CN112469635A

CN112469635A - Storage device and external hardware

Info

Publication number: CN112469635A
Application number: CN202080003122.XA
Authority: CN
Inventors: 任德坚
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-29
Filing date: 2020-10-29
Publication date: 2021-03-09
Anticipated expiration: 2040-10-29
Also published as: EP4238882A1; CN112469635B; US20230286701A1; JP2023550871A; WO2022087975A1

Abstract

The application relates to the technical field of storage, in particular to a storage device and external hardware; the storage device comprises a storage body, wherein the storage body is provided with a storage cavity with a storage opening, a first flap is connected to a first plate of the storage body, and a first safety management mechanism is used for connecting the first flap and a second plate so as to seal the storage opening; the second panel is provided with a second security management mechanism for connecting the second panel to the first flap or connecting an adjacent storage opening of the first panel to an adjacent storage opening of the second panel to close the storage opening. The storage body can utilize the first safety management mechanism and the second safety management mechanism to seal the storage opening for more than or equal to two times, so that the storage body can be repeatedly used, and the environmental protection performance is improved. The external hardware can close the used storage port of the storage body again so as to prolong the service life of the storage body, facilitate the repeated use of the storage body and improve the environmental protection property.

Description

Storage device and external hardware

Technical Field

The application relates to the technical field of storage, in particular to a storage device and external hardware.

Background

Many types of self-sealing envelopes are provided in the related art as storage devices for storing items such as letters, express items, and the like.

The envelope provided by the related technology has short service life, is difficult to reuse after being unsealed once, and has poor environmental protection.

Disclosure of Invention

An object of the application is to provide a storage device and external hardware, it can make the life extension of every storage device, and the used repeatedly of being convenient for improves the feature of environmental protection.

The embodiment of the application is realized as follows:

in a first aspect, the present application provides a storage body comprising a storage body, a first flap and at least one first security management mechanism, the storage body comprising first and second panels connected to one another and foldable along a fold line to form a storage cavity, the storage body having a storage opening in communication with the storage cavity when the first and second panels are folded along the fold line; the first panel is connected with the first folding wing, the first folding wing is used for being turned around a first set axis relative to the first panel so as to be lapped on the surface of the second panel to close the storage opening, or the first folding wing is used for being turned around the first set axis relative to the first panel so as to extend from the storage opening into the storage cavity; the first safety management mechanism is used for connecting the first flap and the second panel when the first flap is lapped on the surface of the second panel so as to enable the storage opening to be closed or disconnecting the first flap and the second panel so as to enable the storage opening to be opened; the second plate is provided with a second safety management mechanism, and the second safety management mechanism is used for connecting the second plate with the first folding wing when the first folding wing extends into the storage cavity so as to seal the storage opening; or, the second safety management mechanism is used for connecting the position of the first plate adjacent to the storage opening and the position of the second plate adjacent to the storage opening when the first folding wing is lapped on the surface of the second plate so as to close the storage opening.

Optionally, the first security management mechanism comprises a first self-adhesive assembly disposed on the first flap or the second panel and a first security check portion disposed on the first flap for connecting the first flap and the second panel when the first flap is lapped on the surface of the second panel to cause the storage opening to be closed; the first security inspection part is used for disconnecting the first flap and the second panel so that the storage opening can be opened; first self-adhesive assembly with first safety inspection portion arranges in proper order along predetermineeing the direction, wherein, predetermine the direction with first settlement axis is the angle setting.

Optionally, the first safety management mechanism further includes a force application portion, the force application portion is connected to the first safety inspection portion, and the force application portion is configured to drive the first safety inspection portion under the action of an external force to disconnect the first flap from the second plate.

Optionally, the storage device further includes a plug assembly, the plug assembly includes a slot and a latch that are plugged and matched with each other, one of the slot and the latch is disposed on the first security management mechanism, and the other of the slot and the latch is disposed on the second board.

Optionally, the second security management mechanism includes a second self-adhesive assembly and a second security inspection portion, the second self-adhesive assembly is disposed on the second board through the second security inspection portion, and the second self-adhesive assembly is used for connecting the second board with the first flap extending into the storage cavity so as to close the storage opening, or used for connecting the adjacent storage opening of the first board with the adjacent storage opening of the second board so as to close the storage opening; a second security check means for disconnecting the second panel from the first flap extending into the storage cavity to enable the storage opening to be opened, or disconnecting the first panel adjacent the storage opening and the second panel adjacent the storage opening to enable the storage opening to be opened; the second is glued subassembly and second safety inspection portion and is arranged along predetermineeing the direction in proper order, wherein, predetermines the direction and is the angle setting with first settlement axis.

Optionally, the storage device further comprises a first digital code disposed on at least one of the first plate and the second plate.

Optionally, the first digital code includes at least one of a mechanically readable optical tag assembly and a wireless radio frequency chip.

Optionally, the first digital code includes mechanically readable optical label assemblies, the mechanically readable optical label assemblies are disposed on the second board, the number of the mechanically readable optical label assemblies is the same as the number of the first safety management mechanisms, and when the first folding wing is overlapped on the second board, the first safety management mechanisms are disposed in one-to-one correspondence with the mechanically readable optical label assemblies.

Optionally, the storage device further comprises a third security authority; a second flap is connected to the second panel and is configured to be flipped about a second set axis relative to the second panel to overlap a surface of the first panel to close or open the storage opening, or flipped about the second set axis relative to the second panel to extend from the storage opening into the storage cavity; the third safety management mechanism is used for connecting the second flap with the first plate when the second flap is overlapped on the surface of the first plate and closes the storage opening.

Optionally, a third security management mechanism comprises a third self-adhesive assembly disposed on the second flap or the first panel and a third security check disposed on the second flap for connecting the second flap with the first panel when the second flap is lapped on the surface of the first panel to cause the storage opening to be closed; the third safety inspection part is used for disconnecting the second flap from the first plate so that the storage port can be opened; the third is from gluing the subassembly with third safety inspection portion arranges in proper order along predetermineeing the direction, wherein, predetermine the direction with the second is set for the axis and is the angle setting.

Optionally, the storage device further comprises external hardware comprising a third plate and a fourth plate connected to each other, the third plate being connectable to one of the first plate and the second plate, the fourth plate being turnable with respect to the third plate about a third set axis to overlap a surface of the other of the first plate and the second plate to close or open the storage opening.

Optionally, the fourth panel is provided with a fourth safety supervision mechanism for connecting the first or second panel overlapping the fourth panel with the fourth panel.

Optionally, the fourth safety management mechanism includes a fourth self-adhesive component and a fourth safety inspection portion, and the fourth self-adhesive component is connected to the fourth board through the fourth safety inspection portion; the fourth self-adhesive assembly is used for connecting the first plate or the second plate which is overlapped with the fourth plate so as to seal the storage port; the fourth safety inspection part is used for disconnecting the first plate or the second plate overlapped with the fourth plate from the fourth plate so as to open the storage port; the fourth is from viscose subassembly and fourth safety inspection portion arrange in proper order along predetermineeing the direction, wherein, predetermines the direction and sets for the axis with the third and be the angle setting.

Optionally, the external hardware further comprises a second digital code disposed on at least one of the third board and the fourth board.

Optionally, the second digital code includes at least one of a mechanically readable optical label assembly and a wireless radio frequency chip.

In a second aspect, the present application provides an external hardware configured to be disposed in a storage body, where the external hardware includes a third plate and a fourth plate that are connected to each other, the third plate is configured to be connected to the storage body, the fourth plate is provided with a fourth safety management mechanism, and the fourth plate is configured to turn around a third set axis relative to the third plate to close or open a storage port of the storage body; the fourth safety management mechanism comprises a fourth self-adhesive assembly and a fourth safety inspection part, and the fourth self-adhesive assembly is connected with the fourth board through the fourth safety inspection part; the fourth is from the viscose subassembly and is used for making the fourth board with store this body coupling to seal and store the mouth, fourth safety inspection portion are used for making the fourth board and store the disconnection of body, so that store the mouth and can be opened.

Optionally, the second digital code is at least one of a mechanically readable optical label assembly and a wireless radio frequency chip.

