DESC:FIELD OF INVENTION
[0001] The present invention relates to a bio-container and more particularly to a method and system of an eco-friendly bio-container with remote temperature control that provides manual temperature control for users to keep the products at optimal temperatures.
RELATED ART
[0002] A bio-container is a packaging system for food in the food industry, as it provides protection from chemical, biological and physical alterations. These Bio-containers are airtight, which helps in keeping out moisture and pests keeping the food fresh for a longer period.
[0003] The conventional Bio-containers used to deliver food products do not have either simultaneous heating and cooling of the food.
[0004] Hence, an effective and efficient bio-container is required that provides manual temperature control for users to keep the products at optimal temperatures.
SUMMARY
[0005] In one embodiment, an eco-friendly bio-container with remote temperature control comprising: a bag unit configured with a multilayer thermal insulation on all sides made up of a perforated and absorbent material on the bottom to absorb any foul smells and spilt products and also has a three-flap and zipper enclosure on the top to ensure no leakage with a display unit on the outer skin to display to display the temperature and humidity for both the heating and cooling at the moment in a cyclic manner; a heating unit is a volume space inside the bag unit that has an aluminum foil coating with a compressible heating bag whose size is adjusted based on volume needs and the remaining portion is exposed to the cooling environment; a cooling unit configured with a multilayer insulation on all sides in a form of aluminum box used for the core container with hollow space to keep cooling the product inside it and the inner walls are lined with mini plastic pouches or boxes of Phase change materials (PCMs) which are also replaceable so that they are removed and refrigerated to begin the next cycle of cooling; and a mobile device connected with the bag unit through WIFI to track and measure the temperature and humidity remotely of the products placed inside it, wherein the eco-friendly bio-container with remote temperature control provide manual temperature control for users to keep their products at optimal temperatures.
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[0006] Several aspects are described below, with reference to diagrams. It should be understood that numerous specific details, relationships, and methods are set forth to provide a full understanding of the present disclosure. One who skilled in the relevant art, however, will readily recognize that the present disclosure is practiced without one or more of the specific details, or with other methods, etc. In other instances, well-known structures or operations are not shown in detail to avoid obscuring the features of the present disclosure.
BRIEF DESCRIPTION OF DRAWINGS
[0007] FIG. 1A and FIG. 1B are block diagrams illustrating an eco-friendly bio-container with remote temperature control in an embodiment of the present disclosure.
[0008] FIG. 2 is a block diagram illustrating an architecture of an eco-friendly bio-container with remote temperature control in an embodiment of the present disclosure.
[0009] FIG. 3A through FIG. 3C are schematic views illustrating different views of the eco-friendly bio-container in an embodiment of the present disclosure.
[0010] FIG. 4 is a flow chart illustrating a method of controlling temperature of a eco-friendly bio-container remotely in an embodiment of the present disclosure.
[0011] FIG. 5 is a schematic view illustrating the method of using the eco-friendly bio-container with remote temperature control in an embodiment of the present disclosure.
DETAILED DESCRIPTION OF THE PREFERRED EXAMPLES
[0012] FIG. 1A and FIG. 1B are block diagrams illustrating an eco-friendly bio-container with remote temperature control in an embodiment of the present disclosure. As shown in 100, is an eco-friendly bio-container with remote temperature control that provide manual temperature control for users to keep their products at optimal temperatures. It comprises of a bag unit 101, a heating unit 102, a cooling unit 103 and a mobile device 104. Each unit is explained in detail below.
[0013] The bag unit 101 configured with a multilayer thermal insulation on all sides made up of a perforated and absorbent material on the bottom to absorb any foul smells and spilt products. This unit 101 has a three-flap and zipper enclosure on the top to ensure no leakage. There is a display unit externally present on the outer skin of the bag unit 101 to display the temperature and humidity for both the heating and cooling at the moment in a cyclic manner.
[0014] The heating unit 102 is a volume space inside the bag unit 101 that has an aluminum foil coating with a compressible heating bag whose size is adjusted based on volume needs and the
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remaining portion is exposed to the cooling environment. This is unit 102 is used for heating or to control the temperature of the product inside it.
[0015] The cooling unit 103 is configured with a multilayer insulation on all sides in a form of aluminum box used for the core container with hollow space to keep cooling the product inside it. The inner walls are lined with mini plastic pouches or boxes of Phase change materials (PCMs) which are also replaceable so that they are removed and refrigerated to begin the next cycle of cooling.
