Household Daily Necessities Company

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Our company was established in 1998, is a professional production of household daily necessities of industry and trade enterprises. OEM Household Daily Necessities Suppliers and Custom Household Daily Necessities Company. Now owns 20000 square meters of plant, has passed ISO9000 and WCA verification, 3A grade credit enterprise, is one of the outstanding enterprises in Zhejiang Province. Our factory is located in Haining City, Zhejiang Province, west of Hangzhou, east of Shanghai, traffic and transportation are very convenient.

The factory mainly produces various types of masks, mosquito repellent, aromatic agent, deodorant, toilet cleaning agent, moisture-proof and moisture-absorbing agent and other products. It has a 100,000-level standard dust-free purification workshop, more than 30 fully automated mask production lines, with an average daily production capacity of 1 million masks, and intelligent management and production through ERP system. Deodorizing aroma, mosquito repellent and other product formulations are introduced from abroad, advanced, environmental protection, and the effect is remarkable. Every year, the company will invest funds to develop new products and improve new equipment to meet the different needs of the market and customers.

Our products are mainly exported to Japan (80%), Europe (15%), Australia (5%) and other countries and regions, supply Custom Household Daily Necessities, the product quality is good, the price is reasonable, the service is in place, well received by domestic and foreign customers.

Certificate Of Honor
  • WCA
  • ICAS
Products Industry knowledge
What is the reason why the fit and comfort of 3D FACE MASK are better than those of ordinary products?
3D face masks are designed to offer a better fit and increased comfort compared to ordinary flat masks for several reasons:
Contoured Shape: The primary design feature of 3D face masks is their contoured shape. These masks are engineered to mimic the natural contours of the face, including the nose, cheeks, and chin. This contoured shape helps create a snugger and more secure fit against the face, reducing gaps and improving overall protection.
Reduced Air Leakage: Because of their contoured shape, 3D masks are less likely to have gaps or air leakage around the edges. This feature enhances their effectiveness in preventing the entry and exit of respiratory droplets, airborne particles, and pathogens.
Enhanced Seal: The snug fit achieved by 3D masks enhances the seal around the nose and mouth. This seal is important for filtering and trapping particles efficiently, especially for masks that use filter materials or have multiple layers.
Comfortable Wear: The improved fit often translates to increased comfort for wearers. The contoured design reduces the need for constant adjustments and minimizes pressure points on the face, which can lead to discomfort during prolonged use.
Breathability: Some 3D masks are designed with breathable materials and ergonomic features that make it easier for the wearer to breathe while maintaining an effective seal. This breathability can enhance overall comfort.
Customization: Some 3D masks can be customized or adjusted to better fit an individual's face shape and size. This personalization can lead to an even better fit and comfort for the wearer.
Anti-Fog Features: Some 3D masks incorporate anti-fogging features, such as vents or coatings, to prevent fogging of eyeglasses or face shields, which can be a common issue with ordinary flat masks.
Secure Straps: The straps or ear loops on 3D masks are often designed to provide a secure and comfortable fit without causing irritation or discomfort behind the ears.
Improved Visibility: Certain 3D mask designs also consider the wearer's field of vision, ensuring that it is not obstructed. This is important for safety and comfort, especially in settings where visibility is crucial.

Is the protection performance of 3D FACE MASK against different threats better than conventional products?
The protection performance of 3D face masks compared to conventional flat masks can vary depending on several factors, including the specific design, materials used, and the intended purpose of the mask. In some cases, 3D face masks may offer improved protection against certain threats, while in other cases, conventional masks may be just as effective. Here are some considerations:
Fit and Seal: 3D face masks, with their contoured design, often provide a better fit and seal around the nose and mouth. This improved fit can reduce the risk of air leakage and may enhance protection against the entry or exit of respiratory droplets and particles. Conventional flat masks can also provide a good seal when properly worn.
Filtration Efficiency: Both 3D face masks and conventional flat masks can be constructed with various filter materials. The key factor in protection is the filtration efficiency of the mask's filter layer. Masks that meet or exceed certain filtration standards, such as N95 or FFP2/FFP3, are highly effective against airborne particles, including viruses. The filtration efficiency largely depends on the quality and specifications of the filter material.
Layering: Some 3D face masks and conventional masks are designed with multiple layers, including an outer layer, a filter layer, and an inner layer. Layering can enhance filtration performance by trapping particles at different stages. The effectiveness of this layering depends on the quality of materials used.
Customization: Certain 3D masks can be customized to fit an individual's face shape and size better, which can improve the seal and overall protection. However, not all 3D masks offer this level of customization.
Breathability: Improved fit and comfort can encourage wearers to keep their masks on for longer periods, which can indirectly contribute to better protection. However, it's essential to balance fit and comfort with breathability, as masks that are too restrictive may lead to discomfort and less compliance.
Specific Threats: The effectiveness of a mask against different threats, such as viruses, bacteria, or particulate matter (e.g., pollution), depends on the filtration efficiency and the mask's design. Masks that meet or exceed standards for specific threats will generally offer better protection.
Proper Usage: Regardless of the type of mask, proper usage is critical for protection. This includes wearing the mask correctly, ensuring a good seal, and following recommended guidelines for mask use, such as mask-wearing duration and disposal for single-use masks.

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Our factory has sound facilities and full functions, which is very suitable for mass production.

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