The function of an insulin bag is to provide a portable and insulated storage solution for insulin and other diabetes supplies. Insulin needs to be kept at a specific temperature range to maintain its effectiveness, usually between 2°C and 8°C (36°F and 46°F) or as specified by the manufacturer. An insulin bag is designed with insulation materials to help maintain the temperature stability of insulin during travel or daily routines. It helps protect insulin from extreme temperatures, whether it's hot or cold, which can negatively affect its potency. By keeping insulin within the recommended temperature range, an insulin bag helps ensure that it remains safe and effective for use in managing diabetes. Insulin bags are often equipped with cooling elements such as gel packs or ice packs that can be frozen and inserted into the bag to provide additional temperature control. Some insulin bags also come with temperature monitoring features, like built-in thermometers or digital displays, to allow users to monitor and adjust the temperature inside the bag. Overall, the primary function of an insulin bag is to provide a convenient and reliable way to store insulin while maintaining its temperature stability, allowing individuals with diabetes to carry their medication with them wherever they go.

The No Ice Required Insulin Cooler Travel Case is a specialized storage solution designed to keep insulin and other  temperature-sensitive medications cool and protected while traveling or in other situations where refrigeration is not readily available. It is a compact and portable wallet that utilizes evaporative cooling to regulate the temperature inside. The No Ice Required insulin wallet works by activating the cooling process through water. The outer layer of the wallet is made of a water-resistant fabric, while the inner layer contains special crystals that can absorb water. When the wallet is submerged in water for a few minutes, the crystals inside the wallet absorb the water and transform it into a gel-like substance. This gel remains cool for an extended period, providing a controlled temperature environment for storing insulin. The wallet is available in different sizes and styles to accommodate different types and quantities of insulin. It is lightweight, durable, and can easily fit into a pocket or bag, making it convenient for travel and everyday use. The insulin wallet is reusable, and it can provide cooling for up to 45 hours before needing to be reactivated with water. Overall, the no ice required insulin wallet offers a practical and efficient solution for individuals who need to transport and store insulin at the appropriate temperature, ensuring its efficacy and maintaining the well-being of individuals with diabetes or other medical conditions requiring insulin therapy.

Vaccine carriers are insulated containers that, when lined with coolant packs, keep vaccines and diluents cold during transportation. Vaccine carriers are smaller than cold boxes and are easier to carry when walking.   These products are used for transporting vaccines from health facilities with refrigeration to outreach immunization sessions where refrigeration and ice are not available. Vaccine carriers are typically carried by a single health worker travelling on foot or by other means, where the combined journey time and immunization activity may range from a few hours to a whole day. The vaccine storage capacity of vaccine carriers is between 0.8L to 10 liters. Vaccine carriers can be grouped into two range cold life:  Short range: With a minimum cold life of 15 hours at 43°C ambient temperature. Long range: With a minimum cold life of 30 hours at 43°C ambient temperature. Cold boxes are insulated containers which are lined with coolant packs to keep vaccines and diluents cold during transportation and/or short period storage. Cold boxes are used to collect and transport vaccine supplies from one vaccine store to another, and from vaccine stores to health facilities. These products are also used to temporarily store vaccines when the refrigerator is out of order or being defrosted. The vaccine storage capacity of cold boxes is between 10L and 25 liters. Cold boxes can be grouped into two range cold life: Short range: With a minimum cold life of 48 hours at 43°C ambient temperature. Long range: With a minimum cold life of 96 hours at 43°C ambient temperature.   A vaccine carrier and cold box are used to transport and store vaccines and other temperature-sensitive medical products at the required temperature range. Here's how they work:       1: Insulation: The cold box is made of materials that provide insulation, such as polyurethane foam. This insulation helps to minimize heat transfer between the internal and external environments.       2: Cooling system: The cold box incorporates a cooling system to maintain the desired temperature inside. This system can be one of the following types:     Active cooling: It uses a compressor-based refrigeration system similar to a household refrigerator. The compressor circulates a refrigerant, which absorbs heat from inside the cold box and releases it outside, thereby keeping the temperature low. Passive cooling: It relies on pre-frozen ice packs or dry ice to maintain the desired temperature. These frozen elements are placed inside or around the vaccines to keep them cold. The insulation in the cold box helps to slow down the melting or sublimation of the ice packs or dry ice.       3: Temperature monitoring and control: The cold box may have a built-in temperature monitoring and control system. This system includes sensors to measure the internal temperature and a control mechanism to adjust the cooling or heating elements as needed. It ensures that the temperature remains within the acceptable range to preserve the efficacy of the vaccines.       4: Power supply: The cold box can be designed to operate on different power sources depending on the specific application. It may have a built-in rechargeable battery or be connected to an external power source, such as a mains power outlet or a vehicle power supply. By combining insulation, cooling systems, temperature monitoring, and power supply, the vaccine carrier and cold box provide a controlled environment for vaccines and medical products during transportation and storage. This helps to prevent temperature excursions that could degrade the quality and effectiveness of the vaccines, ensuring that they remain viable and safe for administration.

