Product Description
Products Features
1.According to customer`s requirement, this item can be widely applied to hotels, restaurants, food medicine store, agriculture, chemical engineering and other industries.
temperature range from -5 ĀŗC to 10ĀŗC , and -10 ĀŗC to 18ĀŗC.
2. Closed box type with compact structure and good appearance;
3. Equiped matched with copeland, CHINAMFG and CHINAMFG and other freezing scroll compressor.
4. Condenser with copper pipe plus aluminum fin type for high efficiency ans stabilization.
5. Terminal box with convenient wiring.
6. Convenient to engineering and repair with installation stop valves.
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Technical parameter
Mini type condensing unit middle-high temperatureĀ parameter
| Model | 200H | 300H | 400H | 500H | |||
| CompressorĀ model(copeland, Sanyoo, Dakin, Danfoss) | 2HP | 3HP | 4HP | 5HP | |||
| Cooling capacity | Evaporation 7ĀŗC | W | 6150 | 8870 | 12000 | 14700 | |
| Ā | Evaporation 5ĀŗC | W | 5730 | 8260 | 11050 | 13700 | |
| Ā | Evaporation 0ĀŗC | W | 4770 | 6890 | 8880 | 11250 | |
| Room temperature | ĀŗC | 5~10ĀŗC | |||||
| Refrigerant | R22 | ||||||
| Supply power | 380v/3P/50HZ | ||||||
| Condenser | Fan qty | 1*Ī¦450 | 1*Ī¦450 | 2*Ī¦450 | 2*Ī¦450 | ||
| Fan voltage | V | 220 | 220 | 220 | 220 | ||
| Fan power | W | 60 | 60 | 60*2 | 60*2 | ||
| Interface | Suction interface | mm | Ī¦16 | Ī¦16 | Ī¦19 | Ī¦19 | |
| Liquid interface | mm | Ī¦10 | Ī¦10 | Ī¦12 | Ī¦12 | ||
| External dimension | L | mm | 1571 | 1571 | 1571 | 1571 | |
| W | mm | 420 | 420 | 420 | 420 | ||
| H | mm | 840 | 840 | 1240 | 1240 | ||
| Installation dimension | (A * B) | mm | 580*380 | 580*380 | 580*380 | 580*380 | |
Design condition: Evaporator temp. 5 ĀŗC, ambient temp. 35ĀŗC, suctionĀ superheat 10ĀŗC
Open type CHINAMFG condensing unit parameter
| Compressor | Supply power | Cooling capacity | Air cooled condenser | Connection pipe spec. | External dimension | ||||||
| Heat transfer area | Air volume | Fan diameter | Motor capacity | Inlet pipe | Outlet pipe | Length A | Width B | Height C | |||
| 2HC-2.2H | 380v/3Ph/50HZ | 3380 | 18 | 3000 | 400 | 190 | 16 | 10 | 700 | 600 | 580 |
| 2GC-2.2H | 3990 | 18 | 3000 | 400 | 190 | 16 | 10 | 700 | 600 | 580 | |
| 2FC-3.2H | 4820 | 22 | 3000 | 400 | 190 | 16 | 10 | 700 | 600 | 580 | |
| 2EC-3.2H | 5670 | 22 | 3000 | 400 | 190 | 16 | 10 | 700 | 600 | 580 | |
| 2CC-4.2H | 8350 | 33 | 3000 | 400 | 2*190 | 22 | 12 | 1050 | 710 | 580 | |
| 4FC-5.2H | 9640 | 49 | 5000 | 400 | 2*190 | 22 | 12 | 1050 | 710 | 680 | |
| 4EC-6.2H | 11850 | 55 | 5000 | 400 | 2*190 | 28 | 12 | 1050 | 710 | 680 | |
| 4DC-7.2H | 14480 | 60 | 6000 | 400 | 2*190 | 28 | 16 | 1050 | 800 | 680 | |
| 4CC-9.2H | 17500 | 80 | 6000 | 400 | 4*190 | 28 | 16 | 1050 | 800 | 980 | |
| 4VCS-10.2H | 19190 | 100 | 10000 | 400 | 4*190 | 28 | 16 | 1050 | 800 | 1280 | |