The beneficial effects of the storage device of this application include: the storage device comprises a storage body, a first flap and a first safety management mechanism, wherein the storage body comprises a first plate and a second plate which are connected with each other, the first plate and the second plate can be folded along a folding line to form a storage cavity, when the first plate and the second plate are folded along the folding line, the storage body is provided with a storage opening communicated with the storage cavity, and articles can be placed in the storage cavity from the storage opening for storage; the first flap is connected with the first plate and can be turned relative to the first plate to close or open the storage opening relative to a first set axis, or the first flap is used for turning relative to the first plate around the first set axis so as to extend into the storage cavity from the storage opening; the first safety management mechanism is used for connecting the first folding wing and the second plate when the first folding wing is lapped on the surface of the second plate so as to seal the storage opening, or disconnecting the first folding wing and the second plate so as to open the storage opening; alternatively, the second security management mechanism is configured to connect the adjacent storage opening of the first panel to the adjacent storage opening of the second panel to close the storage opening when the first flap is attached to the surface of the second panel. Therefore, the first safety management mechanism or the second safety management mechanism can be used for sealing the storage port, so that one storage body can seal the storage port more than or equal to two times by using the first safety management mechanism and the second safety management mechanism, the service life of each storage device is prolonged, the storage device is convenient to reuse, and the environmental protection performance is improved.

The beneficial effects of the external hardware of this application include: the external hardware can be arranged on the storage body and used in a matched mode with the storage body, the external hardware comprises a third plate, a fourth plate and a fourth safety management mechanism, the third plate and the fourth plate are connected with each other, the fourth safety management mechanism is arranged on the fourth plate, the third plate is used for being connected with the storage body, the fourth safety management mechanism comprises a fourth self-adhesive assembly and a fourth safety inspection portion, and the fourth self-adhesive assembly is connected with the fourth plate through the fourth safety inspection portion; the fourth is from the viscose subassembly and is used for making the fourth board with store this body coupling to seal and store the mouth, fourth safety inspection portion are used for making the fourth board and store the disconnection of body, so that store the mouth and can be opened. Therefore, the used storage port of the storage body can be sealed again by utilizing the external hardware, so that the service life of the storage body is prolonged, the repeated use of the storage body is facilitated, and the environmental protection performance is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a schematic view of a storage device in an embodiment of the present application without a second flap;

FIG. 2 is a first schematic structural diagram of a storage device according to an embodiment of the present disclosure;

FIG. 3 is a second schematic structural diagram of a storage device according to an embodiment of the present disclosure;

FIG. 4 is a first schematic structural view of the storage device in an embodiment of the present application when the first flap is overlapped with the second panel;

FIG. 5 is a second schematic structural view of the storage device in an embodiment of the present application, wherein the first flap is attached to the second panel;

FIG. 6 is a third schematic structural view of the storage device in the embodiment of the present application when the first flap is overlapped with the second panel;

FIG. 7 is a fourth schematic structural view of the storage device in the embodiment of the present application when the first flap is overlapped with the second panel;

FIG. 8 is a schematic view of the storage device in an embodiment of the present application without the first flap overlapping the second panel;

FIG. 9 is a schematic structural view of a main body of an inspection portion according to another embodiment of the present application;

FIG. 10 is a first schematic structural diagram of a storage device according to another embodiment of the present disclosure;

FIG. 11 is a second schematic structural diagram of a storage device according to another embodiment of the present application;

FIG. 12 is a schematic view of a storage device with a first flap extending into a storage cavity according to an embodiment of the present disclosure;

FIG. 13 is a first schematic view of a storage device including a second flap according to an embodiment of the present application;

FIG. 14 is a second schematic structural view of a storage device including a second flap in an embodiment of the present application;

FIG. 15 is a schematic structural diagram of external hardware in an embodiment of the present application;

FIG. 16 is a schematic structural diagram illustrating an embodiment of an external hardware disposed on a storage body;

FIG. 17 is a third schematic structural diagram of a storage device according to an embodiment of the present application;

fig. 18 is a schematic structural diagram illustrating external hardware disposed on the storage body according to another embodiment of the present disclosure.

Icon: 010-a storage device; 100-a storage ontology; 110-a first plate; 120-a second plate; 121-flank; 130-a storage chamber; 131-a storage port; 132-a first fold line; 133-a second fold line; 141-a first set axis; 142-a second set axis; 200-a first flap; 210-a first security authority; 211-a first self-adhesive assembly; 212-a first security check; 213-a force application part; 214-self-sealing adhesive tape; 215-a protective layer; 216-inspection section body; 217-connecting part; 218-a set of through holes; 220-a second security authority; 221-a second self-adhesive assembly; 222-a second security check section; 230-a first plug assembly; 231-a second plug assembly; 232-latching; 233-slots; 234-insert sheet; 235-card slot; 236-a protrusion; 240-a first digital code; 241-a second digital code; 242-bar code; 243-two-dimensional code; 244-a wireless radio frequency chip; 250-a second flap; 260-a third security authority; 261-a third self-adhesive assembly; 262-a third security check section; 271-a first mechanically readable optical label assembly; 272-a second mechanically readable optical label assembly; 273-a third mechanically readable optical label assembly; 274-a fourth mechanically readable optical label assembly; 300-external hardware; 310-a third plate; 311-a third set axis; 320-a fourth plate; 330-a fourth security authority; 331-a fourth self-adhesive component; 332-a fourth security check section; 340-fifth panel.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present application, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the application usually place when using, and are only used for convenience in describing the present application and simplifying the description, but do not indicate or imply that the devices or elements that are referred to must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is also to be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

In the present embodiment, the term "preset direction" is a direction of an ab arrow in the drawings, unless otherwise specified.

The present embodiment provides a storage device, for example: envelopes, file bags, and the like, which can be used to store items such as letters, files, and the like. Hereinafter, the envelope will be described in detail as an example.

Referring to fig. 1, 2 and 3, the storage device 010 includes a storage body 100, the storage body 100 includes a first panel 110 and a second panel 120 connected to each other, and the first panel 110 and the second panel 120 can be folded along a folding line (hereinafter, a first folding line 132) to form a storage cavity 130, when the first panel 110 and the second panel 120 are folded along the first folding line 132, the storage body 100 has a storage opening 131 connected to the storage cavity 130; when the storage device 010 is used for storing articles, the articles are placed in the storage cavity 130 through the storage opening 131.

The connection method of the first board 110 and the second board 120 may be selected as needed, and the connection method of the first board 110 and the second board 120 is only a partial example, and the specific connection method is not limited thereto.

Alternatively, referring to fig. 1, the first panel 110 and the second panel 120 are integrally formed as a plate-shaped structure, a first folding line 132 is provided between the first panel 110 and the second panel 120, the first panel 110 and the second panel 120 are folded along the first folding line 132, so that the storage cavity 130 is formed between the first panel 110 and the second panel 120, and an end of the first panel 110 away from the first folding line 132 and an end of the second panel 120 away from the first folding line 132 form the storage opening 131.

Alternatively, the storage body 100 may be a hard plate, such as: the first plate 110 and the second plate 120 may be made of hard plates.

Optionally, with continued reference to fig. 1, at least one side of the first panel 110 along the extending direction of the first folding line 132 is connected with a side wing 121, and the side wing 121 can be folded relative to the first panel 110 and connected with the second panel 120. Optionally, in the extending direction of the first folding line 132, two sides of the first panel 110 are connected with the side wings 121, so that two sides of the first panel 110 are respectively connected with the second panel 120 through the two side wings 121.

Optionally, the first panel 110 is integrally formed with the wing 121, a second folding line 133 is formed between the wing 121 and the first panel 110, and the wing 121 is turned relative to the first panel 110 along the second folding line 133, i.e., can be overlapped on the surface of the second panel 120. The connection manner of the side wings 121 and the second plate 120 may be bonding, or connection with a fastener such as a staple, and the like, and is not particularly limited herein.

Alternatively, the first plate 110 and the side wings 121 may be bonded, connected by a fastener such as a staple, or the like, and are not particularly limited herein.

Alternatively, the first plate 110 and the second plate 120 are adhesively connected, and the first end of the first plate 110 and the first end of the second plate 120 are adhered to each other, so that the first plate 110 and the second plate 120 are stacked, and the storage cavity 130 is formed between the first plate 110 and the second plate 120, and the second end of the first plate 110 and the second end of the second plate 120 form the storage opening 131.