When choosing an insulin cooler for travel, consider the following factors:       1.Temperature control: Look for a cooler that can maintain the safe temperature range for insulin storage (2°C to 8°C or 36°F to 46°F) for an extended period. Some coolers use cooling packs, while others have built-in refrigeration or thermoelectric cooling systems. Ensure that the cooler can consistently keep the insulin at the appropriate temperature throughout your journey.      2.Size and capacity: Consider the size and capacity of the cooler based on the amount of insulin you need to carry during your travels. Insulin pens or vials, syringes, and other diabetes supplies should fit comfortably within the cooler. Choose a size that suits your specific needs while considering the portability and convenience of carrying it.       3.Cooling mechanism: Different coolers use various cooling mechanisms, such as ice packs, gel packs, refrigeration units, or thermoelectric cooling. Evaluate the pros and cons of each cooling mechanism and choose one that suits your preferences and travel requirements. Ensure that the cooling method can maintain the desired temperature range consistently. Insulin wallet Insulin cooler without ice & refrigeration Eva Insulin cooler bag   Insulin cooler with ice packs Insulin cooler bottle TSA Approved Diabetic     Insulin EpiPen Carry Case   Mini fridge Chargeable mini fridge              4: Portability: Consider the portability and ease of carrying the insulin cooler during your travels. Look for lightweight and compact coolers that are convenient to carry in your bag or purse without weighing you down. Some coolers come with carrying handles, shoulder straps, or clips for added convenience.       5: Durability: Insulin coolers should be durable enough to withstand the rigors of travel. Look for coolers made from sturdy materials that can handle bumps, drops, and other potential hazards. Inspect the quality of the cooler and read customer reviews to assess its durability.       6: Power source: If you option for a cooler with built-in refrigeration or thermoelectric cooling, consider the power source. Some coolers can be powered by electricity, USB ports, car adapters, or batteries. Choose a power source that aligns with your travel plans and accessibility to power outlets.       7: User reviews and recommendations: Read reviews and recommendations from other users who have used the insulin cooler for travel. Their feedback can provide insights into the cooler's performance, reliability, and overall user experience.       8: Additional features: Consider any additional features that may be useful during travel, such as insulation, compartments to organize supplies, temperature monitoring, or alarms to alert you of temperature deviations. It's important to note that individual needs and preferences may vary, so choose an insulin cooler that best suits your specific requirements and travel plans. If you have any concerns or questions, consult with your healthcare professional or pharmacist for further guidance on selecting the right insulin cooler for your needs.

Badu(Xiamen) Technology Co., Ltd develops, manufactures and distributes a full line of solutions for the transport of biological substances of Category A (UN 2814 - UN 2900) and B (UN 3373), at room temperature, chilled or frozen. The UN3373 specimen transport bag is a specific external or tertiary packing that is used for the safe transportation of biological substances, including clinical specimens, diagnostic samples, and other potentially infectious materials. These bags are designed to meet the requirements outlined by the United Nations (UN) for the transportation of biological substances, hence the code "UN3373." When transporting UN3373 specimen transport bags, it is necessary to adhere to specific guidelines for packaging at different levels: Primary packaging: This refers to the individual leak-proof specimen containers (e.g., tubes or vials) that hold the biological samples. These containers must meet the required standards for leak-proof and airtight sealing. Secondary packaging: The UN3373 specimen transport bag itself serves as the secondary packaging. It is the bag specifically designed to enclose and contain the primary containers, providing an additional layer of protection. The bag should be leak-proof and resistant to damage during transportation. Tertiary packaging: The tertiary packaging is the outer packaging that surrounds the UN3373 specimen transport bags. It is an extra layer of protection and containment to safeguard the specimens and ensure compliance with the transportation regulations. Tertiary packaging is usually required when shipping packages containing UN3373-specimen transport bags in bulk or for long-distance transportation. The requirements for UN3373 tertiary packaging may vary depending on the specific regulations of the country or region. However, common considerations for tertiary packaging include: Sturdy construction: The tertiary packaging should be sturdy enough to protect the UN3373-specimen transport bags from external impact or damage during transit. Cushioning material: The use of appropriate cushioning materials, such as bubble wrap or foam, can provide additional protection against shocks and vibrations. Sealing: The tertiary packaging should be secured with appropriate sealing methods, such as tapes or adhesive closures, to prevent accidental openings or spillage. Clear labeling: The packaging should be clearly labeled with the appropriate UN3373 hazard symbol, indicating the presence of biological substances. Information about the shipper, receiver, and any necessary handling instructions should also be clearly displayed.   It is essential to consult and comply with the specific regulations and guidelines provided by the relevant authorities or organizations overseeing the transportation of biological substances, such as the International Air Transport Association (IATA) or national transport agencies. These regulations ensure the safe handling and transportation of UN3373 specimen transport bags and minimize the risks associated with the transportation of biological materials. All our packaging complies with the recommendations and regulations in force by the ADR (road), RID (rail), ADN (inland waterways transport) IMGD (transportation by sea), ICAO (International Civil Aviation Organization) and IATA (international air transport).