[0016] The mobile device 104 is connected with the bag unit 101 through WIFI to track and measure the temperature and humidity remotely of the products placed inside it.
[0017] As shown in FIG. 1B, a bag unit comprises of an Outer Layer, a Middle Layer and a Inner Layer. Each layer is explained as follows.
[0018] The Outer Layer 100 is made up of a Double Plastic-Coated Aluminium Foil for ultimate durability and superior insulation and enhances its ability to reflect heat, ensuring that the internal temperature remains stable while also protecting the bag from external elements. There is a display unit externally present on the outer skin of the bag unit 101 to display the temperature and humidity for both the heating and cooling at the moment in a cyclic manner.
[0019] The Middle Layer 105 is made up of a Polyethylene Foam Sheets to provide exceptional thermal insulation that traps air within the foam, offering a high level of temperature retention and protection. It is lightweight yet robust, making it ideal for maintaining consistent temperatures.
[0020] The Inner Layer 101 is made up of a Bubble Plastic-Coated Aluminium Foil to combine the cushioning effect of bubble wrap with the reflective properties of aluminium foil to ensure enhanced protection and insulation. It shields the contents from temperature changes and physical impacts, maintaining the integrity of the transported items.
[0021] FIG. 2 is a block diagram illustrating an architecture of an eco-friendly bio-container with remote temperature control in an embodiment of the present disclosure. As shown in 200, is an architecture of an eco-friendly bio-container with remote temperature control is connected internally inside the middle layer of the bag unit. It comprises of a heating unit 201, a humidity and temperature sensor unit (202 & 203), a cooling unit 204, a control unit 205, a WIFI unit 206 and a power unit 207. Each unit is explained in detail below.
[0022] The heating unit 201 configured with a Positive Temperature Coefficient (PTC) heating components that transfer electricity via ceramic stones heated as a consequence, using barium
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titanate as a conductor. The stones never overheat and cause issues with whatever materials are close since ceramic is a substance that blocks the passage of electricity when it warms up.
[0023] The pair of humidity and temperature sensor unit (202 & 203) connected to both heating unit 201 and a cooling unit 204 to measure and record the temperature and humidity data for the cooling portion of each bag as well as the temperature and cooling data for the heating portion for every from each of the heating unit 201 and cooling unit 204. It has a voltage sensor to measure the state of charge and notify the user when the battery level is low.
[0024] The cooling unit 204 configured with phase change materials made of a paraffin wax with palm oil, a Epson salt solutions and corn oil solutions to hold both cold and hot temperature to ensure effective cooling and maintain the product's lightness.
[0025] The control unit 205 receives data from both the pair of humidity and temperature sensor unit (202 & 203), processes it, and sends it to the cloud server to depict the temperature and humidity values for the heating and cooling units of the bag unit.
[0026] The WIFI unit 206 is used to send the data gathered from both the pair of humidity and temperature sensor unit (202 & 203) to the cloud sever.
[0027] The power unit 207 is configured with a three-cell rechargeable lithium-ion battery that supplies power to the heating unit which is capable of generating 200 ? surface temperature.
[0028] FIG. 3A through FIG. 3C are schematic views illustrating different views of the eco-friendly bio-container in an embodiment of the present disclosure. As shown in 300, 310 and 311, is the eco-friendly bio-container with remote temperature control with a three-flap (301, 302 and 308) and zipper enclosure on the top to ensure no leakage from the bag unit. There is a display unit 305 which is externally present on the outer skin of the bag unit 101 to display the temperature and humidity for both the heating and cooling at the moment in a cyclic manner. There is a pair of a UV light 308 essential for maintaining a high hygiene standard. It effectively sanitizes the interior, killing germs and bacteria, which is crucial for transporting medical supplies, pharmaceuticals, and food products safely. There is a power unit or a battery compartment 304 placed externally outside the bag unit that provides the required power to activate the heating and the cooling unit. The heating unit and cooling unit is placed inside the inner layer of the bag unit for simultaneous heating and cooling of the product. Also there is a pouch outside for carrying small things for delivery.
[0029] FIG. 4 is a flow chart illustrating a method of controlling temperature of a eco-friendly bio-container remotely in an embodiment of the present disclosure. As shown in 400, is a method of
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controlling temperature of an eco-friendly bio-container remotely is required to keep the products at optimal temperatures. In step 401, an account is created in a mobile device with a required detail. In step 402, a mobile device is paired with a eco-friendly bio-container through WIFI or Bluetooth. In step 403, a setting is configured to set the desired temperature and humidity. In step 404, the real-time temperature and humidity adjustments is monitored and controlled remotely. In step 405, the notification is enabled to obtain alerts about the temperature changes or other updates.
