Heat pump Raymer RAY-24DS2-EVI (380V) has power 24 kW, making it ideal for efficiently heating rooms of to 350 sq.m. It provides significant energy savings up to 80% compared to traditional heating systems, which reduces heating costs.

Using green energy, this heat pump helps reduce CO2 emissions and has a positive impact on the environment.

Inverter technology allows you to adjust the pump power depending on demand, providing stable and efficient heating of the room. Thanks Enhanced Vapor Injection technology (EVI), Heat pump can operate at low temperatures up to -30 °C, which expands the possibilities of use in different climatic conditions.

The equipment is highly reliable and has a long service life, ensuring stable and uninterrupted operation for many years. Split system, separating the pump and the indoor unit, provides flexibility in equipment placement and aesthetic appearance, fits harmoniously into the interior of the room.

New design in black, as a result of the latest developments and research in the field of heating equipment for better absorption of heat from the environment, makes heat pump Raymer RAY-24DS2-EVI (380V) the best choice among other heating systems.

Features of the Raymer heat pump RAY-24DS2-EVI (380V):

1. Energy Saving

A heat pump is an energy-saving heating solution. Heating systems based on heat pumps can save up to 80% electricity compared to traditional systems (gas or electric boiler). This occurs by using heat from the environment for heating instead of directly producing heat.

Comparative analysis shows, that even in cold conditions the heat pump is able to operate efficiently, providing warmth in the house while reducing energy consumption.

2. Ecological cleanliness

The use of R-32 freon makes it an environmentally friendly option. Refrigerant R-32 (dichloromethane) is a modern and more environmentally friendly refrigerant, which is widely used in heat pump systems. It is known for its efficiency and low environmental impact.

Main characteristics of R-32:

• Global Warming Potential (GWP): 675 – significantly lower, than R-410A (2088).
• Impact on ozone layer depletion equal to zero (Ozone Depletion Potential – ODP = 0).
• High energy efficiency due to better heat capacity compared to other refrigerants.
• Reduced consumption in systems (на 20-30% less, than R-410A).
• Boiling point at atmospheric pressure: 51-65°C.
• Operating pressure R-32 is similar to R-410A, but a little higher. This requires the use of systems with highly durable equipment.
• Clean refrigerant (not a mixture), making it easy to recycle and reuse.
• Safety class: A2L (slightly flammable).
• Due to the high heat capacity of R-32 systems can operate with less power consumption, which reduces operating costs.

3. Quiet operation and comfort

Raymer heat pump has silent operation, which allows its use in various residential premises, without disturbing comfort.
The built-in cooling function in the standard version of the pump ensures a pleasant indoor microclimate even in the hot season.

4. Inverter technology

Inverter technology in the heat pump allows the pump power to be adjusted depending on actual needs. It means, that it operates at maximum efficiency, adapting to changes in external conditions.

The advantages of such a system are more stable and comfortable heating, as well as additional energy savings.

5. EVI technology

EVI technology (Enhanced Vapor Injection) enables the heat pump to operate even in low temperature conditions, to -30 °C. This expands the scope of application of the pump, making it suitable for different climate zones.

6. Built-in Wi-Fi module Wi-Fi module

Built-in Wi-Fi module allows you to control the heat pump from a distance. Wherever you are, you can turn on/off the heat pump, and also track its performance with access to the Internet.

The convenience of this function is that, that even being on a trip, you can turn on and set the heating or cooling operation in advance, and enjoy a comfortable temperature in the house upon arrival, without waiting for the system to work at full capacity.

7. Completely new design

Heat pump Raymer RAY-24DS2-EVI (380V) 24 kW split system, is characterized by high reliability and durability. Modern technologies and high-quality materials ensure long service life of the equipment, and the new black color of the external and internal heat pump units harmoniously fits into the aesthetic appearance of the facade and interior of the house.

Why did we choose black in the new design??

Modern aesthetic look

Black color gives products stylish and modern look, which easily fits into various interiors. It is associated with premium class and high quality.

Practicality

Black surfaces less susceptible to visible contamination, dust and scratches compared to white or light-colored surfaces. This reduces the need for frequent cleaning and maintenance of the device, which is user friendly.

Thermal properties

Black color has better heat absorption ability, which can be useful for outdoor units of heat pumps in the cold season. This helps prevent icing and improves operating efficiency.

Trends and consumer preferences

Consumers often choose technology, that matches their lifestyle and interior design, and black is often considered versatile and elegant.

A reflection of quality and durability

Black color is associated with durability and strength. This emphasizes the reliability and long service life of heat pumps, what is important for consumers when choosing such equipment.

New, improved controller with advanced features

Controller CCHW004 for inverter heat pump Raymer RAY-24DS2-EVI (380V) Provides precise temperature control and efficient heat pump control, which allows you to achieve high efficiency and reliability of the heating and cooling system.

Features and functions of the advanced controller CCHW004:

Temperature and pressure measurement:

The controller receives data from various sensors, installed on the system. Sensors measure inlet and outlet water temperatures, return and exhaust gas temperature, ambient temperature, as well as the temperature of the evaporator and condenser coils. Pressure indicators are also monitored using high and low pressure sensors.