Of course, in other embodiments, the first panel 110 is not provided with the connecting wings 121, and the two sides of the first panel 110 and the two sides of the second panel 120 are connected in a one-to-one correspondence along the extending direction of the first folding line 132, and the connecting manner may be bonding, or connecting with fasteners such as staples, etc., and is not limited in particular.

Alternatively, the first plate 110 and the second plate 120 are connected with a fastener such as a staple, the first end of the first plate 110 and the first end of the second plate 120 are connected by a fastener such as a staple, so that the first plate 110 and the second plate 120 are stacked, and the storage chamber 130 is formed between the first plate 110 and the second plate 120, and the second end of the first plate 110 and the second end of the second plate 120 form the storage port 131.

Referring to fig. 1, 2 and 3, the storage device 010 further includes a first flap 200, the first panel 110 is connected to the first flap 200, when the first panel 110 and the second panel 120 are folded along the first folding line 132, the first flap 200 is configured to be flipped about a first set axis 141 relative to the first panel 110 to overlap a surface of the second panel 120 to close the storage opening 131, or the first flap 200 is configured to be flipped about the first set axis 141 relative to the first panel 110 to extend from the storage opening 131 into the storage cavity 130. The storage device 010 further includes at least one first safety managing means 210, and the first safety managing means 210 is adapted to connect the first flap 200 to the second panel 120 when the first flap 200 is overlapped on the surface of the second panel 120 and closes the storage opening 131, i.e., to close the storage opening 131 with the first flap 200 or to disconnect the first flap 200 from the second panel 120 so that the storage opening 131 can be opened. Thus, when the article is placed in the storage cavity 130 and stored by the storage device 010, the first flap 200 may be inserted into the storage cavity 130 such that the first flap 200 is sandwiched between the second plate 120 and the article or the first flap 200 is sandwiched between the first plate 110 and the article, or the first flap 200 may be turned around the first set axis 141 such that the first flap 200 overlaps the surface of the second plate 120, and the first flap 200 is connected to the second plate 120 by the first security management mechanism 210, so as to prevent the article placed in the storage cavity 130 from accidentally falling out of the storage opening 131; when it is desired to remove the article from the storage cavity 130, the first flap 200 is disconnected from the second panel 120 by the first security management mechanism 210 such that the first flap 200 can rotate about the first set axis 141 to open the storage opening 131.

The first flap 200 is turned around the first set axis 141 with respect to the first panel 110 to be overlapped on the surface of the second panel 120 to close the storage opening 131, and means: the first flap 200 is adapted to be flipped about a first set axis 141 relative to the first panel 110 to overlap a surface of the second panel 120 facing away from the first panel 110 to close the storage opening 131.

The first flap 200 is overlapped on the surface of the second panel 120, and the first flap 200 is connected to the second panel 120 by the first safety managing mechanism 210, so that the stability of overlapping the first flap 200 on the second panel 120 is improved, the first flap 200 can be ensured to reliably close the storage opening 131, and the reliability of storing articles is effectively improved.

Referring to fig. 1 and 2, the second panel 120 is provided with a second safety managing mechanism 220, and the second safety managing mechanism 220 is used for connecting the second panel 120 with the first flap 200 to close the storage opening 131 when the first flap 200 is inserted into the storage cavity 130; with this arrangement, when the storage device 010 is used to store articles and the storage opening 131 needs to be closed, the first security management mechanism 210 or the second security management mechanism 220 can be selected to close the storage opening 131 as needed.

In this embodiment, when the storage device 010 is used to store an article for the first time and the storage opening 131 needs to be closed, the first flap 200 may be turned over in the forward direction and inserted into the storage cavity 130 from the storage opening 131, the first flap 200 is clamped between the second plate 120 and the article in the storage cavity 130, and the second security management mechanism 220 is used to connect the first flap 200 and the second plate 120, so that the storage opening 131 is closed by the second plate 120 and the first flap 200; when it is desired to remove an article, the second security management mechanism 220 can be broken to disconnect the first flap 200 from the second panel 120, and the first flap 200 can be reversed to remove the first flap 200 from the storage cavity 130, i.e., the article in the storage cavity 130 can be removed from the storage opening 131. When the article is stored for the second time by using the storage device 010 and the storage opening 131 needs to be closed, the first flap 200 may be turned over in the forward direction and overlapped on the surface of the second panel 120, and the first flap 200 and the second panel 120 are connected by the first security management mechanism 210, so that the storage opening 131 is closed by the first flap 200; when the article needs to be removed, the first security management mechanism 210 can be broken, so that the first flap 200 is disconnected from the second panel 120, and the storage opening 131 can be opened by reversely turning the first flap 200, so that the article in the storage cavity 130 can be removed from the storage opening 131.

Alternatively, in other embodiments, when the storage device 010 is used to store an article for the first time and it is desired to close the storage opening 131, the first flap 200 may be flipped over and lapped over the surface of the second panel 120, and the first flap 200 and the second panel 120 are connected by the first security management mechanism 210, such that the storage opening 131 is closed by the first flap 200; when the article needs to be removed, the first security management mechanism 210 can be broken, so that the first flap 200 is disconnected from the second panel 120, and the storage opening 131 can be opened by reversely turning the first flap 200, so that the article in the storage cavity 130 can be removed from the storage opening 131. When the storage device 010 is used for storing articles for the second time and the storage opening 131 needs to be closed, the first flap 200 can be turned over in the forward direction and inserted into the storage cavity 130 from the storage opening 131, the first flap 200 is clamped between the second plate 120 and the articles in the storage cavity 130, and the second safety management mechanism 220 is used for connecting the first flap 200 and the second plate 120, so that the storage opening 131 is closed by the second plate 120 and the first flap 200 together; when it is desired to remove an article, the second security management mechanism 220 can be broken to disconnect the first flap 200 from the second panel 120, and the first flap 200 can be reversed to remove the first flap 200 from the storage cavity 130, i.e., the article in the storage cavity 130 can be removed from the storage opening 131.

The envelope provided by the related art generally requires a structure for adhesion at the storage opening 131 so that the storage opening 131 of the envelope is sealed by adhesion; in the opening process, the edge of the envelope needs to be cut by using a cutter or the envelope needs to be torn open by force to take out the articles stored in the envelope, and after each envelope is unsealed and taken out, the envelope does not have a structure of being bonded again to close the storage opening 131, so that the envelope provided by the related technology is short in service life, difficult to reuse after being unsealed once, and poor in environmental protection. The storage device 010 provided by the present application can use the first security management mechanism 210 or the second security management mechanism 220 to seal the storage opening 131, that is, one storage body 100 can use the first security management mechanism 210 and the second security management mechanism 220 to seal the storage opening 131 at least twice, and thus the service life of each storage device 010 is prolonged, thereby facilitating reuse and improving environmental protection.

Alternatively, in other embodiments, the second safety management mechanism 220 is configured to connect the first panel 110 adjacent the storage opening 131 with the second panel 120 adjacent the storage opening 131 to close the storage opening 131 when the first flap 200 is overlapped on the surface of the second panel 120. With such an arrangement, when the article is stored for the first time and the storage opening 131 needs to be closed, the storage opening 131 can be closed by the first security management mechanism 210, and when the article is stored for the second time and the storage opening 131 needs to be closed, the storage opening 131 can be closed by the second security management mechanism 220; or when the article is stored for the first time and the storage port 131 needs to be closed, the storage port 131 is closed by using the second safety management mechanism 220, and when the article is stored for the second time and the storage port 131 needs to be closed, the storage port 131 is closed by using the first safety management mechanism 210; in this way, the storage device 010 can be used to store the articles at least twice reliably, so as to prolong the service life of the storage device 010, facilitate repeated use and improve environmental protection.

The number of the first security administration mechanisms 210 may be selected as needed, and the number of times the storage device 010 is used for reuse is increased as the number of the first security administration mechanisms 210 is increased. Referring to fig. 2, in the embodiment, the storage device 010 includes three sets of first security authorities 210; with this arrangement, the storage device 010 stores articles and the number of times of safe storage for closing the storage opening 131 is four, wherein one time of safe storage is realized by the second safety managing mechanism 220 connecting the second panel 120 and the first flap 200 to close the storage opening 131, and the other three times of safe storage is realized by the first safety managing mechanism 210 connecting the second panel 120 and the first flap 200 to close the storage opening 131. Of course, in other embodiments, the number of groups of the first security management entity 210 may be one group (as shown in fig. 1), two groups, four groups, etc., and is not limited in particular.

