automatic ice block formation and harvest

• The Components and Basic Parameters of Direct-Cooling Block Ice Machines

  Nov 03, 2023

    Introduction   Direct-cooling block ice machines are a vital component of various industries, offering efficient and reliable ice production for cooling, preservation, and other applications. In this blog, we will delve into the composition and basic parameters of direct-cooling block ice machines, providing valuable insights for readers seeking to understand the inner workings and specifications of these ice machines.       The Main Components of Direct-Cooling Block Ice Machines     Refrigeration System: The heart of the machine, the refrigeration system comprises key components such as the compressor, condenser, liquid receiver, throttling device, and evaporator (ice mold). These components work together to absorb heat from the water, leading to the formation of ice blocks. Ice Making and Dispensing Mechanism: This part of the machine includes the water supply system, ice mold cover, ice block pallet, locking mechanism, lifting and conveying system. It ensures a smooth and efficient process from water supply to automatic ice block formation and harvest. Electrical and Automatic Control System: The electrical and automatic control system manages the entire operation of the machine. It includes the power supply system and the automatic control system, ensuring optimal performance and safety. Machine Frame: The overall frame provides structural support for the machine, ensuring stability and durability.     Basic Parameters of Block Ice   Block Ice Weight: The basic block ice weight is available in three standard sizes: 5kg, 25kg, and 50kg. Other customized block ice weights and dimensions can be agreed upon between the user and the manufacturer.       Optional Configurations   Power Supply: The machine operates on a standard 380V three-phase AC or 220V single-phase AC power supply, with a frequency of 50Hz. Refrigerant: The machine can be configured with refrigerants such as R22, R507, or other eco-friendly options, depending on the user’s requirements and environmental considerations. Water Tank: A water tank can be added as part of condenser and cold water reutilization. Condensing Method: The condensing method can be selected based on the specific application and environmental conditions, ensuring optimal heat dissipation and energy efficiency. For example, evaporative cooling, water cooling, and air cooling.       Supporting Equipment and Facilities   Cold Water Tower: A cold water tower is essential for cooling the condenser, ensuring efficient heat transfer. It can also include water treatment and storage facilities.   Container-Based Design: For marine applications, a container-based design can be chosen for easy transportation and installation.   Ice Block Conveyor: An ice block conveyor system can be integrated to facilitate the movement of ice blocks from the machine to storage or other locations. Block Ice Conveyor Block Ice Conveyor Block Ice Conveyor Block Ice Conveyor     Cold Storage: For businesses that require ice storage, a cold storage facility can be equipped with the machine to maintain ice quality and extend storage time. Industrial crushed ice machine: A complementary ice block crusher machine, comprising a manual ice crusher machine and conveyor, can be added to offer a wider range of ice products. Ice Block Crusher Machine Ice Block Crusher Machine Ice Block Crusher Machine       In conclusion, direct-cooling ice block machines are versatile and essential for various industries. Understanding their components, basic parameters, and optional configurations can help users make informed decisions and optimize their ice production processes.    

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