Product Description
Condensing Unit Auto Door Scroll Compressor
HangZhou CHINAMFG Refrigeration Technology Co., Ltd. offers the ZP67KCE-TFD-420 ZP series 3HP CHINAMFG Scroll Compressor for refrigeration applications.
Product Details
Refrigerant: R404/R22/R410A
Large operating envelope
Fast temperature pull-down capabilities
Lightweight and compactness
Scroll Digital Technology for simple, step-less capacity modulation
CHINAMFG Scroll Compressors
HangZhou CHINAMFG Refrigeration Technology Co., Ltd.
Copeland Scroll Compressors
The compressors utilized in the air conditioning industry have evolved, with scroll compressors emerging as the preferred technology due to their superior performance. CHINAMFG Scroll compressors, offered by HangZhou CHINAMFG Refrigeration Technology Co., Ltd., are designed for various applications such as split systems, rooftops, packaged units, and chillers.
Features and Benefits:
- Copeland Scroll axial and radial compliance for enhanced reliability and efficiency
- Wide scroll line-up for versatility
- Low oil circulation rate for efficiency
- Superior liquid handling capability
- Low sound and vibration levels for quiet operation
- Low Total Equivalent Warming Impact for environmental sustainability
- Copeland qualified tandem and trio configurations for superior seasonal efficiency
With fully CHINAMFG qualified multiple compressor assemblies available, including tandem and trio configurations, these compressors are ideal for large capacity systems, providing optimal comfort and low operating costs while ensuring higher seasonal efficiency.
| Model | Voltage | Phase | Displacement | HorseĀ | CoolingĀ | InputĀ | COP | Current | Weight |
| (m3/hr) | Power | capacity(w) | Power(w) | (W/W) | (A) | ||||
| ZP57K3E-PFJ | 220~240 | 1 | 9.44 | 4.8HP | 13950 | 4650 | 3 | 24 | 41 |
| ZP57K3E-TFD | 380~420 | 3 | 9.44 | 4.8HP | 13950 | 4650 | 3 | 8.1 | 41 |
| ZP61KCE-PFZ | 220~240 | 1 | 10.11 | 5HP | 14800 | 4933 | 3 | 23.3 | 40 |
| ZP61KCE-TFD | 380~420 | 3 | 10.11 | 5HP | 14700 | 4742 | 3.1 | 8.3 | 40 |
| ZP67KCE-TFD | 220~240 | 1 | 10.96 | 5HP | 16200 | 5400 | 3 | 25.7 | 40 |
| ZP67KCE-TFD | 380~420 | 3 | 10.96 | 5.6HP | 16100 | 5194 | 3.1 | 9.1 | 40 |
| ZP72KCE-TFD | 380~420 | 3 | 11.68 | 6HP | 17100 | 5700 | 3 | 9.8 | 40 |
| ZP83KCE-TFD | 380~420 | 3 | 13.43 | 7HP | 19900 | 6419 | 3.1 | 11.7 | 40 |
| VP90KSE-TFP | 380 | 3 | 14.64 | 7.5HP | 21900 | 6844 | 3.2 | 12.3 | 57 |
| VP103KSE-TFP | 380 | 3 | 16.83 | 9HP | 25200 | 7875 | 3.2 | 13.6 | 60 |
| VP120KSE-TFP | 380 | 3 | 19.84 | 10HP | 29300 | 9156 | 3.2 | 16.6 | 61 |
| VP137KSE-TFP | 380 | 3 | 22.16 | 11.50HP | 32600 | 10188 | 3.2 | 17.8 | 61 |
| VP144KSE-TFP | 380 | 3 | 23.42 | 12HP | 35400 | 10727 | 3.3 | 18.7 | 61 |
| ZP154KCE-TFD | 380~420 | 3 | 24.87 | 13HP | 37300 | 11303 | 3.3 | 20.7 | 65 |
| ZP182KCE-TFD | 380~420 | 3 | 29.08 | 15HP | 44000 | 13333 | 3.3 | 25.7 | 66 |
| ZP235KCE-TWD | 380~420 | 3 | 37.97 | 20HP | 57000 | 17273 | 3.3 | 29.9 | 14 |
| ZP295KCE-TWD | 380~420 | 3 | 46.71 | 25HP | 71500 | 21667 | 3.3 | 37.2 | 160 |
| ZP385KCE-TWD | 380~420 | 3 | 60.79 | 30HP | 92500 | 28030 | 3.3 | 48.1 | 177 |
| ZP485KCE-TWD | 380~420 | 3 | 77.33 | 40HP | 117000 | 35455 | 3.3 | 60.3 | 200 |
HangZhou CHINAMFG Refrigeration Technology Co., Ltd.