In another embodiment, the second board 120 is not provided with the second security management mechanism 220, and in order to prolong the service life of the storage device 010, the storage device 010 includes at least two sets of the first security management mechanisms 210, and each time the storage device 010 stores an article and closes the storage opening 131, the first flap 200 and the second board 120 are connected by one set of the first security management mechanisms 210 to close the storage opening 131.

Referring to fig. 2, the first security management mechanism 210 of the present embodiment includes a first self-adhesive component 211 and a first security inspection part 212, the first security inspection part 212 is disposed on the first flap 200, and the first self-adhesive component 211 is disposed on the first flap 200 through the first security inspection part 212, the first self-adhesive component 211 is used to connect the first flap 200 and the second panel 120, so as to seal the storage opening 131; the first safety inspection part 212 is used to disconnect the first flap 200 from the second panel 120 so that the storage port 131 can be opened; the first self-adhesive assembly 211 and the first security inspection portion 212 are sequentially arranged along a preset direction, wherein the preset direction is disposed at an angle with the first set axis 141. With this arrangement, when the storage opening 131 is opened by turning over the first flap 200 connected to the second panel 120, the first flap 200 and the second panel 120 can be disconnected by breaking the structure of the first security inspection part 212, so that the first flap 200 can rotate freely around the first set axis 141 to be turned over to open the storage opening 131, and the structure of the storage body 100 is not broken, so that the storage body 100 can be reused for storing articles next time.

It should be understood that in other embodiments, the first self-adhesive assembly 211 is disposed on the second panel 120, the first security check portion 212 is disposed on the first flap 200, the first self-adhesive assembly 211 is used to connect the first flap 200 and the second panel 120 when the first flap 200 is overlapped on the surface of the second panel 120, so that the storage opening 131 is closed, i.e., when the first flap 200 is overlapped on the surface of the second panel 120, the first self-adhesive assembly 211 is connected with the first flap 200 through the first security check portion 212; the first safety inspection part 212 serves to disconnect the first flap 200 from the second panel 120 so that the storage port 131 can be opened. With this arrangement, when the storage opening 131 is opened by turning over the first flap 200 connected to the second panel 120, the first flap 200 and the second panel 120 can be disconnected by breaking the structure of the first security inspection part 212, so that the first flap 200 can rotate freely around the first set axis 141 to be turned over to open the storage opening 131, and the structure of the storage body 100 is not broken, so that the storage body 100 can be reused for storing articles next time.

It should be noted that the preset direction of the present embodiment is perpendicular to the first setting axis 141, that is, the included angle between the preset direction and the first setting axis 141 is 90 °. Of course, in other embodiments, the angle between the preset direction and the first setting axis 141 may also be 88 °, 93 °, and the like, and is not limited in particular.

It should be noted that, when the number of the first safety management mechanisms 210 is greater than or equal to two, all the first safety management mechanisms 210 are sequentially arranged along the preset direction, one of the first safety management mechanisms 210 is closest to the first set axis 141, the first safety inspection part 212 closest to the first set axis 141 is directly connected to the first flap 200, and the first safety inspection parts 212 of the remaining first safety management mechanisms 210 are disposed on the first flap 200 through the first safety inspection part 212 of another first safety management mechanism 210 closer to the first set axis 141, for example: in the three sets of first safety management mechanisms 210 of the present embodiment, the first safety inspection parts 212 of the No. 3 first safety management mechanism 210 are numbered 1, 2, and 3 in order from a set distant from the first set axis 141 to a set close to the first set axis 141, the first safety inspection part 212 of the No. 2 first safety management mechanism 210 is connected to the first flap 200 through the first safety inspection part 212 of the No. 3 first safety management mechanism 210, and the first safety inspection part 212 of the No. 1 first safety management mechanism 210 is connected to the first flap 200 through the first safety inspection part 212 of the No. 2 first safety management mechanism 210. The order of connecting the first flap 200 and the second panel 120 using the first safety managing means 210 may be such that the first safety managing means 210 located farthest from the first set axis 141 is used first, and then the next first safety managing means 210 located relatively previous to the first set axis 141 is used in sequence; in this way, when the first security check unit 212 of the previous first security management mechanism 210 is broken to disconnect the first flap 200 and the second panel 120, the storage device 010 can be reused while avoiding damage to the next first security management mechanism 210 and ensuring that the other first security management mechanisms 210 are not damaged; referring to fig. 4-8, for example: the storage device 010 of this embodiment uses three sets of the first security management mechanisms 210 in the order of using the first security management mechanism 210 No. 1, then using the first security management mechanism 210 No. 2, and finally using the first security management mechanism 210 No. 3, so that when the first security management mechanism 210 No. 1 is used and the first security inspection part 212 of the first security management mechanism 210 No. 1 is damaged, the first security management mechanism 210 No. 2 and the first security management mechanism 210 No. 3 are still intact, and the storage device 010 can be reused.

Referring to fig. 2, the first self-adhesive component 211 of the present embodiment includes a self-adhesive tape 214 and a protection layer 215 detachably covering the self-adhesive tape 214, a side of the self-adhesive tape 214 away from the protection layer 215 is bonded to the first security inspection portion 212, and the first security inspection portion 212 is connected to the first flap 200, so that the self-adhesive tape 214 and the covering self-adhesive tape 214 are disposed on the first flap 200 through the first security inspection portion 212; when the first flap 200 is overlapped on the surface of the second board 120 and the first flap 200 is connected to the second board 120 by using the first self-adhesive component 211, the protective layer 215 can be torn off, and then the side of the self-adhesive tape 214 away from the first security inspection part 212 is adhered to the second board 120, so that the first flap 200 can be connected to the second board 120; breaking the first security inspection portion 212 disconnects the first flap 200 from the second panel 120 so that the first flap 200 can be flipped over freely about the first set axis 141. The protective layer 215 may be used to cover the side of the self-sealing adhesive tape 214 away from the first safety inspection portion 212 to protect the self-sealing adhesive tape 214 when the first flap 200 is not required to be adhered to the second board 120 by the self-sealing adhesive tape 214.

Optionally, in other embodiments, the side of the self-sealing adhesive tape 214 facing away from the protective layer 215 is adhered to the surface of the second panel 120, and the first security check portion 212 is connected to the first flap 200; when the first flap 200 is overlapped on the surface of the second board 120 and the first flap 200 is connected with the second board 120 by using the first self-adhesive component 211, the protective layer 215 can be torn off, and then the side of the self-adhesive tape 214 departing from the second board 120 is connected with the first security check part 212, so that the first flap 200 can be connected with the second board 120; breaking the first security inspection portion 212 disconnects the first flap 200 from the second panel 120 so that the first flap 200 can be flipped over freely about the first set axis 141.

Referring to fig. 2, the first safety inspection portion 212 of the present embodiment includes an inspection portion body 216 and a connection portion 217, the self-sealing adhesive tape 214 is connected to the connection portion 217, and the inspection portion body 216 is used to connect the connection portion 217 to the first flap 200; the inspection portion main body 216 of the first safety inspection portion 212 closest to the first set axis 141 is directly connected to the first flap 200, the inspection portion main body 216 of the first safety inspection portion 212 farther from the first set axis 141 is connected to the first flap 200 through the previous connection portion 217 of the first safety inspection portion 212 closer to the first set axis 141, the inspection portion main body 216 of the first safety inspection portion 212 of the No. 3 first safety management mechanism 210 of the present embodiment is directly connected to the first flap 200, the inspection portion main body 216 of the first safety inspection portion 212 of the No. 2 first safety management mechanism 210 is connected to the connection portion 217 of the first safety inspection portion 212 of the No. 3 first safety management mechanism 210, the inspection portion main body 216 of the first safety inspection portion 212 of the No. 1 first safety management mechanism 210 is connected to the connection portion 217 of the first safety inspection portion 212 of the No. 2 first safety management mechanism 210, the first security check units 212 with other numbers of the first security management mechanisms 210 are arranged in a manner similar to that of the present embodiment, and are not described herein again.