| 4NCS-12.2H | 23150 | 120 | 10000 | 400 | 4*190 | 35 | 16 | 1050 | 800 | 1280 | |
| 4PCS-15.2H | 27700 | 130 | 14000 | 450 | 4*250 | 35 | 22 | 1050 | 800 | 1280 | |
| 4NCS-20.2H | 32300 | 150 | 14000 | 450 | 4*250 | 42 | 22 | 1250 | 800 | 1280 | |
| 4H-25.2H-V | 42250 | 200 | 14000 | 500 | 3*420 | 54 | 22 | 2120 | 1100 | 1680 | |
| 4G-30.2H-V | 48500 | 270 | 20000 | 550 | 3*550 | 54 | 22 | 2300 | 1100 | 1680 | |
| 6H-35.2H-V | 63400 | 300 | 27000 | 600 | 3*800 | 54 | 28 | 2450 | 1100 | 1680 | |
| 6G-40.2H-V | 72800 | 350 | 36000 | 550 | 4*550 | 54 | 28 | Ā | Ā | Ā | |
| 6F-50.2H-V | 86300 | 410 | 45000 | 600 | 4*800 | 54 | 35 | Ā | Ā | Ā | |
Box type U condensing unit parameter
| Unit model | Compressor model | Power supply | Power | Refrigerant | Cooling capacity | Air condenser | Evaporating temperature(ĀŗC) | Connect pipe | Dimension | Mounting dimension | Weight | ||||||||||
| HP | Ā | W | Cooling area(m2) | Air flow(m3/h) | Fan Dia(mm) | Power(W) | -15 | -20 | -25 | -30 | -35 | Inlet | Outlet | L | W | H | mm | kg | |||
| FUBZ-005/L | 4DES-5 | 380/3P/50hz | 5 | R22 | 7284 | 55 | 1*8740 | 1*550 | 1*550 | 10800 | 8830 | 6880 | 5220 | 3820 | 1/1-8 | 1/2 | 990 | 753 | 857 | 950*530 | 113 |
| FUBZ-008/L | 4TES-9 | 8 | R22 | 12333 | 70 | 2*3980 | 2*400 | 2*190 | 16490 | 12870 | 9890 | 7330 | 5160 | 1/3-8 | 5/8 | 1240 | 803 | 852 | 1200*580 | 195 | |
| FUBZ-571/L | 4PES-12 | 10 | R22 | 14722 | 80 | 2*4800 | 2*450 | 2*250 | 19665 | 19665 | 12075 | 9571 | 6508 | 1/3-8 | 5/8 | 1500 | 854 | 867 | 1460*630 | 210 | |
| FUBZ-012/L | 4NES-14 | 12 | R22 | 16796 | 100 | 2*6560 | 2*500 | 2*420 | 23950 | 23950 | 14590 | 10880 | 7730 | 1/3-8 | 5/8 | 1500 | 903 | 875 | 1460*680 | 215 | |
| FUBZ-015/L | 4HE-18 | 15 | R22 | 21250 | 120 | 2*6560 | 2*500 | 2*420 | 31000 | 31000 | 18700 | 13910 | 9860 | 1/5-8 | 3/4 | 1500 | 953 | 867 | 1460*730 | 261 | |
| FUBZ-571/L | 4GE-23 | 20 | R22 | 24565 | 140 | 2*6560 | 2*500 | 2*420 | 35650 | 35650 | 21650 | 16140 | 11490 | 1/3-8 | 3/4 | 1606 | 1003 | 1004 | 1566*780 | 280 | |
| FUBZ-571/L | 6HE-28 | 25 | R22 | 31535 | 170 | 2*6560 | 2*500 | 2*420 | 46550 | 46550 | 28100 | 20900 | 14810 | 2-1/8 | 3/4 | 1704 | 1053 | 1108 | 1664*830 | 326 | |
| FUBZ-030/L | 6GE-34 | 30 | R22 | 36380 | 179 | 2*10840 | 2*600 | 2*800 | 53500 | 53500 | 32500 | 24200 | 17240 | 2-1/8 | 7/8 | 1704 | 1053 | 1108 | 1664*830 | 344 | |
Working condition: 1)storage tempā„23ĀŗC, testing isĀ based on evaporating temp=-18ĀŗC, ambient temp=32ĀŗC, SH temp=32ĀŗC,SC=5ĀŗC
Box type V condensing unit parameter(Low temperature)
| Unit model | Compressor model | Power supply | Power | Cooling capacity | Air condenser | Evaporating temperature(ĀŗC) | Connect pipe | Dimension | Mounting dimension | ||||||||||||
| HP | W | Cooling area(m2) | Air flow(m3/h) | Fan Dia(mm) | -5 | -10 | -15 | -20 | -25 | -30 | -35 | -40 | Inlet | Outlet | L | W | H | mm | |||
