MULTIFUNCTIONAL PACKAGING CONTAINER

Abstract

The present invention relates to packaging containers, specifically addressing the need for an efficient and adaptable solution for the storage and delivery of food items and medical supplies. The invention introduces two distinct packaging container designs, utilizing durable materials and incorporating temperature-regulating elements, ventilation strips, and sealing mechanisms. The containers are designed to enhance the delivery process, ensuring product quality and consumer satisfaction.

Description

FIELD OF THE INVENTION

The present invention pertains to packaging containers, specifically a multifunctional packaging container suitable for the storage and delivery of food items and medical supplies.

BACKGROUND

Various self-supporting containers have been developed over the years for the purpose of storing, transporting, and insulating food, beverages, and other items that require temperature control. Traditional lunch bags and coolers typically incorporate gel materials within their walls to maintain the desired temperature. However, these containers are often bulky and occupy considerable space in a freezer or storage area. When not in use, they are difficult to compact, leading to inefficient storage. Additionally, these containers are generally heavy and cumbersome to carry, limiting their practicality for everyday use.

The rise of home delivery services for food and medical supplies has further emphasized the need for advanced packaging solutions that can effectively maintain product temperature, reduce condensation, and protect the contents during transport. Existing insulated containers have largely failed to meet these new demands, as they are either too bulky, lack sufficient thermal insulation, or fail to address the issue of condensation, which can lead to compromised product quality. The inadequacies of current containers often result in consumer dissatisfaction, particularly when products arrive at their destination in suboptimal condition.

Attempts to improve existing containers have focused on enhancing thermal insulation or making the containers more compact. However, these solutions often involve trade-offs, such as increased weight or reduced insulation efficiency. Moreover, many existing containers still rely on gel packs or similar materials that require lengthy periods in the freezer, adding to the inconvenience for users.

Our invention addresses these limitations by introducing a novel insulated container that not only provides superior thermal insulation but also offers significant improvements in portability and convenience. Unlike conventional containers, our design incorporates a lightweight, flexible insulation material that can be easily folded or rolled when not in use, reducing storage space requirements. Additionally, the container is designed to minimize condensation through the use of advanced moisture-wicking materials, ensuring that the contents remain dry and at the desired temperature throughout the transportation process.

The result is a highly efficient, user-friendly container that meets the growing demands of home delivery services, while also addressing the common shortcomings of existing solutions. Our invention represents a significant advancement in the field of insulated containers, offering a comprehensive solution that balances thermal performance, portability, and convenience.

SUMMARY

This invention introduces a number of distinct packaging container features, including:

• • A flat-box design that users can easily assemble from a flat state.
  • A design featuring separate container and lid components.
  • The containers can be are crafted from durable materials, either water-resistant food-safe paper or plastic, adept at enduring diverse temperature conditions. Central to each design is a compartment to accommodate temperature-regulating elements, such as removable ice packs or heat packs.

The exact positioning of the compartment can be chosen during order placement. Adjustable ventilation strips are integrated to minimize condensation and optimize airflow for the items stored in he container. Depending on the design variant, sealing mechanisms differ. The flat-assembled box uses a double-sided adhesive flap with a tear-off strip, whereas the separate container and lid variant employs an external sticker.

The invention seeks to modernize home delivery packaging, ensuring optimal delivery of both food and medical supplies.

DETAILED DESCRIPTION OF DRAWINGS

FIG. 1 is a Multifunctional Packaging Container, showcasing its dual-purpose design

FIG. 2 is a Sectional View of one or more compartments, highlighting the compartmentalization within the container, essential for housing temperature-regulating elements.

FIG. 3 is a Sectional Top View of the Multifunctional Packaging Container, detailing the arrangement of the compartments and their relation to the overall structure.

FIG. 4 is a Sectional View Of Customizable Compartment in the Container, focusing on their flexibility in positioning to optimize temperature control based on specific user requirements.

DETAILED DESCRIPTION

This embodiment introduces the multifunctional packaging container as depicted in FIG. 1, which shows the overall structure of the container. The container is designed for dual purposes, capable of accommodating both food items and medical supplies. Constructed from durable, water-resistant materials, such as food-safe paper or plastic, the container is suitable for a variety of temperature conditions. The figure illustrates a flat-box design in its assembled state, highlighting its robust construction and versatility in storage and delivery scenarios.

