A flip cover shielding storage bag
By using a flip-top shielded storage bag design and an electromagnetic shielding plate, the chip doll and the main unit can be stored separately and prevented from being accidentally touched. This solves the problem of chip dolls being easily lost and misplayed in smart early education toys, and improves the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN DEEGO INNOVATION TECHNOLOGY CO LTD
- Filing Date
- 2025-06-30
- Publication Date
- 2026-06-19
AI Technical Summary
The chip dolls in smart early education toys are easy to lose, and when storing them, they are prone to accidentally touching the main unit's recognition area, causing misplay. There is a lack of dedicated storage solutions.
Design a flip-top shielded storage bag, comprising a main body, dividers, and an electromagnetic shielding plate. The electromagnetic shielding plate blocks electromagnetic signal interaction when closed, enabling the separate storage of the chip doll and the main unit. When open, the chip doll can be used directly without removing it to trigger playback.
It effectively prevents chip dolls from being lost or accidentally triggered, provides solutions for categorized storage and efficient use, and enhances the user experience.
Smart Images

Figure CN224376287U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of daily necessities technology, and in particular to a flip-top shielded storage bag. Background Technology
[0002] In recent years, with the rapid development of the early childhood education market, smart toys incorporating interactive technology (such as Toniebox) have gradually gained popularity among parents and children. A typical early childhood education toy includes a chip recognition host and several matching chip-enabled dolls. The chip recognition host is usually equipped with a display screen (optional), a speaker, and a chip recognition area (usually located on the top surface of the host). Each chip-enabled doll has a specific chip component (such as RFID, NFC, or other identifiable codes) embedded in its bottom. When a chip-enabled doll is placed in the recognition area of the host, the host can read the information from the chip component and play corresponding early childhood education audio or video content, such as stories, nursery rhymes, or English words, thus achieving interactive learning. Furthermore, for the convenience of children, many of these smart toys default to energy-saving standby mode once powered on, only actively playing corresponding audio or video content when they receive information from the chip component.
[0003] These types of toys typically come with multiple chip-embedded figurines (such as cartoon characters or animal figures) to enrich the learning content. This leads to the following problems:
[0004] (1) Due to the small size and large number of chip dolls, they are easily lost or scattered during daily use and storage, which affects the user experience;
[0005] (2) When using traditional plastic bags or eco-friendly bags for storage, the chip components of the chip doll are prone to accidentally touching the recognition area of the chip recognition host, causing the chip recognition host to play audio or video incorrectly.
[0006] Currently, there is a lack of dedicated storage solutions for such toys on the market. Therefore, there is an urgent need for a storage bag specifically designed for these early education toys to solve the problems of chip dolls being easily lost in smart early education toys and accidental activation of the main unit's recognition area during storage, leading to misplay.
[0007] The information disclosed in this background section is included only to enhance the understanding of the context of this disclosure, and therefore may contain information that does not constitute prior art known to those skilled in the art. Utility Model Content
[0008] One objective of this invention is to provide a flip-top shielded storage bag that can effectively solve the problems of chip dolls being easily lost in smart early education toys and accidental touches on the host recognition area during storage, leading to misplay.
[0009] To achieve the above objectives, this utility model provides a flip-top shielded storage bag, comprising:
[0010] The main body of the storage bag encloses and forms a storage cavity;
[0011] A partition assembly is located in the storage cavity and divides the storage cavity into a main chamber and a secondary chamber;
[0012] in,
[0013] The partition assembly includes a fixed partition and an electromagnetic shielding plate that is rotatably disposed relative to the fixed partition;
[0014] The electromagnetic shielding plate has a closed state in which it rotates to be flush with the fixed partition to completely separate the main chamber and the secondary chamber; and an open state in which it rotates to form an angle or overlap with the fixed partition to connect the main chamber and the secondary chamber.
[0015] Optionally, the electromagnetic shielding plate includes a plastic substrate and a shielding metal layer attached to the plastic substrate.
[0016] Optionally, the shielding metal layer is a galvanized copper mesh or aluminum foil.