| FV-08BZL | 4TES-9 | 380V/3P/50HZ | 8 | 15250 | 60 | 7000 | 500 | 23450 | 19050 | 15250 | 11880 | 9050 | 6640 | 4610 | 2910 | 35 | 16 | 1270 | 705 | 1495 | 830*950 |
| FV-10BZL | 4PES-9 | 10 | 17700 | 80 | 10000 | 600 | 27300 | 22150 | 17700 | 13800 | 1571 | 7700 | 5330 | 3350 | 35 | 16 | 1370 | 775 | 1590 | 830*1250 | |
| FV-12BZL | 4NES-14 | 12 | 20850 | 100 | 10000 | 450 | 32050 | 26050 | 20850 | 16150 | 12280 | 8980 | 6200 | 3880 | 35 | 16 | 1390 | 850 | 1540 | 900*1350 | |
| FV-15BZL | 4HE-18 | 15 | 26800 | 120 | 14000 | 500 | 41700 | 33700 | 26800 | 20900 | 15800 | 11500 | 7920 | 4970 | 42 | 16 | 1640 | 850 | 1540 | 900*1550 | |
| FV-20BZL | 4GE-23 | 20 | 30950 | 160 | 20000 | 600 | 47800 | 38750 | 30950 | 24200 | 18350 | 13390 | 9230 | 5790 | 54 | 19 | 1800 | 935 | 1635 | 900*1550 | |
| FV-25BZL | 6HE-28 | 25 | 45710 | 200 | 20000 | 600 | 62600 | 50600 | 45710 | 31350 | 23700 | 17240 | 11870 | 7440 | 54 | 22 | 1840 | 1060 | 1762 | 1050*1920 | |
| FV-30BZL | 6GE-34 | 30 | 46500 | 240 | 21000 | 500 | 71700 | 58200 | 46500 | 36300 | 27500 | 20050 | 13840 | 8670 | 54 | 22 | 2370 | 1060 | 1765 | 1050*2100 | |
| FV-40BZL | 6FE-44 | 40 | 55600 | 300 | 30000 | 600 | 85100 | 69200 | 55600 | 43600 | 33250 | 24450 | 17060 | 1571 | 54 | 25 | 2450 | 1100 | 1680 | 1050*2250 | |
Nominal working condition based on evaporating temperature:-15ĀŗC; condensing temperature:50ĀŗC
Nominal working condition based on evaporating temperature:-5ĀŗC; condensing temperature:50ĀŗC
Side insert integrated unit parameter
| Model | KCF571AL-1A3 | KCF015AL-1A3 | KCF030AL-1A3 | |||
| Cooling capaicty | Cold storage temp. ĀŗC | -20 | W | 1083 | 1331 | 2189 |
| -18 | W | 1172 | 1481 | 2423 | ||
| -15 | W | 1290 | 1643 | 2669 | ||
| -10 | W | 1533 | 2100 | 3352 | ||
| -5 | W | 1912 | 2526 | 3979 | ||
| 0 | W | 2332 | 3141 | 4883 | ||
| 5 | W | 2545 | 3653 | 5946 | ||
| Suitable storage temp. range | W | 1034 | 1515 | 2860 | ||
| Nominal condition power | ĀŗC | -20~10 | ||||
| Supply power | Ā | 220V~/50Hz | 380V/3N~/50Hz | |||
| Refrigerant | Ā | R404A | ||||
| Control way | Ā | Intelligent defost, electronic expansion valve fuzzy control and other functions | ||||
| Flow control | Ā | Electronic expansion valve | ||||
| Condenser/evaporator type | Ā | Efficient fin and inner grooved copper tube | ||||
| Compressor | Type | Ā | Hermetic piston | Hermetic scroll | ||
| Qty | Ā | 1 | 1 | 1 | ||
| Nominal power | W | 854 | 1295 | 2500 | ||
| Condenser fan | Type | Ā | High effiency and low noise axial fan | |||
| Qty | Ā | 1 | 1 | 2 | ||
| Power | W | 70 | 135 | 70×2 | ||
| Evaporator fan | Type | Ā | High effiency and low noise axial fan | |||
| Qty | Ā | 1 | 1 | 2 | ||
| Power | W | 110 | 70 | 110×2 | ||
| Dimension(L*W*H) | mm | 523x1012x767 | 643x1060x795 | 877x1079x834 | ||
| Weight | kg | kg | 118 | 130 | 178 | |
Note:
Nominal condition: ambient temp. 32ĀŗC, cold storage temp. -15ĀŗC.