Introducing the Condensing Unit Auto Door Scroll Compressor by HangZhou Hengliang. This 3HP Zb21kq model is ideal for refrigeration and cold room applications.
| Pre-Sale | CAD Drawing;3D Drawing; Show you pictures and videos about your ideal project | Ā |
| On-Sale | Production and Packing visualization; | Ā |
| After-Sale | Loading the goods, Technical drawings, and Installation Instructions. 24/7 Support & Service | Ā |
Welcome to contact us by clicking here!
Welcome to HangZhou CHINAMFG Refrigeration Technology Co., Ltd.! We specialize in providing a range of refrigeration solutions to meet your needs. Our offerings include a cold storage room, chiller room, walk-in cooler, freezer room, banana or fruit ripen room, deep freezing room, and industry chiller. With over 18 years of experience since our establishment in 2002, we are your one-stop shop for all refrigeration equipment needs. Trust us to keep your products fresh and cool!
Partner Project
Packaging & Shipping
| The protective packaging of the Smart Packaged Unit: |
| 1. Wooden box for condensing unit and evaporator |
| 2. Pallet system for transport |
| The protective packaging of the PU Panel: |
| 1, PVC film packaging or Carton wrap |
| 2. Four-corner cardboard protection to prevent impact |
Company Profile
FAQ
| Ā 1. What is the packaging and shipping method? |
| By Sea:Ā Export wooden package, with refrigerant oil. By Air:Ā Full-sealed wooden package, without refrigerant oil. |
| Ā |
| 2. What is your main compressor series (classification)? |
| –Ā B(itzerĀ compressors – ScrollĀ compressors:Ā CR, VR, ZBĀ , ZR,Ā Z(F, ZPĀ SERIES –Ā Semi-hermetic compressors:Ā DL,D2,D4,D6,D8Ā SERIES – Performer compressors: SM, SZ, SH SERIES – Commercial compressors: FR, SC SERIES –Ā Maneurop piston compressors: MT, MTZ,Ā NTZ, MPZ SERIES –Ā Secop compressor,Ā Carrier(Carlyle)Ā compressor –Ā Hitachi compressor, CHINAMFG compressor –Ā Tecumseh compressor, LG compressor, CHINAMFG compressor –Ā Toshiba compressor, CHINAMFG compressor, Embraci Aspera compressor –Ā AlsoĀ B)itzer, Carel, DixellĀ original valves, controls, and selected parts –Ā TE, TDE, TGE, PHT SERIES THERMOSTATIC EXPANSION VALVES –Ā ETS SERIES EXPANSION VAVLES,Ā –Ā EVR SERIES EXPANSION VAVLES AND –Ā KP1,KP5,KP15 SERIES PRESSURE CONTROLS –Ā DCL DML LIQUID LINE FILTER DRIERS |
| Ā |
| 3. What is the term of payment? |
| T/T, Western Union |
| Ā |
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| After-sales Service: | Video Technical Support, Engineer Assigning |
|---|---|
| Temperature: | -35~+15ºC |
| Refrigerant: | R-404A/R-407/R-22 |
| Size: | 2m³~200m³ Customized |
| Structure: | Assembled |
| Use Nature: | Distribution |
| Samples: |
US$ 200/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
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How Do Scroll Compressors Handle Variable Demand Loads?