[0017] Optionally, the separating component further includes:
[0018] A flexible fabric sleeve covers both the fixed partition and the electromagnetic shielding plate, and forms a flexible hinge structure at the interval between the fixed partition and the electromagnetic shielding plate, allowing the electromagnetic shielding plate to rotate relative to the fixed partition.
[0019] Optionally, the flexible fabric sleeve has stitching at the interval between the fixed partition and the electromagnetic shielding plate to limit the horizontal displacement of the fixed partition and the electromagnetic shielding plate within the flexible fabric sleeve.
[0020] Optionally, the main body of the storage bag includes:
[0021] The anti-collision bottom enclosure is assembled to form the main chamber with the opening facing upwards;
[0022] The middle side panel is openable and closable and connected to the top of the anti-collision bottom pack, forming the sub-cavity with openings at both the top and bottom; wherein, the partition component is installed at the lower opening of the sub-cavity to completely cover or partially open the lower opening of the sub-cavity.
[0023] The top cover of the package body is detachable and connectable to the upper opening of the middle side panel to cover or open the upper opening of the middle side panel.
[0024] The anti-collision bottom bag and the middle side panel, as well as the middle side panel and the top cover of the bag, are connected by zippers, buttons, snaps, or Velcro for opening and closing.
[0025] Optionally, the interior of the anti-collision base is provided with anti-collision sponge.
[0026] Optionally, the middle sidewall and / or the top cover of the package may be transparent.
[0027] Optionally, the outer side of the anti-collision bottom bag is provided with an auxiliary side bag, the auxiliary side bag including a side bag cavity and a side bag zipper communicating with the side bag cavity.
[0028] Optionally, the accessory side pouch is detachably connected to the main body of the storage bag.
[0029] The beneficial effects of this utility model are as follows: It provides a flip-top shielded storage bag, the working process of which is as follows:
[0030] 1. Storage status (closed)
[0031] Generally, the chip recognition area of the chip recognition host is located at the top of the chip recognition host. After placing the chip recognition host into the main chamber, when the electromagnetic shielding plate is rotated to the closed position, the electromagnetic shielding plate is exactly above the chip recognition area. At this time:
[0032] (1) Storage and classification function: The main chamber is used to store the chip identification host (such as the Toniebox host), and the host power is usually in standby mode; the secondary chamber is used to store multiple chip dolls (such as RFID / NFC dolls), thereby realizing the classified storage between the chip identification host and the chip dolls to prevent the chip dolls from being lost;
[0033] (2) Electromagnetic shielding mechanism: Since the electromagnetic shielding plate is located directly above the chip recognition area, it can completely shield the electromagnetic signal interaction between the chip recognition area and the chip dolls above the electromagnetic shielding plate. Even if the chip doll moves directly above the electromagnetic shielding plate during the user's movement, it cannot trigger the chip recognition host to work, thereby achieving the effect of preventing misplay.
[0034] 2. Access Status (Open Status)
[0035] When a user needs to use the chip to identify the host to play audio or video files, the operation process is as follows:
[0036] (1) Flipping operation:
[0037] Lift the electromagnetic shielding plate upwards so that it forms an angle with the fixed partition (the electromagnetic shielding plate is in a vertical state) or overlaps with it (the electromagnetic shielding plate is horizontally stacked on the top surface of the fixed partition). The original gap where the electromagnetic shielding plate was located is exposed. The main chamber and the secondary chamber are connected through this gap, and this gap is located directly above the chip recognition area of the chip recognition host.
[0038] (2) Playback function implementation:
[0039] At this point, there is no need to remove the chip recognition host from the flip-top shielded storage bag. Simply take the chip doll out of the secondary chamber and place it on the chip recognition area on top of the chip recognition host to trigger it to work and play the corresponding content.
[0040] 3. Turn off reset
[0041] After use, pick up the chip doll and then rotate the electromagnetic shielding plate in the opposite direction until it is flush with the fixed partition to cover the gap directly above the chip recognition area and restore the dual-chamber isolation state.
[0042] Simply place the chip doll back into the secondary chamber to complete the sorting and storage of the chip recognition host and the chip doll.