Nominal power of compressor power condition, fan power and control system power total.
Application
According to customer`s requirement, this item can be widely applied to hotels, restaurants, food medicine store, agriculture, chemical engineering and other industries.
temperature range from -5 ĀŗC to 10ĀŗC , and -10 ĀŗC to 18ĀŗC.
Ā /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Temperature: | -10-0ā |
|---|---|
| Refrigerant: | Freon |
| Size: | Small |
| Structure: | Assembled |
| Use Nature: | Production |
| Suitable for: | Cold Room |
| Samples: |
US$ 600/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
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What Is the Role of Heat Exchangers in Scroll Compressor Systems?
Heat exchangers play a crucial role in scroll compressor systems by facilitating the transfer of heat between different fluid streams. They are essential components that contribute to the overall efficiency and performance of HVAC (Heating, Ventilation, and Air Conditioning) systems. Here’s a detailed explanation of the role of heat exchangers in scroll compressor systems:
1. Heat Transfer:
The primary function of heat exchangers is to transfer heat between two fluid streams while keeping them physically separated. In the context of scroll compressor systems, heat exchangers facilitate the transfer of heat between the refrigerant and the air or water in the HVAC system.
2. Evaporator:
One type of heat exchanger commonly used in scroll compressor systems is the evaporator. The evaporator acts as a heat exchanger where the refrigerant absorbs heat from the surrounding air or water, causing it to evaporate and change from a liquid to a gaseous state. This heat absorption process cools the air or water in the HVAC system, providing the desired cooling effect.
3. Condenser:
Another type of heat exchanger in scroll compressor systems is the condenser. The condenser facilitates the transfer of heat from the refrigerant to the ambient air or a separate water loop. As the refrigerant releases heat, it undergoes a phase change from a gaseous state to a liquid state. The condenser helps dissipate the heat extracted from the conditioned space to the surroundings, allowing the refrigerant to be ready for the next cooling cycle.
4. Efficiency and Performance:
Heat exchangers play a vital role in improving the efficiency and performance of scroll compressor systems. By transferring heat effectively, they enable the compressor to operate at optimum conditions, enhancing energy efficiency and reducing power consumption. Efficient heat transfer also contributes to maintaining a stable temperature and humidity level in the conditioned space, ensuring occupant comfort.
5. Air-to-Air and Air-to-Water Systems:
Depending on the specific HVAC system design, heat exchangers in scroll compressor systems can be configured as air-to-air or air-to-water heat exchangers. In air-to-air systems, the heat exchangers transfer heat between the refrigerant and the air circulating within the HVAC system. In air-to-water systems, the heat exchangers enable heat transfer between the refrigerant and a separate water loop, which can be used for various purposes such as radiant floor heating or domestic hot water production.
6. Coils and Fins:
Heat exchangers in scroll compressor systems often consist of coils and fins to maximize the heat transfer surface area. The coils provide a pathway for the fluid flow, while the fins increase the surface area exposed to the air or water, promoting efficient heat exchange. The design and arrangement of the coils and fins are optimized to enhance heat transfer and minimize pressure drop.
Overall, heat exchangers play a critical role in scroll compressor systems by facilitating heat transfer between the refrigerant and the air or water in the HVAC system. They contribute to the efficiency, performance, and comfort provided by the system, allowing for effective cooling and heating operations.
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What Safety Precautions Should Be Taken When Operating Scroll Compressors?
Operating scroll compressors requires adherence to specific safety precautions to ensure the well-being of personnel and the proper functioning of the equipment. Here’s a detailed explanation:
1. Read and Follow Manufacturer’s Instructions:
Prior to operating a scroll compressor, carefully read and understand the manufacturer’s instructions and guidelines provided in the user manual. Follow the recommended procedures for installation, operation, maintenance, and troubleshooting.
2. Proper Ventilation:
Ensure that the compressor is installed in a well-ventilated area to prevent the accumulation of heat and the buildup of potentially hazardous gases. Proper ventilation helps dissipate heat generated during operation and maintains a safe working environment.
3. Electrical Safety:
Follow electrical safety practices when working with scroll compressors. Ensure that the compressor is properly grounded and that electrical connections are secure. Only qualified personnel should perform electrical installations and repairs to prevent electrical hazards.
4. Lockout/Tagout Procedures:
When conducting maintenance or servicing tasks on a scroll compressor, implement lockout/tagout procedures to ensure the equipment is safely isolated from electrical and mechanical energy sources. This prevents accidental startup or release of stored energy, safeguarding personnel from potential injuries.