The embodiment describes an alternative design featuring distinct container and lid component 1, as seen in FIG. 1. This design variant offers increased versatility, catering to a variety of storage and delivery needs. The separate components allow easy access to the container's contents, making it suitable for items that require frequent handling or have specific storage requirements. This design is particularly beneficial for medical supplies, where secure storage and ease of access are crucial.

One or more embodiments emphasizes the container's flat-box design, which allows it to be assembled from a flattened state. This feature is particularly advantageous for storage and transportation, as it minimizes the space required when the container is not in use. The assembly process is straightforward, enhancing user convenience and reducing setup time. The container's flat-box design is ideal for environments where space efficiency is critical, making it a practical solution for modern delivery services.

The embodiment as detailed in FIG. 2, which provides a sectional view of the container, showcasing the one or more compartments designed to house temperature-regulating elements 2. These compartments are strategically positioned within the flat top of the container to optimize thermal performance, ensuring that the contents remain at the desired temperature throughout the delivery process. The sectional view illustrates the integration of these compartments into the container's structure, emphasizing their role in enhancing the container's functionality. The compartments are customizable, allowing users to position them based on their specific needs, as seen in the figure.

One or more embodiments as illustrated in FIG. 3, which presents a sectional top view of the Multifunctional Packaging Container. This details the internal arrangement of the compartments and their relation to the container's overall design. This top view provides insight into the layout, showing how the compartments are distributed to maximize storage efficiency and temperature regulation. The illustration also depicts the adjustable ventilation strips 3, which are strategically placed within the container to enhance airflow and reduce condensation. These ventilation strips 3 are integral to maintaining the quality of the stored items by minimizing moisture buildup.

One or more embodiment is further elaborated in FIG. 4, which offers a sectional view of the customizable compartments within the container. The figure demonstrates the flexibility in the positioning of these compartments, allowing for tailored temperature control based on the specific needs of the stored items. This sectional view highlights the ease with which the compartments can be adjusted, illustrating the user-friendly design of the container. The customization of these compartments is particularly advantageous for transporting temperature-sensitive items, ensuring optimal temperature management throughout the delivery process.

One or more embodiments further describes the sealing mechanisms incorporated into the container, which are essential for maintaining the integrity of the stored items during transport. For the flat-assembling box design, as depicted in FIG. 3, a double-sided adhesive flap with a tear-off strip 4 is employed to secure the container. This mechanism ensures a tight seal, preventing accidental opening and protecting the contents. Alternatively, FIG. 4 also illustrates the separate container and lid design 1, which utilizes an external sticker mechanism 4 for sealing. This method provides an additional layer of security and ease of use, making it suitable for a variety of delivery scenarios.

This embodiment highlights the inclusion of temperature-regulating elements within the container. These elements, such as removable ice packs or heat packs, are housed in designated compartments for temperature-regulating elements 2 that can be customized in position. The ability to easily insert and remove these elements ensures efficient temperature control, adapting to the needs of the stored items. This feature is particularly useful for the delivery of perishable food items or temperature-sensitive medical supplies, ensuring that they arrive at their destination in optimal condition.

Claims

1. A multifunctional packaging container comprising: a flat-box design that is configurable from a flat state to an assembled state; accommodating one or more food items; at least two compartments, each compartment for accommodating temperature-regulating elements.

2. The multifunctional packaging container of claim 1, wherein the compartment is customizable in position within the container.

3. The multifunctional packaging container of claim 2, further comprising adjustable ventilation strips integrated into the container.

4. The multifunctional packaging container of claim 3, wherein the adjustable ventilation strips are designed to minimize condensation within the container.

5. The multifunctional packaging container of claim 1, wherein the container is constructed from water-resistant food-safe paper or plastic.

6. The multifunctional packaging container of claim 1, wherein the temperature-regulating elements comprise removable ice packs or heat packs.

7. The multifunctional packaging container of claim 1, further comprising a double-sided adhesive flap with a tear-off strip for sealing the container.

8. The multifunctional packaging container of claim 1, further comprising an external sticker for sealing the container.

9. A packaging system for storage and delivery of items, comprising: a separate container and lid components; a designated compartment for housing temperature-regulating elements; adjustable ventilation strips for controlling airflow and condensation.

10. The packaging system of claim 9, wherein the temperature-regulating elements are selected from the group consisting of but not limited to ice packs and heat packs.

11. The packaging system of claim 9, wherein the designated compartment is customizable in position based on user preference.

12. The packaging system of claim 9, wherein the container and lid are constructed from durable materials suitable for various temperature conditions.

13. The packaging system of claim 9, wherein the container and lid are sealed using an external sticker mechanism.