[0030] FIG. 5 is a schematic view illustrating the method of using the eco-friendly bio-container with remote temperature control in an embodiment of the present disclosure. As shown in 500, where the delivery person 502 is taking a product for delivery using the eco-friendly bio-container with remote temperature control 505 and the user (delivery person himself or a person from company where the product is picked from) 503 is able to control the heating and cooling temperature remotely of product as per customer request using WIFI through a mobile device 504.
[0031] In an embodiment, the PTC heater components of the heating unit, generate the heating, and PCM solutions of the cooling unit, maintain the cooling and temperature. The power unit with a rechargeable lithium-ion battery supplies power to the PTC heater components of the heating unit. These units are capable of generating 200 ? surface temperature. The temperature and humidity are measured using humidity and temperature sensor units. The humidity and temperature sensor unit measure the temperature ranges from -40 to 80 ? with a 2-degree accuracy and its humidity measurement precision is ±2%RH and the humidity range is 0-100%RH.
[0032] In an embodiment, in order to record the temperature and humidity for the cooling unit of each bag as well as the temperature and cooling for the heating unit, two humidity and temperature sensor units are used for each bag where every two seconds, data is gathered from each of the units.
The WIFI module sends the data gathered by these humidity and temperature sensor units to the cloud server. The data outputs of both humidity and temperature sensor units are connected to control unit with WIF capabilities. The power unit also provide power to the control unit. The control unit receives data from both humidity and temperature sensor units, processes it, and sends it to the cloud server. The cloud server is where the data is kept. and the user uses this stored data to depict the temperature and humidity values for the heating and cooling parts of the bag. Through an internet connection, this data is accessible from anywhere on Earth to check the temperature,
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humidity, and battery charge level. The device also allows for the simultaneous monitoring of multiple devices, and it even provides a graphical representation of the analysis of temperature change over time. Even the battery and temperature are also managed.
[0033] In an embodiment, there is a display unit on the bag unit to display numerical value-based data of the temperature and humidity at the moment for both the heating and cooling units. There is a time-stamp-based plot for the observable temperatures and battery voltage. The mobile device is connected with device and the cloud-based system. The eco-friendly bio-container data is generated by a physical sensor such as humidity and temperature sensor units with the control unit. The display unit also displays the desired temperature for heating and the observable temperature for both cooling and heating. Also, the display unit of the eco-friendly bio-container display the observable humidity too. The eco-friendly bio-container is a customizable with additional sensors for the same container as per the requirements. The display unit of the eco-friendly bio-container also displays battery voltage indicator and safety notification for the container.
[0034] In an embodiment, the cooling occurs at a wide range of temperatures and different materials are used to cater to different temperature needs. In this eco-friendly bio-container, a paraffin wax with palm oil, Epson salt solutions and corn oil solutions are used in the cooling unit to keep cooling. The paraffin wax is a used PCM to hold both cold and hot temperatures. The Paraffin wax is safe, reliable, predictable, less expensive, and non-corrosive. They are chemically inert, show little volume change during melting and has low vapor in the melt. A super-cooling is a condition that is experienced by a liquid that has a dramatic decrease in temperature to below freezing without being solid. This is because the molecules in the liquid have thermal motion which prevents them from crystallizing. Therefore, nucleation agents are needed to reduce/eliminate supercooling tap water and distilled water. Hence, a corn oil is used as this nucleation agent. The Epsom salt is used as a PCM in construction and showed invaluable results. A various material to store this PCM are also tested to account for effects such as effective volume cooling and condensate along with optimum volume to ensure effective cooling and maintain the product's lightness.
[0035] In an embodiment, the Positive Temperature Coefficient, or PTC, is the amount of resistance it takes to apply enough energy to a substance before it begins to feel warm and exhibits an increase in electrical resistance. An electrical resistance is crucial during creating a heating element because it reduces the possibility that the electricity that continue to flow into the heating
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element and cause it to overheat as energy is pushed into the material. Instead, the current is kept going, warming the heating element's ceramic substance more effectively.
[0036] In an embodiment, the PTC heating components of the heating unit are made from materials that is able to withstand high levels of abuse. The PTC heaters typically run cooler than other heating elements that use wires, so the materials aren’t exposed to extreme conditions that cause premature corrosion or further damage.
