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    Home Appliance MoldPlastic Injection Molding for Home Appliances
    Home Appliance Molds are an integral part of every home. Consumers rely on them for cooking, personal grooming, entertainment, and many other essential applications. ;

    Our Injection Molding Services for Home Appliances

    Plastic Product Design

    Adhering to recommended safety standards for plastic home appliances, we aim for cost-efficient designs that are modern, compact, and lightweight. We offer product design services at affordable rates and work within our clients’ design preferences.

    Plastic Mold Design

    Using design software that is flexible to facilitate design processes with high accuracy, the FOW Mould design team is experienced in developing molds for different home appliances. All designs are analyzed by an expert team with MoldFlow technology, helping correct any mould design and functionality errors.

    3D Prototyping

    FOW Mould provides 3D services for clients and uses it for prototyping. Our fast high-resolution 3D printers produce top-quality samples that give our team a chance to test for functionality and design viability. It only takes 3 to 5 days to produce multiple prototypes all at once.

    CNC Machining

    CNC Machines comprise computer-controlled power tools that can use metal, thermoset, and thermoplastic materials to produce parts. We recommend them for forging molds or producing large home appliance prototypes. The machining process takes about 10 days but could hold the tolerances of up to +/- 0.002mm.

    Injection Mould Making

    High-precision machinery is invested to make molds that can accurately replicate home appliance plastic parts. Our mold-making processes are performed under strict quality control and the supervision of expert molding engineers. Production is followed by technology-based quality inspections to rule out flaws and inefficiencies. ;

    Injection Molding

    FOW Mould is a certified appliance injection molding service provider. Our injection molding processes are optimized to reduce production costs and cycle times. Additionally, we use high-grade materials from authorized suppliers. They take well to injection molding processes without warping or forming cracks. ;

    Juicer Injection Mold
    As the weather gets hotter, I would like to recommend a set of molds to you–Juicer Injection Mold. Milk tea cannot meet everyone’s request, as milk tea is too sweet and unable to quench it. But the fruit juice has a good market and have more and more milk tea stores push out fruit tea, such as Hand made lemon tea, watermelon juice, lemon tea, etc. Our company could make different versions of Plastic injection juicer mold for you.

    This plastic injection juicer is our updated version, net groove pointed spiral, net groove eye for inclined, cutting edge height and sharp. It is easy to clean, the extruder is removable, and under the juicer cup, we have made a 4pcs silicone anti-skid pad, it could avoid the cup from moving when we use it. The body of the cup has a scale, and the cup is equipped with two mesh grooves that can be clamped to prevent the rotation of the juice.

    For the juice cup, if you want to use PET material, then the mold steel should use S136/H13. As the PET material has high demand, and it is very easy to leave white marks on the gate, so we recommend using a cold runner / hot runner valve gate.

    A Guide to PET Bottle Blow Moulding
    The Plastic Bottle Moulding process works by reheating a pre-molded PET preform which is then automatically positioned into a mould. High-pressure food grade compressed air is then injected into the preform which expands to form the shape of the mould. Once the plastic has cooled, the bottle is removed and the process repeats. This process is suitable for making a large range of bottles up to 1 liter in capacity with a range of standard necks available. ;

    Blow molding can be found around you and you don’t even know it. That soda that your drinking has a plastic bottle, which was blow-molded. This process can be used to manufacture plastic products. The process involves heating a plastic tube (known as a preform or parison) to its melting point and then putting that into the cavity of a mold. They then use compressed air to inflate the molten plastic like a balloon so that it takes the shape of the mold but is hollow inside. The amount of plastic used and the air pressure determines how thick the final product is.

    Air Conditioner Mould
    Air Conditioner Moulds come in a variety of shapes and sizes, but they all operate on the same basic premise. An air conditioner provides cold air inside your home or enclosed space by actually removing heat and humidity from the indoor air. It returns the cooled air to the indoor space and transfers the unwanted heat and humidity outside. A standard air conditioner or cooling system uses a specialized chemical called refrigerant and has three main mechanical components: a compressor, a condenser coil, and an evaporator coil. These components work together to quickly convert the refrigerant from gas to liquid and back again. The compressor raises the pressure and temperature of the refrigerant gas and sends it to the condenser coil where it is converted to a liquid. Then the refrigerant travels back indoors and enters the evaporator coil. Here the liquid refrigerant evaporates and cools the indoor coil. A fan blows indoor air across the cold evaporator coil where the heat inside the home is absorbed into the refrigerant. The cooled air is then circulated throughout the home while the heated evaporated gas is sent back outside to the compressor. The heat is then released into the outdoor air as the refrigerant returns to a liquid state. This cycle continues until your home has reached the desired temperature.

    Refrigerator Mould
    A Refrigerator Mould is an open system that dispels heat from a closed space to a warmer area, usually a kitchen or another room. By dispelling the heat from this area, it decreases in temperature, allowing food and other items to remain at a cool temperature. Refrigerators appear to violate the Second Law of Thermodynamics, but the key reason they do not is because of the work needed as input to the system. They are essentially heat pumps but work to cool a region instead of heat it.

    A refrigerator causes heat to flow from cold to hot by inputting work, which cools the space inside the refrigerator. ;

    Work is inputted which compresses a coolant, increasing its temperature above the room’s temperature.

    Heat flows from this coolant to the air in the room, reducing the temperature of the coolant.

    The coolant expands, and it cools down below the temperature inside the refrigerator.

    Heat flows from the refrigerator to the coolant, decreasing the temperature inside.

    This process is cyclical and allows refrigerators to be run for as long as necessary. The work needed as input to the system is given by the equation

    Vacuum Cleaner Mould
    A vacuum cleaner mould, also known simply as a vacuum or a hoover, is a device that causes suction in order to remove dirt from floors, upholstery, draperies, and other surfaces. It is generally electrically driven.

    The dirt is collected by either a dustbag or a cyclone for later disposal. Vacuum cleaners, which are used in homes as well as in industry, exist in a variety of sizes and models—small battery-powered hand-held devices, wheeled canister models for home use, domestic central vacuum cleaners, huge stationary industrial appliances that can handle several hundred liters of dust before being emptied, and self-propelled vacuum trucks for recovery of large spills or removal of contaminated soil. Specialized shop vacuums can be used to suck up both dust and liquids.

    Vacuum cleaners’ simple yet effective design has done away with having to clean dust and other small particles off surfaces by hand, and turned house cleaning into a more efficient and fairly rapid job. Using nothing but suction, the vacuum whisks away dirt and stores it for disposal.

    The power of a vacuum cleaner is determined not just by the power of its motor, but also the size of the intake port, the part that sucks up the dirt. The smaller the size of the intake, the more suction power is generated, as squeezing the same amount of air through a narrower passage means that the air must move faster. This is the reason that vacuum cleaner attachments with narrow, small entry ports seem to have a much higher suction than a larger one.

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