Scroll compressors are well-suited for handling variable demand loads in HVAC (Heating, Ventilation, and Air Conditioning) systems. Their design and operational characteristics allow them to efficiently adapt to changing cooling requirements. Here’s a detailed explanation of how scroll compressors handle variable demand loads:
1. Capacity Modulation:
One of the key features that enable scroll compressors to handle variable demand loads is their capacity modulation capability. Scroll compressors can adjust their output capacity to match the cooling load requirements of the system. They can modulate their capacity by varying parameters such as motor speed, refrigerant flow, or internal compression volume. This modulation allows the compressor to operate at different levels of output to meet the varying cooling demands efficiently.
2. Stepless Capacity Control:
Scroll compressors offer stepless capacity control, allowing them to operate at any capacity between their minimum and maximum limits. Unlike compressors with fixed capacity stages, scroll compressors can precisely match the cooling demand at any given moment. This stepless capacity control helps ensure optimal energy efficiency and prevents overshooting or undershooting the required cooling capacity.
3. Smooth Operation:
Scroll compressors operate with smooth and continuous compression, resulting in stable and consistent cooling performance. The absence of reciprocating motion, as found in other compressor types, eliminates the pulsations and vibrations associated with start-stop operation. The scroll design provides a continuous compression process, minimizing energy fluctuations and delivering steady cooling output even during variable demand conditions.
4. Load Matching:
Scroll compressors dynamically match the cooling load requirements by adjusting their output capacity. When the demand load decreases, the compressor reduces its output capacity to avoid overcooling. This load matching capability prevents energy wastage by ensuring the compressor operates at an optimal level. As the demand load increases, the compressor responds by increasing its output capacity to meet the increased cooling requirements effectively.
5. Energy Efficiency:
Scroll compressors are known for their high energy efficiency, even under variable demand conditions. Their capacity modulation and load matching capabilities enable them to operate at higher efficiencies across a wide range of cooling loads. By adjusting the output capacity to closely match the demand, scroll compressors minimize energy losses associated with excessive cycling, inefficient operation at partial loads, or running at full capacity when not required.
6. Electronic Controls:
Scroll compressors often incorporate electronic controls or advanced control systems that optimize their performance under variable demand loads. These control systems continuously monitor the cooling demand and adjust the compressor’s output accordingly. They can also take into account factors such as ambient temperature, humidity, and system characteristics to further optimize the compressor’s operation and energy efficiency.
Overall, scroll compressors handle variable demand loads through their capacity modulation, stepless capacity control, smooth operation, load matching capabilities, energy efficiency, and electronic control systems. Their ability to adapt to changing cooling requirements efficiently makes them an ideal choice for HVAC systems that experience fluctuating demand conditions.
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What is the Lifespan of a Typical Scroll Compressor?
The lifespan of a typical scroll compressor can vary depending on several factors. Here’s a detailed explanation:
1. Quality and Design:
The quality and design of the scroll compressor play a significant role in determining its lifespan. Well-built compressors with robust components and reliable manufacturing processes tend to have longer lifespans. Compressors from reputable manufacturers that adhere to industry standards and best practices are generally more durable and have extended lifespans.
2. Maintenance and Service:
The lifespan of a scroll compressor can be influenced by the maintenance and service it receives. Regular maintenance, including cleaning, lubrication (for lubricated compressors), and inspection of critical components, helps to ensure optimal performance and identify potential issues before they become major problems. Proper maintenance practices, such as timely filter replacements and refrigerant checks, contribute to the longevity of the compressor.
3. Operating Conditions:
The operating conditions under which the scroll compressor operates can impact its lifespan. Factors such as ambient temperature, humidity levels, and operating hours can affect the compressor’s performance and wear on its components. Compressors that operate in extreme temperatures or high humidity environments may experience more stress and have a shorter lifespan compared to those operating in more favorable conditions.
4. Load and Cycling Patterns:
The load and cycling patterns of the compressor also impact its lifespan. Compressors that consistently operate at or near their maximum capacity or frequently cycle on and off may experience more wear and tear. Compressors that are properly sized, matched to the load requirements, and operate within recommended duty cycles tend to have longer lifespans.
5. System Design and Installation:
The design and installation of the overall system in which the scroll compressor is installed can affect its lifespan. Proper system design, including appropriate sizing, adequate airflow, and efficient ductwork, ensures that the compressor operates under optimal conditions. Additionally, proper installation practices, such as correct refrigerant charge and proper electrical connections, contribute to the longevity of the compressor.