Data processing and decision making:

The controller analyzes the received data to determine the current state of the system. Based on this data, it regulates the operation of the heat pump components to achieve optimal efficiency and maintain set parameters. This includes water and air temperature control, as well as system pressure.

Safety and Security Features:

The system monitors the operation of the heat pump for possible emergency situations. If such situations arise, For example, overheating or exceeding permissible pressure, the controller can automatically turn off individual components to prevent damage.

Intelligent control and memory:

The controller is equipped with a memory function, which allows you to save settings and parameters even in the event of a power outage. Besides, it supports network connection via Tuya WIFI, which allows remote control and monitoring of the system.

User Interface:

For user convenience, the controller is equipped with a color touch TFT display, through which you can configure and control the operation of the heat pump. The display shows all key system parameters, as well as messages about the current status and possible faults.

System Component Management:

The controller controls the operation of the water pump, fan, electric heaters and valves. Depending on operating mode (heating, cooling or hot water preparation), it automatically turns these components on or off, ensuring optimal system performance.

EVI Technology Overview (Enhanced Vapor Injection) in the Raymer RAY heat pump

EVI technology (Enhanced Vapor Injection) in the heat pump Raymer RAY-24DS2-EVI (380V) is an improved feature, which increases the efficiency and performance of the heat pump, especially in low temperature conditions. EVI technology works by injecting additional steam into the compression process, allowing the heat pump to maintain higher levels of efficiency even when operating in colder climates.

In a standard heat pump, when the outside temperature decreases, the efficiency, usually, is decreasing. However When using EVI technology, the heat pump can optimize its performance thanks to regulation of refrigerant flow and injection of additional steam. Also, overheating the refrigerant before the refrigerant is injected into the compressor increases the pressure and temperature at the compressor outlet (which increases the temperature of the liquid, coming out of the condenser). The result is increased thermal output and efficiency, which makes the heat pump more suitable for operation in winter conditions.

The main advantages of EVI technology include:

1. Extended operating range: EVI allows the heat pump to operate efficiently at lower temperatures, which expands its range of applications and makes it suitable for use in colder climates.
2. Improved Thermal Performance: Technology increases pump thermal output, ensuring reliable and stable operation even in suboptimal conditions.
3. energy efficiency: Optimizing the refrigerant cycle, EVI technology helps improve energy efficiency and reduce overall energy consumption.
4. Better defrosting ability: Steam injection helps prevent frost formation on the external heat exchanger, improving the heat pump's defrosting ability.

So, EVI technology is the most important feature of the Raymer RAY heat pump, making it a more versatile and efficient solution for providing heating in a variety of weather conditions, especially in the cold season.

Using a Panasonic compressor

Heat pumps Raymer RAY-24DS2-EVI (380V) use Panasonic DC inverter compressors. These compressors are variable speed compressors, powered by DC inverters. Speed ​​modulated using external variable frequency drive - to control compressor speed. The refrigerant flow rate is modulated by changing the compressor speed. The reduction factor depends on the system configuration and manufacturer. It is modulated from 15 or 25% to 100% at full power. It means, what is a heat pump, working with DC inverter compressor, can easily adjust its performance according to need, simply by changing the compressor speed. Unlike the usual one- or two-stage compressors, heat pumps, equipped with DC inverter compressor, won't turn on or off, but operate continuously at lower speeds.

Operating principle of the Panasonic compressor

The liquid from the condenser is divided into two parts. A smaller portion of the liquid expands through an additional expansion valve, and then goes (or leaking) into a counterflow plate heat exchanger. Main part of liquid, coming out of the capacitor, cooled through economizer, simultaneously vaporizing and superheating the injection mass flow. This optional plate heat exchanger, which is more commonly called an economizer, valid, Thus, as an additional cooler for the main liquid flow and as an evaporator for the injected liquid flow. The superheated steam is then injected into the intermediate steam injection port in the scroll compressor.

Additional subcooling increases evaporator performance by reducing liquid temperature from TLI to TLO, thus reducing its enthalpy. Additional condenser mass flow increases heating power by the same amount.

The efficiency of a scroll compressor with steam injection is higher, than a conventional single-stage scroll compressor with the same power, since additional power is achieved with proportionally less power. Mass injection flow, created during supercooling, compressed only due to higher interstage pressure, rather than due to lower suction pressure.

The additional subcooling effect of the EVI configuration allows the heat pump to draw heat from outside at lower outside temperatures. This might explain, why heat pumps with DC inverter (without EVI) operate in the range from -20⁰C to 45⁰C (outside air temperature), while heat pumps with EVI DC inverter operate between -30⁰C and 45⁰C (outside air temperature).

Built-in Shinhoo circulation pump

Circulation pump for Raymer heat pump from Shinhoo designed for heat pump systems. It is used to transfer thermal energy from low temperature objects to high temperature objects.

