI was installed outdoors near the wall of the house. To ensure stable operation and protection against vibrations, the block is mounted on a special metal structure, which is securely fixed to the foundation of the house. This arrangement provides the correct air circulation and the convenience of maintenance.
Freon line, connecting external and internal blocks, laid through the wall, which minimizes the loss of cold or heat during the operation of the system. To protect against external factors, the highway is insulated with a rubber tape. The drainage system is provided for the effective removal of condensate, the pump formed during operation.
2. Installation of the heat pump of the heat pump
To ensure efficient and economical heating of the house, a heat pump hydromodule was installed and connected Raymer RAY-13DS1-EVI. The main task was to integrate the heat pump into the heating system, which consists of a warm floor, tank-drive and collector unit.
The hydraulic engine was mounted inside the boiler room, which provides its protection against external influences and optimal working conditions. It is connected to the outer heat pump unit, which is located on the street, Through the relevant highways.
Hydraulic module Connected to the tank-drill, which plays the role of buffer capacity. This solution avoids sharp temperature fluctuations and provides uniform heat distribution throughout the system. The boiler accumulates and maintains the temperature of the coolant, which contributes to the stable operation of the heating system.
Was added to the system three way valve, which controls the flow of coolant between two consumers - a warm floor system and radiators. Depending on the temperature parameters and the settings of the controller, the valve automatically directs the flow of the coolant in the right direction, optimizing the work of the entire system.
To ensure efficient coolant circulation, a circulation pump. He has a variable speed of rotation, which allows you to automatically adjust the flow rate depending on the needs of the system. The pump is also equipped with temperature sensors, which allows you to maintain the specified parameters as accurately as possible.
The system is equipped with a Wi-Fi controller, which allows you to remotely control the operation of the heat pump and temperature parameters through the mobile application. This ensures the convenience of use and the possibility of prompt response to changes in weather conditions.
3. Installation and connection of a tank-drive on 60 l
As part of the modernization of the heating system, there was The installation of the RAYMER IMP volume is installed 60 l. Its main task is Brush the coolant, Providing the uniform distribution of heat by the underlying system and the stability of the temperature regime.
The drive tank was mounted on the elevation, which ensures its effective work and facilitates the circulation of the coolant. This arrangement contributes to stable hydraulic balancing of the system and prevents the formation of air plugs.
Connection to a heated floor system
Entrance highway: Coolant, Heated by thermal pump, fed to the booster tank before, how to get into a comb warm floor. This makes it possible to avoid sharp temperature drops and provides uniform heat distribution.
Lesson highway: From the tank, the coolant flows into the heated floor comb, where it is distributed by individual circuits in accordance with the needs of each room.
The storage tank stabilizes the operation of the heat pump and reduces the number of its inclusions/shutdown, extension of the equipment operation. Provides the optimum temperature of the coolant, which is especially important for a warm floor system, which requires a lower feed temperature, than radiator heating. Helps to balance the operation of the pump and avoid hydraulic differences in the system.
The tank is connected to the system via three way valve, which regulates the flow of the coolant between it and other consumers.
Used circulation pumpwith, which provides constant movement of the coolant, pumping it from a tank to the system.
For temperature control Sensors and controller are installed, which allow the control of heating of the coolant in accordance with the needs of users.
4. Connection of a hot water supply tank
In the heating and hot water supply system, a GVS tank was installed, which provides heating and supplying hot water for household needs. The tank is located at a fairly large distance with the heat pump. Connection to the heat pump was carried out through the built -in heat exchanger, through which hot coolant circulates, Heating water inside the tank. This provides an effective and economical process of heating without unnecessary electricity consumption.
The tank is connected to the water system of the house: Cold water supply occurs through the corresponding input, After which it heats up and is distributed to consumption points, such as bathrooms and kitchen. To ensure the constant presence of hot water in the pipeline, a circulation pump is installed, which supports the continuous movement of hot water. This avoids a long drain of cold water before receiving hot.
The water temperature in the tank is controlled automatically using a built -in thermostat, which allows you to maintain a comfortable heating level. If necessary, when the temperature drops below the given value, an additional electric heating element can be activated. Such a system allows you to ensure a stable supply of hot water, optimize electricity consumption and increase overall comfort in the house.
The main characteristics of the inverter pump Air-water Raymer Ray-13DS1-EVI
Power: 13 kW
Inverter technology: Provides smooth adjustment of heat pump power depending on heat demand, which increases its efficiency and reduces energy consumption.
Working temperature range: The heat pump operates efficiently at outside temperatures down to -25°C, allowing it to be used even in the coldest winter months.
energy efficiency: High energy conversion efficiency provides significant savings on heating costs.
Environmental friendliness: Using a heat pump reduces CO2 emissions, which has a positive impact on the environment.
Frost protection: The design features of the split system prevent freezing of the outdoor unit, which ensures uninterrupted operation of the system.
Comparison with other heating systems
The Raymer Ray-13DS1-EVI heat pump has significant advantages over other heating systems, in particular compared to traditional electric and gas boilers:
- energy efficiency: Heat pumps consume significantly less electricity compared to electric boilers, which reduces heating costs.
- Environmental friendliness: Unlike gas boilers, heat pumps do not emit harmful substances into the air, which makes them more environmentally friendly.
- Comfort: Heat pumps provide more stable and uniform temperatures in your home, which increases the comfort of residents.
Installation of the Raymer Ray-13DS1-EVI inverter heat pump in a private house in the city of Vinnitsa, is a profitable solution for reducing heating costs and increasing living comfort.