Optionally, the self-sealing adhesive tape 214 adhered to the connecting portion 217 and the inspection portion body 216 are distributed at intervals along a preset direction; with this arrangement, it is more convenient to separately break the structure of the inspection portion main body 216 when the self-sealing adhesive tape 214 connects the first flap 200 and the second panel 120, so that the connection between the first flap 200 and the second panel 120 is broken, and the structure of the storage main body 100 is reliably prevented from being broken, so that the storage main body 100 can be reused.

Alternatively, the distance between the self-sealing adhesive tape 214 adhered to the connecting portion 217 and the inspection portion body 216 may be 1mm, 1.5mm, 1.2mm, and the like, which is not particularly limited herein.

Optionally, referring to fig. 9, the inspection portion body 216 is a connection strip, and the connection strip is connected to the connection portion 217 and/or the first flap 200 in a breaking-point manner; taking the connection strip and the connection portion 217 as an example, the breakpoint connection means: along the length extension direction of the first setting axis 141, the connection part of the connecting strip and the connecting part 217 is provided with a plurality of through holes or openings which are distributed at intervals and are not connected, namely, the connection part of the connecting strip and the connecting part 217 is not completely connected along the extension direction of the connection part of the connecting strip and the connecting part; the use of a break-point connection allows the connecting strip and the connecting portion 217 to be easily disconnected by an external force.

The first flap 200 of the present embodiment is exemplified by being provided with three sets of the first safety management mechanisms 210. In the present embodiment, one side of the inspection portion main body 216 of the No. 3 first safety management mechanism 210 is connected to the first flap 200 in a breaking point manner, and the other side of the inspection portion main body 216 of the No. 3 first safety management mechanism 210 is connected to the connection portion 217 of the No. 3 first safety management mechanism 210 in a breaking point manner, so that the connection strip as the inspection portion main body 216 is easily disconnected from the first flap 200 and the connection portion 217 of the No. 3 first safety management mechanism 210 by being torn off by an external force, so that the connection between the first flap 200 and the connection portion 217 and the connection of the first self-adhesive member 211 adhered to the connection portion 217 are disconnected, and if the first self-adhesive member 211 is also adhered to the second plate 120, the connection between the first flap 200 and the second plate 120 is disconnected when the connection between the inspection portion main body 216 and both the first flap 200 and the connection portion 217 is disconnected. Similarly, one side of the inspection part main body 216 of the No. 2 first safety management mechanism 210 is connected to the connection part 217 of the No. 3 first safety management mechanism 210 in a breakpoint manner, the other side of the inspection part main body 216 of the No. 2 first safety management mechanism 210 is connected to the connection part 217 of the No. 2 first safety management mechanism 210 in a breakpoint manner, one side of the inspection part main body 216 of the No. 1 first safety management mechanism 210 is connected to the connection part 217 of the No. 2 first safety management mechanism 210 in a breakpoint manner, and the other side of the inspection part main body 216 of the No. 1 first safety management mechanism 210 is connected to the connection part 217 of the No. 1 first safety management mechanism 210 in a breakpoint manner; the operation principle of the inspection unit main body 216 of the first security management mechanism 210 nos. 1 and 2 is similar to that of the inspection unit main body 216 of the first security management mechanism 210 No. 3, and is not described herein again.

Alternatively, the connecting strip as the inspection part body 216 may have a zigzag shape, so that the inspection part body 216 can be prevented from being accidentally disconnected from the connecting portion 217 or the first flap 200 when no external force acts on the inspection part body 216 to tear the inspection part, on the one hand, and the inspection part body 216 can be easily torn to be disconnected from the first flap 200 or the connecting portion 217 by the external force, on the other hand.

Alternatively, a connecting strip as the inspection portion body 216 is provided with a breaking point in a zigzag shape so that the inspection portion body 216 is broken from the breaking point in the zigzag shape by an external force to disconnect the inspection portion body 216 from the connecting portion 217. Referring to fig. 9, taking the inspection portion main body 216 of the first safety management mechanism 210 No. 1 as an example, the connection portion 217 of the first safety management mechanism 210 No. 1 and the connection portion 217 of the first safety management mechanism 210 No. 2 are respectively connected to both sides of the inspection portion main body 216, and the inspection portion main body 216 is provided with a plurality of breaking points in a zigzag shape, and the plurality of breaking points in the zigzag shape are sequentially arranged at intervals along the length extending direction of the first set axis 141.

Optionally, with reference to fig. 9, the inspection portion main body 216 is a connecting strip, the connecting strip is connected to the connecting portion 217 and/or the first flap 200, taking the inspection portion main body 216 of the number 2 first safety management mechanism 210 as an example, two sides of the connecting strip are respectively connected to the connecting portion 217 of the number 3 first safety management mechanism 210 and the connecting portion 217 of the number 2 first safety management mechanism 210, the connecting strip is provided with two rows of through holes 218, and each row of through holes 218 includes a plurality of through holes arranged at intervals in sequence along the length extending direction of the first set axis 141.

Alternatively, the connection between the inspection portion body 216 and the connection portion 217 is integrally formed, the connection between the inspection portion body 216 and the first flap 200 is also integrally formed, and the through holes in the through hole group 218 provided in the inspection portion body 216 may be formed by die cutting, punching, or the like, or a break point without connection may be die cut and punched at the connection between the inspection portion body 216 and the connection portion 217, which is not particularly limited herein.

Optionally, with reference to fig. 9, the inspection portion main body 216 is a tension band, the tension band is connected to the connecting portion 217 and/or the first flap 200, and as an example of the inspection portion main body 216 of the No. 3 first safety management mechanism 210, two sides of the tension band are respectively connected to the first flap 200 and the connecting portion 217 of the No. 3 first safety management mechanism 210, a length extending direction of the tension band is consistent with an extending direction of the first setting axis 141, and the tension band can be disconnected from the connecting portion 217 and the first flap 200 at the same time by tearing the tension band by an external force.

It should be noted that, regardless of whether the inspection unit main body 216 is a break-point connection, the through hole group 218 is provided, or the tension band is used as the inspection unit main body 216, when the connection between the first flap 200 and the second plate 120 needs to be broken by breaking the structure of the inspection unit main body 216, the structure of the inspection unit main body 216 can be easily broken without using a tool, and the structure of the storage main body 100 and the structure of the first safety management mechanism 210 which is not used yet can be broken, thereby effectively ensuring that the storage device 010 can be reused.

When the storage device 010 is used to connect the first flap 200 to the second panel 120 and the first flap 200 and the second panel 120 are connected by the self-adhesive tape 214, not only can the connection between the first flap 200 and the second panel 120 be disconnected by breaking the structure of the inspection unit main body 216 so that the first flap 200 can be freely turned over about the first set axis 141 to open the storage port 131 and take out the article, but also before the structure of the inspection unit main body 216 is broken, it can be visually checked whether or not the structure of the inspection unit main body 216 is broken in advance to ensure the reliability and safety of the storage device 010 storing the article, and if the structure of the inspection unit main body 216 is broken before the connection between the first flap 200 and the second panel 120 needs to be broken, it is determined that the article stored in the storage device 010 is not safely stored, and if the connection between the first flap 200 and the second panel 120 needs to be broken, if the structure of the inspection unit main body 216 is not damaged, it is determined that the articles stored in the storage device 010 are safely stored.

Referring to fig. 2, the first safety management mechanism 210 of the present embodiment further includes a force application portion 213, the force application portion 213 is connected to the first safety inspection portion 212, and the force application portion 213 is used for driving the first safety inspection portion 212 to disconnect the first flap 200 from the second plate 120 under the action of an external force. When the first flap 200 is overlapped on the second panel 120 and the first self-adhesive component 211 connects the first flap 200 with the second panel 120, an external force is applied to the force applying part 213, so that the structure of the first security inspection part 212 can be destroyed, and the connection between the first flap 200 and the second panel 120 is broken, thereby achieving the effect of saving power.

The biasing portion 213 is provided at one end of the first safety check portion 212 along the extending direction of the first set axis 141. Of course, in other embodiments, the urging portions 213 are provided at both ends of the first safety check portion 212 in the extending direction of the first setting axis 141.