[0043] Therefore, the flip-top shielded storage bag provided by this utility model can effectively solve the problems of chip dolls being easily lost in smart early education toys, and accidental touch of the host recognition area during storage, leading to misplay. Attached Figure Description
[0044] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0045] Figure 1 A schematic diagram of the flip-top shielded storage bag provided in the embodiment when fully closed;
[0046] Figure 2 A schematic diagram of the flip-top shielded storage bag provided in the embodiment when the top cover of the bag is opened;
[0047] Figure 3 The above-illustrated flip-top shielded storage bag is shown in the structural diagram of the electromagnetic shielding plate being rotated to a vertical position for use with chip identification of the host, as provided in the embodiment.
[0048] Figure 4 This is a schematic diagram of the flip-top shielded storage bag provided in the embodiment when fully opened.
[0049] In the picture:
[0050] 1. Main body of the storage bag; 101. Anti-collision bottom bag; 1011. Main chamber; 102. Middle side panel; 1021. Secondary chamber; 103. Top cover of the bag;
[0051] 2. Dividing components; 201. Fixed partition; 202. Electromagnetic shielding plate; 203. Flexible fabric sleeve; 2031. Sewing thread;
[0052] 3. Accessory side pocket; 301. Side pocket zipper. Detailed Implementation
[0053] In this utility model, the reference to "embodiment" means that a specific feature, structure, or characteristic described in connection with an embodiment can be included in at least one embodiment of this utility model. The term "embodiment" appearing in various places throughout the specification does not necessarily refer to the same embodiment, nor does it specifically limit its independence or connection with other embodiments. In principle, in this utility model, as long as there are no technical contradictions or conflicts, the technical features mentioned in each embodiment can be combined in any way to form corresponding implementable technical solutions.
[0054] Unless otherwise defined, the technical terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains; the use of related terms herein is merely for the purpose of describing particular embodiments and is not intended to limit the invention.
[0055] In the description of this utility model, the term "and / or" is used to describe the logical relationship between objects, indicating that three relationships can exist. For example, A and / or B means: A exists, B exists, and A and B exist simultaneously. Additionally, the character " / " generally indicates that the preceding and following objects have an "or" logical relationship.
[0056] In this invention, terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any actual quantity, hierarchy, or order between these entities or operations.
[0057] Without further limitations, the use of terms such as “comprising,” “including,” “having,” or other similar expressions in this invention is intended to cover non-exclusive inclusion, which does not exclude the presence of additional elements in a process, method, or product that includes the stated elements, such that a process, method, or product that includes a series of elements may include not only those defined elements but also other elements not expressly listed, or elements inherent to such a process, method, or product.
[0058] Similar to the understanding in the Examination Guidelines, in this utility model, expressions such as "greater than," "less than," and "exceeding" are understood to exclude the stated number; expressions such as "above," "below," and "within" are understood to include the stated number. Furthermore, in the description of the embodiments of this utility model, "multiple" means two or more (including two), and similar expressions related to "multiple" are also understood in this way, such as "multiple groups" and "multiple times," unless otherwise explicitly specified.
[0059] In the description of the embodiments of this utility model, the space-related expressions used, such as "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "vertical," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," and "circumferential," indicate the orientation or positional relationship based on the orientation or positional relationship shown in the specific embodiments or drawings. They are only for the convenience of describing the specific embodiments of this utility model or for the reader's understanding, and do not indicate or imply that the device or component referred to must have a specific position, a specific orientation, or be constructed or operated in a specific orientation. Therefore, they should not be construed as limitations on the embodiments of this utility model.
[0060] Unless otherwise expressly specified or limited, the terms "installation," "connection," "linking," "fixing," and "setting," as used in the description of the embodiments of this utility model, should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral setting; it can be a mechanical connection, an electrical connection, or a communication connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be the internal connection of two components or the interaction between two components. For those skilled in the art to which this utility model pertains, the specific meaning of the above terms in the embodiments of this utility model can be understood according to the specific circumstances.
[0061] This utility model provides a flip-top shielded storage bag, designed specifically for smart early education toys (such as Toniebox), which achieves the functions of preventing accidental contact and orderly storage through a flip-up shielding partition.
[0062] See Figures 1-4 The flip-top shielded storage bag provided in this embodiment includes:
[0063] The main body of the storage bag 1 is enclosed to form a storage cavity;
[0064] The partition component 2 is located in the storage cavity and divides the storage cavity into a main chamber 1011 and a secondary chamber 1021.