[0037] In an embodiment, the issue of simultaneous hot and cold temperature control in delivery bags is addressed by this eco-friendly bio-container with remote temperature control. This eco-friendly bio-container with remote temperature control provides manual temperature control for users to keep their products at optimal temperatures. The heating control is handled by rechargeable batteries extended to heating unit (PTC heater modules) connected to the bag unit, whose temperature is controlled by varying electric signals. The cooling unit is controlled by organic and inorganic “phase change materials” (PCMs) which release and absorb large amounts of latent heat while changing its phase whose property makes it optimal to be used as cooling materials. The different phase change materials are used for different applications and temperature ranges. This bag unit is customised in various sizes and is used in a wide range of applications ranging from food delivery to medical care needs. This eco-friendly bio-container with remote temperature control is a box model used for more customized applications in delivery using drone technologies for emergency needs. Thus, this eco-friendly bio-container with remote temperature control serves as a solution to replace conventional delivery mechanisms and is been more sustainable technology in terms of shorter delivery times by conducting simultaneous deliveries so that numerous products with different temperature ranges delivered together and also use rechargeable heating mechanisms along with eco-friendly cooling solutions. Both the bag and box are a detachable flexible mini foldable bag inside the main container. That bag unit is responsible for heating. There is also a humidity sensor to track the humidity of both heating and cooling chambers.
[0038] In an embodiment, in this eco-friendly bio-container additional sensors such as light sensors or vibration sensors are also used to assess the performance of the cooling and heating aspects. These sensors are further integrated and provided with end-to-end encryption and/or user-specific access options to make it user-friendly. The heating unit placed inside the bag unit is detachable or fixed based on the requirements of the user.
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[0039] In an embodiment, for cooling purposes, a thickening agent into the PCM is used to make it into a gel-like composition. The PCM is a liquid that frozen and melts eventually during the usage of the bag unit. The quantity and placement of the PCM inside the bag unit are used for optimal functioning. The PCM consist of a mixture of organic and non-organic solvents, solid and liquid, to create a gel-like composition. The PCMs is used for compatibility with the packaging. The packaging of the PCM is made of aluminium, LDPE, silicon and other common packaging materials.
[0040] In an embodiment, the heating unit is incorporated with PCM used for retaining the heat in the bag unit even in case the PTC components are switched off. This not only conserve battery of the power unit but it also leads to an increase in the time duration where the temperature is maintained. The PCM for this heating purpose is similar to the cooling, the only difference being that the melting point is much higher for the given purpose. The PCM for heating need a different kind of packaging to account for the heat that needs to be sustained across many cycles. The PCM is used in such a way that the same packet of material is used for both heating and cooling across many cycles to retain heat or absorb heat as and when required. The temperature range in which this PCM works is based on the requirement and thus customised with minimum modifications.
[0041] In an embodiment, this eco-friendly bio-container is of a adjustable Size with a bag features is an expandable allowing it to adjust in size according to the volume of contents. This adaptability ensures that the bag accommodates both small and large items while maintaining effective temperature control. The flexible compartments, Internal compartments are resized or rearranged, providing versatility for different types of goods and ensuring optimal use of space.
[0042] In an embodiment, this eco-friendly bio-container has a foldable Structure where the bag is designed with an innovative, origami-inspired folding mechanism. This allows it to be compactly folded in case not in use, significantly reducing its storage footprint and making it highly portable.
The space efficiency of this clever folding technique ensures the bag saves valuable storage space without compromising its functionality. It is easily stored in tight spaces or carried conveniently in case folded. The maintained Integrity despite being foldable, the design preserves the bag’s structural integrity. It remains robust and functional even after multiple uses, ensuring long-lasting performance. The origami-inspired folding mechanism facilitates quick setup and breakdown. This makes it easy to use and handle, whether for daily tasks or occasional needs, providing a hassle-free experience.
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[0043] In an embodiment, this eco-friendly bio-container has an internal heating mechanism where the bag unit includes an internal heating system powered by a rechargeable battery. This system allows for precise temperature control, ensuring that items needing warmth are kept at the desired temperature. The heating elements are integrated into the bag’s structure in a way that does not interfere with the bag’s flexibility. They are designed to be lightweight and adaptable, ensuring they do not hinder the bag's performance when folded or expanded.