Alternatively, the force application portion 213 and the inspection portion main body 216 are integrally formed, so that the stability of the connection between the force application portion 213 and the inspection portion main body 216 can be ensured, and when an external force is applied to the force application portion 213, the force application portion 213 is not easily broken from the inspection portion main body 216, so that the external force is applied to the force application portion 213 to tear off the inspection portion main body 216, thereby disconnecting the first flap 200 from the second panel 120. Of course, in other embodiments, the connection between the urging portion 213 and the inspection portion main body 216 may be made by bonding, or by using a fastener such as a staple, and the like, and is not particularly limited herein.

Optionally, referring to fig. 2 and 3, the storage device 010 further includes a plug assembly (hereinafter, referred to as a first plug assembly 230), the first plug assembly 230 includes a slot 233 and a latch 232 that are plugged into each other, one of the slot 233 and the latch 232 is disposed on the first security management mechanism 210, and the other of the slot 233 and the latch 232 is disposed on the second board 120. When the first flap 200 overlaps the second panel 120, the latch 232 may be inserted into the slot 233, so that the first flap 200 overlaps the second panel 120 more stably. When the storage device 010 is used for ordinary storage only, that is, when it is not necessary to reliably close the storage opening 131, that is, when it is not necessary to bond the first flap 200 to the second panel 120 using the first safety management mechanism 210, it is sufficient to turn the first flap 200 around the first set axis 141, to overlap the first flap 200 with the second panel 120, and to insert the latch 232 into the slot 233 when the article is stored in the storage chamber 130. Of course, when it is necessary to bond the first flap 200 and the second panel 120, the latch 232 may be inserted into the slot 233 to improve the stability of the connection between the first flap 200 and the second panel 120.

It should be understood that the first plug assembly 230 is not an essential component, i.e., the storage device 010 may be optionally provided with no first plug assembly 230 as required.

The latch 232 of the present embodiment is connected to the first safety managing mechanism 210 such that the latch 232 is connected to the first flap 200 through the first safety managing mechanism 210; the slot 233 is opened in the second board 120. Of course, in other embodiments, the slot 233 may be provided in the first flap 200 or in the first safety management mechanism 210, such that the slot 233 is provided in the first flap 200 via the first safety management mechanism 210 and the latch 232 is provided in the second panel 120.

Alternatively, the number of first plug assemblies 230 may be the same as the number of first security authorities 210 (as shown in fig. 3) or may be different (as shown in fig. 10). In this embodiment, the number of the first plug assemblies 230 is the same as the number of the first safety authorities 210, that is, the storage device 010 of this embodiment includes three sets of the first plug assemblies 230, the latches 232 of the three sets of the first plug assemblies 230 are disposed in one-to-one correspondence with the three sets of the first safety authorities 210, and the slots 233 of the three sets of the first plug assemblies 230 are sequentially disposed at intervals along a predetermined direction.

Alternatively, referring to fig. 2 and 3, the latch 232 of each set of the first plug assembly 230 is disposed corresponding to the connecting portion 217 of the corresponding first safety management mechanism 210, that is, the latch 232 is connected to the connecting portion 217, and along the extending direction of the first set axis 141, the latch 232 is connected to the end of the connecting portion 217; by such an arrangement, the first plug assembly 230, the first self-adhesive assembly 211 and the first safety inspection portion 212 can be prevented from interfering with each other.

Optionally, the latch 232 is integrally formed with the connecting portion 217. In other embodiments, the latch 232 may be bonded to the connection portion 217, etc., and is not particularly limited herein.

Alternatively, latch 232 may take on various shapes as desired, as shown in FIG. 11, such as: the latch 232 is a rectangular insertion sheet 234, and the insertion sheet 234 is connected with the connecting part 217; or the latch 232 is an inserting piece 234, the inserting piece 234 is connected with the connecting part 217, one end of the inserting piece 234 far away from the connecting part 217 is provided with two clamping grooves 235, and the two clamping grooves 235 are distributed on two sides of the inserting piece 234 along a preset direction; the latch 232 includes a tab 234 and a protrusion 236, the tab 234 is connected to the connecting portion 217, the protrusion 236 is connected to an end of the tab 234 away from the connecting portion 217, and the protrusion 236 extends toward or away from the first setting axis 141.

Alternatively, as shown in fig. 11, the slot 233 may also be of various shapes, such as: may be rectangular, curved, pentagonal, etc., and is not particularly limited thereto.

Optionally, in the extending direction of the first setting axis 141, latches 232 are connected to both ends of the connecting portion 217, and accordingly, each set of the first plug assemblies 230 includes two slots 233, and the two latches 232 can be in one-to-one plug fit with the two slots 233. So configured, the stability of the first plug assembly 230 in mating the first flap 200 with the second panel 120 can be improved.

Referring to fig. 12, the second security management mechanism 220 of the present embodiment includes a second self-adhesive component 221 and a second security check portion 222, the second self-adhesive component 221 is disposed on the second board 120 through the second security check portion 222, the second self-adhesive component 221 is used for connecting the second board 120 with the first flap 200 extending into the storage cavity 130, so as to close the storage opening 131; the second safety inspection part 222 is for disconnecting the second panel 120 from the first flap 200 extending into the storage cavity 130 so that the storage port 131 can be opened; the second self-adhesive assembly 221 and the second security inspection part 222 are sequentially arranged along a preset direction. With such an arrangement, when the storage device 010 is used for safe storage requiring the storage opening 131 to be closed for the first time, the second self-adhesive assembly 221 is used for closing the storage opening 131, that is, the article can be placed in the storage cavity 130, the first flap 200 is inserted into the storage cavity 130, the first flap 200 is clamped between the article and the second plate 120, and the second plate 120 and the first flap 200 are bonded by the second self-adhesive assembly 221, so that the storage opening 131 can be closed; further, after the second security inspection part 222 is broken by an external force, the connection between the second panel 120 and the first flap 200 is broken, and the storage opening 131 is formed between the first panel 110 and the second panel 120, so that the articles in the storage cavity 130 can be easily taken out.

It should be noted that the second self-adhesive assembly 221 is used to connect the second board 120 with the first flap 200 extending into the storage cavity 130 so as to close the storage port 131, and it can be regarded as that the second self-adhesive assembly 221 is used to connect the second board 120 with the first board 110 through the first flap 200 extending into the storage cavity 130 so as to close the storage port 131, and when the second security inspection part 222 is damaged by an external force, the connection between the second board 120 and the first flap 200 is disconnected, so that the storage port 131 between the first board 110 and the second board 120 can be opened.

In general storage without closing the storage opening 131 using the storage device 010, after an article is placed in the storage cavity 130, the first flap 200 may be inserted into the storage cavity 130 so that the first flap 200 is sandwiched between the article and the second plate 120.

In this embodiment, the second self-adhesive component 221 is located between the second security inspection portion 222 and the storage opening 131; with this arrangement, when the structure of the second security inspection assembly is broken, so that the second panel 120 and the first flap 200 are disconnected, and a new storage opening 131 communicating with the outside is formed between the first panel 110 and the second panel 120, the second self-adhesive assembly 221 is adhered to the first flap 200, and the structure of the storage body 100 is not broken, so that the storage body 100 is repeatedly used for storing articles.

It should be understood that in other embodiments, the first flap 200 overlaps the surface of the second panel 120 and the second self-adhesive component 221 is used to join the first panel 110 adjacent the storage opening 131 and the second panel 120 adjacent the storage opening 131 such that the storage opening 131 is closed; the second safety inspection part 222 serves to disconnect the first plate 110 adjacent to the storage port 131 and the second plate 120 adjacent to the storage port 131 so that the storage port 131 can be opened. With this arrangement, the storage opening 131 can be closed by placing the article into the storage cavity 130, overlapping the first flap 200 on the surface of the second panel 120, and bonding the first panel 110 adjacent to the storage opening 131 to the second panel 120 with the second self-adhesive component 221.

It should be noted that the structures and the operation principles of the second self-adhesive assembly 221 and the second security check portion 222 are similar to those of the first self-adhesive assembly 211 and the first security check portion 212, respectively, that is, the structures and the operation principles of the first security management mechanism 210 and the second security management mechanism 220 are similar, and are not described herein again.