[0065] in,
[0066] The partition assembly 2 includes a fixed partition 201 and an electromagnetic shielding plate 202 that is rotatably disposed relative to the fixed partition 201;
[0067] The electromagnetic shielding plate 202 has a closed state in which it rotates to be flush with the fixed partition 201 to completely separate the main chamber 1011 and the secondary chamber 1021; and an open state in which it rotates to form an angle or overlap with the fixed partition 201 to connect the main chamber 1011 and the secondary chamber 1021.
[0068] Specifically, the working process of the flip-top shielded storage bag is as follows:
[0069] 1. Storage status (closed)
[0070] Generally, the chip recognition area of the chip recognition host is located at the top of the chip recognition host. After the chip recognition host is placed into the main chamber 1011, when the electromagnetic shielding plate 202 is rotated to the closed state, the electromagnetic shielding plate 202 is exactly above the chip recognition area. At this time:
[0071] (1) Storage and classification function: The main chamber 1011 is used to store the chip identification host (such as the Toniebox host), and the host power is usually in standby mode; the secondary chamber 1021 is used to store multiple chip dolls (such as RFID / NFC dolls), thereby realizing the classified storage between the chip identification host and the chip dolls to prevent the chip dolls from being lost;
[0072] (2) Electromagnetic shielding mechanism: Since the electromagnetic shielding plate 202 is located directly above the chip recognition area, the electromagnetic shielding plate 202 can completely shield the electromagnetic signal interaction between the chip recognition area and the chip dolls above the electromagnetic shielding plate 202. Even if the chip doll moves directly above the electromagnetic shielding plate 202 during the user's movement, it cannot trigger the chip recognition host to work, thereby achieving the effect of preventing misplay.
[0073] 2. Access Status (Open Status)
[0074] When a user needs to use the chip to identify the host to play audio or video files, the operation process is as follows:
[0075] (1) Flipping operation:
[0076] Lift the electromagnetic shielding plate 202 upwards so that the electromagnetic shielding plate 202 forms an angle with the fixed partition 201 (the electromagnetic shielding plate 202 is in a vertical state) or overlaps (the electromagnetic shielding plate 202 is horizontally stacked on the top surface of the fixed partition 201). The original notch where the electromagnetic shielding plate 202 was located is exposed. The main chamber 1011 and the secondary chamber 1021 are connected through the notch, and the notch is located directly above the chip recognition area of the chip recognition host.
[0077] (2) Playback function implementation:
[0078] At this point, there is no need to remove the chip recognition host from the flip-top shielded storage bag. Simply take the chip doll out of the secondary chamber 1021 and place it on the chip recognition area on top of the chip recognition host to trigger the chip recognition host to work and play the corresponding content.
[0079] 3. Turn off reset
[0080] After use, pick up the chip doll and then rotate the electromagnetic shielding plate 202 in the opposite direction until it is flush with the fixed partition 201 to cover the notch directly above the chip recognition area and restore the state of dual-chamber isolation.
[0081] By placing the chip doll back into the secondary chamber 1021, the chip recognition host and the chip doll can be sorted and stored.
[0082] Therefore, the flip-top shielded storage bag provided by this utility model can effectively solve the problems of chip dolls being easily lost in smart early education toys, and accidental touch of the host recognition area during storage, leading to misplay.
[0083] In this embodiment, the electromagnetic shielding plate 202 includes a plastic substrate and a shielding metal layer attached to the plastic substrate. For example, the shielding metal layer is a galvanized copper mesh or aluminum foil. Through the composite structure design of the plastic substrate and the shielding metal layer, the electromagnetic shielding plate 202 is both lightweight (facilitating flipping) and achieves efficient electromagnetic shielding (such as blocking RFID / NFC signals) through the shielding metal layer (e.g., galvanized copper mesh or aluminum foil), solving the problems of traditional metal partitions being bulky and easily deformed.