5. Personal Protective Equipment (PPE):
Wear appropriate personal protective equipment when operating or servicing a scroll compressor. This may include safety glasses, gloves, hearing protection, and appropriate clothing to protect against potential hazards such as sharp edges, electrical shock, or noise exposure.
6. Pressure Relief Valves and Safety Devices:
Ensure that pressure relief valves and other safety devices are installed and functioning correctly. These devices protect against excessive pressure buildup in the compressor system, preventing potential equipment failure and hazardous situations.
7. Refrigerant Handling:
When dealing with scroll compressors that use refrigerants, follow proper refrigerant handling procedures. Familiarize yourself with the specific refrigerant being used, including its properties, safe handling practices, and environmental considerations. Comply with applicable regulations regarding refrigerant recovery, recycling, and disposal.
8. Preventive Maintenance:
Implement a regular preventive maintenance program for the scroll compressor. This includes cleaning or replacing air filters, checking and tightening electrical connections, inspecting and lubricating moving parts (if applicable), and monitoring performance parameters. Regular maintenance helps ensure safe and efficient operation of the compressor.
9. Training and Competency:
Ensure that personnel operating or maintaining scroll compressors are adequately trained and competent in their tasks. Training should cover proper operation, maintenance procedures, safety protocols, and emergency response. Ongoing training programs help personnel stay updated with the latest safety practices and industry standards.
10. Emergency Preparedness:
Establish emergency response procedures in case of accidents, leaks, or other hazardous situations involving the scroll compressor. This includes knowing the location of emergency shut-off switches, having access to appropriate safety equipment, and having a clear plan for evacuating personnel if necessary.
Adhering to these safety precautions promotes a safe working environment, reduces the risk of accidents, and ensures the proper operation and longevity of scroll compressors. Always consult the manufacturer’s guidelines and applicable safety regulations for specific recommendations related to your scroll compressor model.
What Are the Advantages of Using a Scroll Compressor?
A scroll compressor offers several advantages over other compressor types. Here’s a detailed explanation of the advantages of using a scroll compressor:
1. High Efficiency:
Scroll compressors are known for their high efficiency. The continuous compression process with minimal clearance volume reduces energy losses and improves overall efficiency compared to other compressor types, such as reciprocating compressors. This can result in energy savings and lower operating costs.
2. Quiet Operation:
Scroll compressors operate with lower noise levels compared to some other compressor types. The interlocking spiral motion of the scrolls creates a smooth compression process with minimal pulsations, reducing vibration and noise generation. This makes scroll compressors suitable for applications where noise reduction is important, such as residential air conditioning or noise-sensitive environments.
3. Compact Design:
Scroll compressors have a relatively compact design, making them suitable for applications where space is limited. The absence of reciprocating parts and the compact arrangement of the scrolls contribute to the compactness of these compressors. This allows for easier installation in tight spaces or equipment with space constraints.
4. Fewer Moving Parts:
Scroll compressors have fewer moving parts compared to reciprocating compressors. This simplifies maintenance and reduces the likelihood of mechanical failures. With fewer components to maintain or replace, scroll compressors can result in lower maintenance costs and increased reliability.
5. Oil-Free Operation:
In some scroll compressor designs, oil lubrication is not required for the compression process. This makes them suitable for applications where oil-free compressed air or gas is required, such as in certain industries or in medical and dental applications. Oil-free operation eliminates the risk of oil contamination and the need for oil separation and filtration systems, simplifying the compressor setup.
6. Enhanced Durability:
Scroll compressors are known for their durability. The design of the scrolls, with their interlocking spiral profiles, results in less wear and tear during operation. This can lead to extended compressor life and reduced maintenance needs.
7. Enhanced Reliability:
Scroll compressors offer enhanced reliability due to their simple design and fewer moving parts. The absence of valves, piston rings, and other wearing components reduces the chances of failure or breakdown. This can result in improved system uptime and reduced downtime for maintenance or repairs.
8. Wide Range of Applications:
Scroll compressors find applications in various industries, including HVAC (heating, ventilation, and air conditioning), refrigeration, automotive, and industrial processes. They are commonly used for air conditioning systems, heat pumps, refrigeration units, and other applications requiring reliable and efficient compression of gases or fluids.
In summary, the advantages of using a scroll compressor include high efficiency, quiet operation, compact design, fewer moving parts, potential for oil-free operation, enhanced durability, enhanced reliability, and suitability for a wide range of applications. These advantages make scroll compressors a popular choice in various industries where reliable and efficient compression is required.
editor by CX 2024-04-04