6. Application and Usage:
The specific application and usage of the scroll compressor can also impact its lifespan. Compressors used in commercial or industrial settings, where they may be subjected to heavy usage or demanding conditions, may have shorter lifespans compared to those used in residential applications with lighter usage. The type of refrigerant used and the presence of contaminants or corrosive substances in the system can also affect the compressor’s lifespan.
7. Average Lifespan:
On average, a well-maintained and properly operated scroll compressor can have a lifespan of 10 to 15 years. However, it’s important to note that this is an estimate, and individual compressors may experience longer or shorter lifespans based on the factors mentioned above.
It’s recommended to consult the manufacturer’s guidelines and specifications for the specific model of the scroll compressor to determine its expected lifespan and any recommended maintenance intervals. Additionally, working with qualified HVAC professionals can help ensure proper installation, maintenance, and troubleshooting of the scroll compressor, maximizing its lifespan and performance.
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What Are the Key Components of a Scroll Compressor?
A scroll compressor consists of several key components that work together to facilitate the compression process. Here’s a detailed explanation of the key components:
1. Stationary Scroll:
The stationary scroll, also known as the fixed scroll, is a stationary component in the scroll compressor. It has a spiral-shaped profile that interlocks with the orbiting scroll. The stationary scroll remains fixed in place during operation and provides a stable foundation for the compression process.
2. Orbiting Scroll:
The orbiting scroll, also known as the movable scroll, is the component that moves in an eccentric circular motion. It also has a spiral-shaped profile that interlocks with the stationary scroll. The orbiting scroll’s motion creates varying volume chambers between the scrolls, which trap and compress the gas or fluid. The orbiting scroll is driven by a motor or an external force to maintain the continuous compression process.
3. Motor or Drive Mechanism:
The motor or drive mechanism is responsible for powering the motion of the orbiting scroll. It provides the necessary rotational force to drive the scroll in an eccentric motion. In some scroll compressors, the motor is directly coupled to the orbiting scroll, while in others, an external drive mechanism, such as a belt or a crankshaft, is used to transfer the motion.
4. Housing or Casing:
The housing or casing encloses the scroll compressor’s internal components and provides structural support. It also helps to contain and direct the flow of gas or fluid during the compression process. The housing is typically made of durable materials to withstand the operating conditions and maintain the integrity of the compression chamber.
5. Suction and Discharge Ports:
The suction and discharge ports are openings in the scroll compressor that allow the gas or fluid to enter and exit the compression chamber, respectively. The suction port is connected to the intake side of the compressor, where the gas or fluid is drawn in during the suction stroke. The discharge port is located at the center of the scrolls and allows the compressed gas or fluid to exit the compressor during the discharge stroke.
6. Bearings:
Bearings are used to support the rotation of the orbiting scroll and reduce friction. They provide smooth and stable movement of the orbiting scroll within the compressor. The bearings are typically located at strategic points to ensure proper alignment and minimize wear and tear during operation.
7. Sealing Mechanism:
A sealing mechanism is employed to maintain proper sealing between the scrolls during operation. This prevents leakage of the gas or fluid and ensures efficient compression. The sealing mechanism may include seals, gaskets, or other components that create a tight seal between the scrolls.
8. Cooling System:
Some scroll compressors may incorporate a cooling system to manage the heat generated during compression. This could include features such as cooling fins, internal cooling channels, or an external cooling system to maintain optimal operating temperatures and prevent overheating.
These key components work together in a synchronized manner to facilitate the compression process in a scroll compressor. The interlocking scrolls, driven by the motor or drive mechanism, create varying volume chambers that compress the gas or fluid, while the housing, ports, bearings, sealing mechanism, and cooling system ensure efficient and reliable operation.
In summary, the key components of a scroll compressor include the stationary scroll, orbiting scroll, motor or drive mechanism, housing or casing, suction and discharge ports, bearings, sealing mechanism, and cooling system. Each component plays a crucial role in facilitating the compression process and maintaining the integrity of the compressor.
editor by CX 2024-05-07