[0044] In an embodiment, this eco-friendly bio-container has a water-resistant fabric. The outer fabric keeps water out, protecting the contents from rain or spills. The Thermal Insulation is the bag's outer fabric insulated to maintain the temperature, ensuring hot stays hot and cold stays cold.
The inside has a special aluminum layer that reflects heat, helping with better temperature control.
[0045] In an embodiment, the bag unit is equipped with specially designed wiring that is both water-resistant and highly flexible. This ensures that the wiring remains functional and safe even in case the bag comes into contact with moisture. The flexibility of the wires allows them to adapt seamlessly to the bag's movements and folding without compromising their performance. Each wire is heavily insulated to protect against electrical faults and ensure safe operation. The robust insulation prevents any potential damage or short circuits, contributing to the bag's overall safety and reliability. The innovative wiring setup ensures that the bag's functionality remains unaffected when it is folded or unfolded. This means that the electrical components inside, such as heating or cooling elements, operate smoothly without any interruptions or loss in performance.
[0046] In an embodiment, the bag unit is meticulously designed to accommodate various transport methods, including bikes, cars, and trucks. Its flexible structure ensures that it is easily loaded and unloaded, adapting to different types of vehicles. Additionally, the bag is customized with a variety of materials to meet specific transport needs, whether for food delivery, medical supplies, or other sensitive items. The bag unit features an internal design that allows it to expand and adjust according to the contents. This flexibility ensures that the bag can handle different sizes and types of items effectively. The design also provides easy access for opening and closing the bag, making it user-friendly and versatile. Inside the larger bag is a smaller, foldable bag specifically designed for heating purposes. This smaller bag is easily folded in case not in use, optimizing space and convenience. When needed, it unfolds to provide targeted heating for specific items, enhancing the overall functionality of the larger bag. This dual-bag system ensures that both heating and cooling
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needs are met efficiently, while the foldable nature of the smaller bag adds to the overall adaptability and space-saving features of the product.
[0047] In an embodiment, the bag unit is offered in two sizes to suit diverse customer needs. The 40-liter version is perfect for larger shipments or extended journeys, while the 15-liter option is ideal for smaller, everyday use. This range allows for flexibility in catering to different market segments and customer preferences. The dimensions of this eco-friendly bio-container is (14 x 14 x14 inches) and another (14 x 10 x 6 inches).
[0048] In an embodiment, there are Three Types of Coolants in this eco-friendly bio-container options to meet various needs. First one: Organic Coolant designed specifically for food delivery. Safe for direct handling with bare hands, it ensures hygienic transport and is a key unique selling point (USP) for the this eco-friendly bio-container. Another one: Chemical Coolants which are ideal for extended cooling periods. These coolants are designed to maintain consistent temperatures over longer transit times, making them suitable for more demanding transport requirements.
[0049] In an embodiment, this eco-friendly bio-container has UV Light Sanitization or integrated UV light technology, which is essential for maintaining high hygiene standards. UV light effectively sanitizes the interior, killing germs and bacteria, which is crucial for transporting medical supplies, pharmaceuticals, and food products safely. This container is designed to be adaptable for various transportation methods:
[0050] Drone Deliveries: Its lightweight and compact design make it suitable for drone use, supporting the growing trend of rapid, aerial delivery for small, sensitive items.
[0051] Two-Wheelers: The container’s size and design are optimized for easy integration with motorcycles and scooters, ideal for food delivery and quick dispatch services.
[0052] Four-Wheelers: Its robust construction and smart features make it practical for use in cars and delivery vans, handling larger items while ensuring secure and stable transport.
[0053] Ease of Accessibility: The container is designed for quick and convenient loading and unloading, enhancing operational efficiency and reducing delivery times.
[0054] Quick Cleaning: The container's design allows for easy cleaning, with surfaces that can be wiped down swiftly. This feature ensures that the container remains hygienic and ready for use with minimal downtime.
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[0055] Adaptive and User-Friendly: The Smart Bio Container is more than just a bag; it represents a smart packaging solution that combines advanced technology with practical features to meet diverse transport needs efficiently.
[0056] In an embodiment, this eco-friendly bio-container works by piggybacking on the network of a nearby mobile device to be transmitted anywhere across the world. In this way, the control unit is not overloaded or draw more current, and help with the encryption of the data as connected to a specific network or with authenticated access. This leads to the secure transmission of data and the conservation of battery life.