[0084] Optionally, the separating component 2 further includes a flexible fabric sleeve 203, which simultaneously covers the fixed partition 201 and the electromagnetic shielding plate 202, and forms a flexible hinge structure at the interval between the fixed partition 201 and the electromagnetic shielding plate 202, allowing the electromagnetic shielding plate 202 to rotate relative to the fixed partition 201. By integrally covering the fixed partition 201 and the electromagnetic shielding plate 202 with the flexible fabric sleeve 203 to form a flexible hinge structure, both rotational connection between the two is achieved, and overall durability (such as protection against wear of the metal layer) is improved.
[0085] Furthermore, the flexible fabric sleeve 203 has a stitch 2031 at the interval between the fixed partition 201 and the electromagnetic shielding plate 202 to limit the horizontal displacement of the fixed partition 201 and the electromagnetic shielding plate 202 within the flexible fabric sleeve 203. The stitch 2031 added at the flexible hinge prevents the fixed partition 201 and the electromagnetic shielding plate 202 from lateral displacement, ensuring that the electromagnetic shielding plate 202 always accurately covers the chip recognition area (alignment is even better in the closed state), avoiding shielding or rotation failure due to misalignment.
[0086] In this embodiment, the main body 1 of the storage bag includes:
[0087] The anti-collision base 101 encloses and forms the main chamber 1011 with the opening facing upward;
[0088] The middle side panel 102 is openable and closable and connected to the top of the anti-collision bottom cover 101, and surrounds the secondary chamber 1021 which is open at both the top and bottom; wherein, the partition component 2 is installed at the lower opening of the secondary chamber 1021 to completely cover or partially open the lower opening of the secondary chamber 1021.
[0089] The top cover 103 of the package body is detachably connected to the upper opening of the middle side panel 102 to cover or open the upper opening of the middle side panel 102.
[0090] The anti-collision bottom bag 101 and the middle side panel 102, as well as the middle side panel 102 and the top cover 103 of the bag body, are connected by zippers, buttons, snap fasteners or Velcro.
[0091] Opening the top cover 103 allows the chip doll to be placed or removed from the secondary chamber 1021; opening the middle side panel 102 allows the chip identification host to be placed or removed from the main chamber 1011. The bag employs a three-section modular design—the anti-collision bottom cover 101, the middle side panel 102, and the top cover 103—combined with zipper / button opening mechanisms, enabling independent access to the main chamber 1011 (host) and the secondary chamber 1021 (doll), while also facilitating the maintenance or replacement of the partition component 2. The layered structure also enhances pressure resistance, protecting the internal equipment.
[0092] Optionally, the anti-collision base 101 is equipped with anti-collision foam inside. The anti-collision foam inside the anti-collision base 101 buffers external impacts (such as drops or compression), especially protecting the precision components of the chip recognition host and extending its service life.
[0093] Optionally, the middle side panel 102 and / or the top cover 103 of the package are transparent. The transparent middle side panel 102 or top cover 103 design allows users to quickly identify the type and quantity of the chip toys inside the secondary chamber 1021 without opening the cover, improving retrieval efficiency and avoiding accidental opening of the electromagnetic shielding plate 202 due to frequent opening and closing.
[0094] In this embodiment, the outer side of the anti-collision base bag 101 is provided with an auxiliary side bag 3, the auxiliary side bag 3 including a side bag cavity and a side bag zipper 301 communicating with the side bag cavity. Furthermore, the auxiliary side bag 3 is detachably connected to the main body 1 of the storage bag by means of Velcro, buttons, or zippers.
[0095] The auxiliary side pouch 3 expands storage space and can hold a charger or a chip toy that is used less frequently; its detachable design adapts to different needs (such as being detachable to reduce weight when traveling). Optionally, the auxiliary side pouch 3 is transparent to allow observation of the contents.
[0096] In summary, the flip-top shielded storage bag provided in this embodiment has the following advantages:
[0097] ① Categorized storage to prevent loss: The main / secondary chambers 1021 are formed by the partition component 2, which realizes the categorized storage of the chip recognition host and the doll, and avoids the doll from being scattered and lost.
[0098] ② Electromagnetic shielding to prevent accidental touch: The flip-out electromagnetic shielding plate 202 blocks RFID / NFC signals when closed, preventing the doll from accidentally triggering the host identification area and causing misplay.