Shinhoo GPA H model has terminal box (with built-in printed circuit board), isolated from the engine housing, making it an ideal choice for heat pump systems. Regardless of the season (heating or cooling), your heat pump will always work efficiently thanks to a reliable pump.

Advantages:

Ease of installation and operation: The pump is equipped with pulse width modulation (PWM), allowing you to adjust its operation according to your needs, reducing noise levels and significantly increasing communication distance. Controlled by digital low voltage PWM signal, allowing the pump to be used for a variety of systems with different flow requirements.

Low noise and high comfort: Noise level: ≤42 dB(A)
Low energy consumption: The minimum power consumption is 3 Tue..
Eco-friendly design: Efficiency index EEI ≤0.21 (Part-3)
Quick release power connector: Provides quick start and stop of the pump.
Multifunctional protection: This pump is equipped with multifunctional protection, including overvoltage and overcurrent protection, as well as low voltage and low current protection, overheat protection, which provides additional reliability and safety.

Special Blue Fin heat exchanger coating

Blue Fin coating is a highly effective protective coating, which is applied to aluminum fins in heat exchangers of Raymer heat pumps.

This coating provides several key advantages, which increase the durability and efficiency of equipment:

Corrosion resistance: Blue Fin coating provides superior corrosion resistance, especially in harsh conditions, such as coastal areas or industrial areas, where salts and other corrosive substances are present. This helps extend the life of the heat exchangers, protecting them from rust and destruction.

Preventing moisture penetration: By preventing moisture penetration, Blue Fin coating reduces the risk of damage, caused by drops of water, which can lead to corrosion and other problems in the coils and fins.

Impact resistance: Coating provides flexibility and impact resistance, making the fins more resistant to physical damage during operation and maintenance.

Protection from dust and debris: Blue Fin coating prevents dust and debris from accumulating on the fins, which can obstruct airflow and reduce the efficiency of the heat exchanger. This facilitates maintenance and ensures stable operation.

Increased efficiency: By maintaining clean and non-corrosive fins, coating helps maintain heat exchanger efficiency, ensuring optimal thermal performance throughout its service life.

Generally, Blue Fin coating is an important feature for heat exchangers, used in difficult conditions, providing protection, which increases durability, efficiency and ease of maintenance.

Raymer pump operating modes RAY-24DS2-EVI (380V)

Heating mode:

In heating mode, the fans of the outdoor unit of the pump operate at an adjustable speed.

The pump uses an air-refrigerant heat exchanger, located at the rear of the unit, as an evaporator. This component plays a key role in the heating process.

During operation, the pump draws in outside air through this heat exchanger. Low temperature air is enriched with heat, recovered from refrigerant, and it gets warmer.

The heat exchanger transfers this heated air inside the building, where it is used for room heating.

The cooled air, after passing through the heat exchanger, is discharged outside through the fan grilles, which are located at the front of the pump.

Cooling Mode:

In cooling mode, air-refrigerant heat exchanger acts as a condenser.

Hot gas, circulating in the system, transfers its heat to the refrigerant, which in turn transfers this heat to the outside air through a heat exchanger.

Cool air, after cooling with refrigerant, enters the room and cools it.

Hot air, after transferring heat to the air outside, is discharged through the front fan grilles.

This process allows you to effectively regulate the indoor temperature depending on the operating mode of the Raymer heat pump. Besides, important to consider, that when working in cold conditions, when there is a risk of freezing, Antifreeze can be used to prevent system damage at low temperatures.

Outdoor unit dimensions

Air-to-water heat pump Raymer RAY-24DS2-EVI (380V) 24 kW, split system, represents an advanced solution for heating homes. Its efficiency, ecological cleanliness, inverter technology, EVI technology, as well as high reliability and durability make it an attractive choice for those, who strives for efficient and sustainable heating.

Features

Power consumption during heating Power consumption for cooling	5,8 KWT 7 kW
COP ratio	3.9~4.6
Rated heat output Rated cooling capacity	24 KWT 19 kW
EER coefficient	2,7
Heat carrier heating temperature	55℃/60℃
Freon line dimensions	1/2″_3/4″ (12,7+19,05)
Water connection	DN32
Power supply	380V/1N/50HZ
Working range of outside temperatures	-30℃/+43℃
Device dimensions , mm: net size (outdoor unit) (Sh * D * AT) net size (indoor unit) (H × W × D)	1130*540*1457 550*420*920
Device weight, kg.: Net weight Gross weight	220 235
Noise level, Db	≤70
Refrigerant type	R32
Compressor type	Panasonic Rotary EVI DC inverter
Expansion tank of the indoor unit,l.	5
Circulation pump	Shinhoo Master H 25-9
four way valve	Sanhua
Heat exchanger on the water side	Brazed plate heat exchanger SS 316
Circulation pump efficiency class	A / A +
wifi module	built-in
Controller	CCHW004 with touch screen
Number of fans	1
Housing material	Galvanized steel, painted black
IP Grade (protection level)	IPX4
Outlet hot water temperature range (℃)	25-60
Outlet cooling water temperature range (℃)	7-12