Optionally, referring to fig. 12, the storage device 010 further includes a first digital code 240, and the first digital code 240 is disposed on at least one of the first plate 110 and the second plate 120. The first digital code 240 is used for intelligent management of the storage device 010, and can be traced, so that safety management is facilitated, for example, the storage device 010 is used for identifying, recording who, when and where the storage device 010 is used. It should be understood that the first digital code 240 is not an essential component and the storage device 010 may not be provided with the first digital code 240 as desired.

Optionally, the first digital code 240 includes at least one of a mechanically readable optical label assembly and a wireless radio frequency chip 244. The mechanically readable optical label assembly and the wireless rf chip 244 may respectively use a scanner and a sensor to extract data, and the extracted data may be transmitted to computing hardware for further data analysis, management, and the like. The computing hardware may refer to a terminal such as a computer or a mobile phone, and is not limited herein. Wherein the mechanically readable optical label assembly includes at least one of a bar Code 242 and a two-dimensional Code 243 (quick response Code).

In this embodiment, the first digital code member 240 includes a mechanically readable optical label assembly (hereinafter referred to as a first mechanically readable optical label assembly 271), the first mechanically readable optical label assembly 271 is disposed on the second board 120, the number of the first mechanically readable optical label assemblies 271 is the same as the number of the first safety managing mechanisms 210, and the first safety managing mechanisms 210 are disposed in one-to-one correspondence with the mechanically readable optical label when the first flap 200 is overlapped on the second board 120. With this arrangement, when each first security management mechanism 210 is used, the corresponding information can be recorded by using the corresponding first mechanically readable optical label assembly 271, so as to facilitate the tracing, security management, and the like of the storage device 010.

Optionally, the first digital code element 240 further comprises a second mechanically readable optical label element 272, the second mechanically readable optical label element 272 cooperating with the second security authority 220. The first flap 200 is attached to the second panel 120 and the second security authority 220 is engaged with the second mechanically readable optical label assembly 272.

In this embodiment, referring to fig. 12, the second mechanically readable optical label element 272 and the plurality of first mechanically readable optical label elements 271 are sequentially disposed at intervals along a predetermined direction, and the second mechanically readable optical label element 272 is nearest to the first set axis 141, and is sequentially defined as No. 4, No. 3, No. 2, and No. 1 mechanically readable optical label elements from being close to the first set axis 141 to being far from the first set axis 141, where No. 4 mechanically readable optical label element is the second mechanically readable optical label element 272, and No. 3, No. 2, and No. 1 are the first mechanically readable optical label elements 271.

When the storage device 010 is used for safe storage for closing the storage opening 131 for the first time, the first flap 200 is inserted into the storage cavity 130, and the second safety management mechanism 220 connects the first flap 200 with the second plate 120, the number 4, the number 3, the number 2 and the number 1 mechanically readable optical label assemblies are all positioned on the side of the second plate 120 away from the first plate 110, that is, the number 4, the number 3, the number 2 and the number 1 mechanically readable optical label assemblies are all exposed, and the related information of the first safe storage is written into the number 4 mechanically readable optical label assemblies; when the storage device 010 is reused for the second time of the safe storage requiring the closing of the storage opening 131, as shown in fig. 4, the first flap 200 is overlapped on the surface of the second plate 120, the first safety management mechanism 210 No. 1 connects the first flap 200 with the second plate 120, the mechanically readable optical label assembly No. 1 is not shielded, the mechanically readable optical label assemblies No. 4, No. 3 and No. 2 are shielded, and the mechanically readable optical label assembly No. 1 writes the related information of the second time of the safe storage into the mechanically readable optical label assembly No. 1; as shown in fig. 5, after the second time of safe storage, the first safety inspection part 212 of the first safety management mechanism No. 1 210 is broken, so that the connection between the first flap 200 and the second panel 120 is disconnected, and the first self-adhesive assembly 211 can be torn off from the second panel 120, so as to perform the third time of safe storage requiring the storage opening 131 to be closed by the first safety management mechanism No. 2 210. It should be noted that, since the first security check portion 212 and the first self-adhesive component 211 of the first security management mechanism 210 No. 1 are both removed from the second board 120 after the second time of secure storage, the mechanically readable optical label assembly No. 2 can be exposed during the third time of secure storage, so as to write the information related to the third time of secure storage into the mechanically readable optical label assembly No. 2; the fourth time of secure storage and information recording is similar in manner, and will not be described herein.

Optionally, each of the first and second machine-readable

optical label assemblies

271, 272 includes a bar code 242 and a two-dimensional code 243, and the bar code 242 and the two-dimensional code 243 of each of the machine-readable optical label assemblies are disposed at intervals on the second plate 120 along the extending direction of the first set axis 141.

Referring to fig. 12, the first digital encoding component 240 of the present embodiment further includes a wireless rf chip 244, and the wireless rf chip 244 is disposed at an end of the second plate 120 away from the storage port 131. Of course, in other embodiments, the wireless rf chip 244 may also be disposed on the first plate 110, or directly disposed in the storage cavity 130, or disposed on the second plate 120 near the storage opening 131, which is not limited in this respect.

It should be understood that in other embodiments, the first digital code 240 may include only one of the barcode 242, the two-dimensional code 243 and the wireless rf chip 244, or a combination of any two of the above three.

It should be noted that the mechanically readable optical label assembly may be used for recording postal delivery information, such as a destination, an origin, a contact address of a mailer, a contact address of a recipient, etc., and may also be used for recording the number of times of using the storage device 010, etc., and is not limited in particular.

It should be noted that, the first digital code 240 is used for controlling the usage process and collecting data of the storage device 010, and may include: ISO 9001-implements retrospective quality management, such as who, what use, where, when to perform operational status and process control using the storage device 010, and storage history for big data analysis; alternatively, the ISO 14000 series monitors environmental performance, including carbon footprint calculations, greenhouse gas emissions, and compensation efficiency; compared with the energy-saving benefit obtained by the traditional single-use storage device 010 by repeatedly using the same storage bin for many times, the environment-friendly performance can be converted into a quantified carbon equivalent (CO2e) value.

It should be noted that the application program for analyzing and monitoring the data scanned or read from the first digital code device 240 is similar to the related art program, wherein the related digital code messages can provide data for all users of the storage device 010 to know the usage behavior by communicating with the supplier website provided by the storage device 010, and has traceability, such as who, when, and where the security management storage device 010 is used. Alternatively, the ISO 9001 may be implemented by a cloud server, and the storage device 010 service provider may also analyze the number of times the same storage device 010 is reused, and other valuable information, such as a tracking information provided by a logistics company for a user to refer to, for example, and is not limited herein.

Referring to fig. 13 and 14, the storage device 010 of the embodiment further includes a second flap 250, the second panel 120 is connected to the second flap 250, the second flap 250 is configured to be flipped about a second set axis 142 with respect to the second panel 120 to overlap a surface of the first panel 110 to close or open the storage opening 131, or the second flap 250 is configured to be flipped about the second set axis 142 with respect to the second panel 120 to extend from the storage opening 131 into the storage cavity 130; the second flap 250 is provided with at least one set of third safety management mechanisms 260, and the third safety management mechanisms 260 are used to connect the second flap 250 with the first panel 110 when the second flap 250 is overlapped on the surface of the first panel 110 and closes the storage opening 131. With this arrangement, the number of times the storage device 010 is used can be further increased by the second flap 250 connected to the second panel 120 and the third safety managing mechanism 260 provided in the second flap 250.

The second flap 250 is used for being turned around the second set axis 142 relative to the second plate 120 to overlap the surface of the first plate 110 to close or open the storage opening 131, and means that: the second flap 250 is adapted to be flipped about the second set axis 142 relative to the second panel 120 to overlap a surface of the first panel 110 facing away from the second panel 120 to close or open the storage port 131.

Note that, the manner in which the storage device 010 having the second flap 250 attached to the second panel 120 is used to store articles includes: placing the article in the storage cavity 130, extending the first flap 200 into the storage cavity 130 with the first flap 200 between the article and the second panel 120, and extending the second flap 250 into the storage cavity 130 with the second flap 250 between the second panel 120 and the first flap 200; alternatively, the second flap 250 may be extended into the storage cavity 130, the second flap 250 may be between the first panel 110 and the article or between the second panel 120 and the article, and the first flap 200 may be overlapped on the side of the second panel 120 facing away from the first panel 110, with the first flap 200 being adhered to the second panel 120 using the first security management mechanism 210.