[0057] While various embodiments of the present disclosure have been described above, it should be understood that they have been presented by way of example only, and not limitation. Thus, the breadth and scope of the present disclosure should not be limited by any of the above- discussed embodiments, but should be defined only in accordance with the following claims and their equivalents. ,CLAIMS:I/We Claim,
1. An eco-friendly bio-container with remote temperature control 100 comprising:
a bag unit 101 configured with a multilayer thermal insulation on all sides made up of a perforated and absorbent material on the bottom to absorb any foul smells and spilt products and also has a three-flap and zipper enclosure on the top to ensure no leakage with a display unit externally present on the outer skin to display the temperature and humidity for both the heating and cooling at the moment in a cyclic manner;
a heating unit 102 is a volume space inside the bag unit 101 that has an aluminum foil coating with a compressible heating bag whose size is adjusted based on volume needs and the remaining portion is exposed to the cooling environment;
a cooling unit 103 configured with a multilayer insulation on all sides in a form of aluminum box used for the core container with hollow space to keep cooling the product inside it and the inner walls are lined with mini plastic pouches or boxes of Phase change materials (PCMs) which are also replaceable so that they are removed and refrigerated to begin the next cycle of cooling; and
a mobile device 104 connected with the bag unit 101 through WIFI to track and measure the temperature and humidity remotely of the products placed inside it,
wherein the eco-friendly bio-container with remote temperature control 100 provide manual temperature control for users to keep their products at optimal temperatures.
2. An architecture of the eco-friendly bio-container with remote temperature control 200 comprising:
a heating unit 201 configured with a Positive Temperature Coefficient (PTC) heating components that transfer electricity via ceramic stones heated as a consequence, using barium titanate as a conductor where these stones never overheat and cause issues with whatever materials are close since ceramic is a substance that blocks the passage of electricity when it warms up;
a pair of humidity and temperature sensor unit (202 & 203) connected to both heating unit 201 and a cooling unit 204 to measure and record the temperature and humidity data for
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the cooling portion of each bag as well as the temperature and cooling data for the heating portion for every from each of the heating unit 201 and cooling unit 204;
a cooling unit 204 configured with phase change materials made of a paraffin wax with palm oil, a Epson salt solutions and corn oil solutions to hold both cold and hot temperature to ensure effective cooling and maintain the product's lightness;
a control unit 205 receives data from both the pair of humidity and temperature sensor unit (202 & 203), processes it, and sends it to the cloud server to depict the temperature and humidity values for the heating and cooling units of the bag unit;
a WIFI unit 206 used to send the data gathered from both the pair of humidity and temperature sensor unit (202 & 203) to the cloud sever; and
a power unit 207 configured with a three-cell rechargeable lithium-ion battery that supplies power to the heating unit which is capable of generating 200 ? surface temperature,
wherein the architecture of the eco-friendly bio-container with remote temperature control 200 provide manual temperature control for users to keep their products at optimal temperatures.
3. A method of controlling temperature of a eco-friendly bio-container remotely 400 comprising:
creating an account n a mobile device with a required detail 401;
pairing a mobile device with a eco-friendly bio-container through WIFI or Bluetooth 402;
configuring a setting to set the desired temperature and humidity 403;
monitoring and controlling the real-time temperature and humidity adjustments remotely 404; and
enabling the notification to obtain alerts about the temperature changes or other updates,
wherein the method of controlling temperature of an eco-friendly bio-container remotely is required to keep the products at optimal temperatures. 4. The eco-friendly bio-container with remote temperature control 100 of claim 1, wherein
the dimensions of this eco-friendly bio-container is (14 x 14 x14 inches) and another (14 x 10 x 6 inches). 5. The eco-friendly bio-container with remote temperature control 100 of claim 1, wherein this eco-friendly bio-container is of a adjustable Size with a bag features is an expandable allowing it to adjust in size according to the volume of contents.
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6. The eco-friendly bio-container with remote temperature control 100 of claim 1, wherein the display unit also displays the desired temperature for heating and the observable temperature for both cooling and heating with battery voltage indicator and safety notification for the container. 7. The architecture of the eco-friendly bio-container with remote temperature control 200 of claim 2, wherein the humidity and temperature sensor unit measure the temperature ranges from -40 to 80 ? with a 2-degree accuracy and its humidity measurement precision is ±2%RH and the humidity range is 0-100%RH. 8. The architecture of the eco-friendly bio-container with remote temperature control 200 of claim 2, wherein the eco-friendly bio-container works by piggybacking on the network of a nearby mobile device to be transmitted anywhere across the world. 9. Method, system and apparatus providing one or more features as described in the paragraphs of this specification.