[0099] ③ No need to remove and use directly: After opening the shielding plate, the main chamber 1011 and the auxiliary chamber 1021 are connected, and the doll can be placed directly in the host recognition area for playback, saving the host removal and placement steps and improving efficiency.
[0100] ④ Transparent and easy to view: The transparent side panel or top cover design allows you to see the type and quantity of the dolls without opening the cover, reducing the frequency of accidentally opening the shielding plate.
[0101] ⑤ Expandable detachable storage: The auxiliary side bag 3, which is connected by Velcro / zipper, expands the storage space for items such as chargers, adapts to scene needs, and is flexible to disassemble.
[0102] Finally, it should be noted that although the above embodiments have been described in the text and drawings of this application, this should not limit the scope of patent protection of this application. Any technical solutions that are based on the essential concept of this application and utilize the content described in the text and drawings of this application, resulting in equivalent structural or procedural substitutions or modifications, as well as the direct or indirect application of the technical solutions of the above embodiments to other related technical fields, are all included within the scope of patent protection of this application.
Claims
1. A flip cover shielding storage bag, characterized by, include: The main body of the storage bag (1) is enclosed to form a storage cavity; A partition component (2) is located in the storage cavity and divides the storage cavity into a main chamber (1011) and a secondary chamber (1021). in, The partition assembly (2) includes a fixed partition (201) and an electromagnetic shielding plate (202) rotatably disposed relative to the fixed partition (201); The electromagnetic shielding plate (202) has a closed state in which it rotates to be flush with the fixed partition (201) to completely separate the main chamber (1011) and the secondary chamber (1021) in conjunction with the fixed partition (201); and an open state in which it rotates to form an angle or overlap with the fixed partition (201) so that the main chamber (1011) and the secondary chamber (1021) are connected.
2. The flip cover shielding storage bag according to claim 1, wherein The electromagnetic shielding plate (202) includes a plastic substrate and a shielding metal layer attached to the plastic substrate.
3. The flip cover shielding storage bag of claim 2, wherein, The shielding metal layer is a galvanized copper mesh or aluminum foil.
4. The flip cap shielded storage package of claim 1, wherein, The separating component (2) further includes: A flexible fabric sleeve (203) covers both the fixed partition (201) and the electromagnetic shielding plate (202), and forms a flexible hinge structure at the interval between the fixed partition (201) and the electromagnetic shielding plate (202) to allow the electromagnetic shielding plate (202) to rotate relative to the fixed partition (201).
5. The flip cover shielding storage bag of claim 4, wherein, The flexible fabric sleeve (203) has a stitch (2031) at the interval between the fixed partition (201) and the electromagnetic shielding plate (202) to restrict the horizontal displacement of the fixed partition (201) and the electromagnetic shielding plate (202) within the flexible fabric sleeve (203).
6. The flip cap shielded storage package of claim 1, wherein, The main body (1) of the storage bag includes: The anti-collision bottom package (101) encloses and forms the main chamber (1011) with the opening facing upward. The middle side panel (102) is openable and closable and connected to the top of the anti-collision bottom package (101), and encloses the sub-chamber (1021) which is open at both the top and bottom; wherein, the partition component (2) is installed at the lower opening of the sub-chamber (1021) to completely cover or partially open the lower opening of the sub-chamber (1021); The top cover (103) of the package body is openable and closable and connected to the upper opening of the middle side panel (102) to cover or open the upper opening of the middle side panel (102). The anti-collision bottom bag (101) and the middle side panel (102), as well as the middle side panel (102) and the top cover (103) of the bag body, are connected by zippers, buttons, snap fasteners or Velcro.
7. The flip cap shielded storage package of claim 6, wherein, The anti-collision base (101) is equipped with anti-collision sponge inside.
8. The flip cap shielded storage package of claim 6, wherein, The middle side panel (102) and / or the top cover (103) of the package are transparent.
9. The flip cap shielded storage package of claim 6, wherein, The outer side of the anti-collision bottom bag (101) is provided with an auxiliary side bag (3), the auxiliary side bag (3) includes a side bag cavity and a side bag zipper (301) connected to the side bag cavity.
10. The flip cover shielding storage bag of claim 9, wherein, The auxiliary side bag (3) is detachably connected to the main body of the storage bag (1).