Optionally, the third safety management mechanism 260 includes a third self-adhesive assembly 261 and a third safety inspection portion 262, the third safety inspection portion 262 is disposed on the second flap 250, the third self-adhesive assembly 261 is disposed on the second flap 250 through the third safety inspection portion 262, and the third self-adhesive assembly 261 is used for connecting the second flap 250 with the first plate 110 so that the storage opening 131 is closed; the third safety inspection part 262 serves to disconnect the second flap 250 from the first plate 110 so that the storage port 131 can be opened; the third self-adhesive component 261 and the third safety inspection portion 262 are sequentially arranged along a preset direction, wherein the preset direction is arranged at an angle with the second set axis 142.

Alternatively, the second setting axis 142 extends in the same direction as the first setting axis 141.

It should be noted that the structure of the second flap 250 is similar to that of the first flap 200, and thus the description thereof is omitted. The structures of the third self-adhesive component 261 and the third security inspection portion 262 and the manner of disposing the third flap 250 are similar to the structures of the first self-adhesive component 211 and the first security inspection portion 212 and the manner of disposing the third flap 200, respectively, i.e. the structures and the operation principles of the first security management mechanism 210 and the third security management mechanism 260 are similar, and are not described herein again.

Optionally, a third self-adhesive member 261 is disposed on the first plate 110, a third security inspection portion 262 is disposed on the second flap 250, and the third self-adhesive member 261 is used to connect the second flap 250 with the first plate 110 so that the storage opening 131 is closed; the third safety inspection part 262 serves to disconnect the second flap 250 from the first plate 110 so that the storage port 131 can be opened.

It should be noted that the manner in which the third self-adhesive element 261 is disposed on the first board 110 and the third security check portion 262 is disposed on the second flap 250 is similar to the manner in which the first self-adhesive element 211 is disposed on the first board 110 and the first security check portion 212 is disposed on the first flap 200, and the description thereof is omitted.

The number of the third safety managing means 260 provided in the second flap 250 can be selected as needed, and in this embodiment, three sets of the third safety managing means 260 are provided, and in other embodiments, one set, two sets, and the like are provided.

It should be noted that, in this embodiment, the first board 110 is further provided with third machine-readable optical tag assemblies 273, and the number of the third machine-readable optical tag assemblies 273 is the same as that of the third safety management mechanisms 260, and the third machine-readable optical tag assemblies 273 are arranged in a one-to-one correspondence, and the specific arrangement manner, the working principle, and the like are similar to those of the first machine-readable optical tag assembly 271, and are not described herein again.

Optionally, referring to fig. 13, the storage device 010 further includes a second plug assembly 231, the second plug assembly 231 is similar to the first plug assembly 230 in structure, the second plug assembly 231 includes a slot and a latch that are plugged into each other, one of the slot and the latch is disposed on the second flap 250, and the other of the slot and the latch is disposed on the first board 110.

It should be noted that the specific structure, operation principle and function of the second plug assembly 231 are similar to those of the first plug assembly 230, and are not described herein again.

It should be understood that in other embodiments, the storage device 010 may not be provided with the second flap 250.

Referring to fig. 15 and 16, the storage device 010 of the embodiment further includes an external hardware 300, the external hardware 300 includes a third plate 310 and a fourth plate 320 connected to each other, the third plate 310 can be connected to one of the first plate 110 and the second plate 120, and the fourth plate 320 can be flipped over with respect to the third plate 310 around a third set axis 311 to overlap a surface of the other of the first plate 110 and the second plate 120 to close or open the storage opening 131. With such an arrangement, when the first safety management mechanism 210 and the second safety management mechanism 220 respectively arranged on the first flap 200 and the second flap 250 are used up, that is, both fail, the external hardware 300 is arranged on the storage body 100 to seal the storage opening 131 with the external hardware 300, so that the service life of the storage body 100 can be further prolonged; furthermore, each storage device 010 is configured with a plurality of external hardware 300, and the number of times of reuse may also depend on the number of the plurality of external hardware 300 when all of the first security management entity 210, the second security management entity 220, and the third security management entity 260 of the storage device 010 fail.

The fourth board 320 is provided with a fourth safety management mechanism 330, and the fourth safety management mechanism 330 is used to connect the first board 110 or the second board 120 overlapped with the fourth board 320. With such an arrangement, the external hardware 300 can reliably seal the storage opening 131, so as to ensure that the storage body 100 can be used repeatedly and safely stored.

The fourth security management mechanism 330 includes a fourth self-adhesive component 331 and a fourth security check portion 332, and the fourth self-adhesive component 331 is connected to the fourth board 320 through the fourth security check portion 332; the fourth self-adhesive member 331 is used to connect the first plate 110 or the second plate 120 overlapped with the fourth plate 320 to close the storage opening 131; the fourth safety inspection part 332 is used to disconnect the first plate 110 or the second plate 120 overlapped with the fourth plate 320 from the fourth plate 320 so that the storage port 131 can be opened; the fourth self-adhesive component 331 and the fourth security inspection portion 332 are sequentially arranged along a predetermined direction, wherein the predetermined direction is disposed at an angle to the third setting axis 311.

The third setting axis 311 coincides with the extending direction of the first setting axis 141.

Optionally, the third plate 310 is provided with a self-adhesive assembly, by which the third plate 310 may be connected with the first plate 110 or the second plate 120. It should be noted that the structure of the self-adhesive assembly is similar to that of the first self-adhesive assembly 211, and is not described herein again.

The following description will be given taking an example in which the third plate 310 of the external hardware 300 is connected to the first plate 110, and the fourth plate 320 is rotatable about the third set axis 311 to overlap with the second plate 120.

The third board 310 is connected to the first board 110, and the fourth self-adhesive component 331 is connected to the fourth board 320 through the fourth security check portion 332; the fourth self-adhesive component 331 is used to connect the second board 120 overlapped with the fourth board 320, so as to seal the storage opening 131 by using the external hardware 300; when the structure of the fourth safety inspection part 332 is damaged by an external force, the connection between the second plate 120 and the fourth plate 320 is broken, and the fourth plate 320 can be freely turned around the third set axis 311 to open the storage port 131.

It should be noted that the external hardware 300 is connected to the storage body 100, and the manner for closing or opening the storage opening 131 does not damage the structure of the storage body 100 itself, so as to ensure that the storage body 100 can be reused by replacing a new external hardware 300, and the service life of the storage body 100 is fully prolonged until the structure of the storage body 100 is damaged.

The number of the fourth security administration mechanisms 330 provided on the fourth board 320 may be selected according to the needs, and may be, for example, one group, two groups, three groups, and the like, and is not limited in particular. Referring to fig. 17, when the external hardware 300 is disposed in the storage body 100 for sealing the storage port 131, each time the fourth board 320 and the second board 120 are connected by using a set of fourth security management mechanisms 330 to seal the storage port 131, the number of times that each external hardware 300 can seal the storage port 131 for secure storage is determined by the number of the fourth security management mechanisms 330 disposed in the fourth board 320. It should be noted that each storage device 010 may be configured with a plurality of external hardware 300, for example: 1, 2, 3 etc to improve the used repeatedly number of times of storing body 100 through a plurality of external hardware 300, prolong storage device 010's life, be favorable to improving economic benefits and environmental protection benefit.

It should be noted that the structures of the fourth self-adhesive component 331 and the fourth security inspection part 332 and the manner of disposing the fourth self-adhesive component 331 and the fourth security inspection part 332 on the fourth board 320 are respectively similar to the structures of the first self-adhesive component 211 and the first security inspection part 212 and the manner of disposing the second self-adhesive component 211 and the first security inspection part 212 on the first flap 200, that is, the structures and the operating principles of the first security management mechanism 210 and the fourth security management mechanism 330 are similar, and are not described herein again.

Alternatively, referring to fig. 15 to 17, along the extending direction of the third setting axis 311, the fifth plates 340 are connected to both sides of the third plate 310, and the fifth plates 340 can be turned over relative to the third plate 310. When the fourth plate 320 is turned around the third setting axis 311 relative to the third plate 310 to be folded with respect to the third plate 310, the fifth plate 340 may be turned over such that the fifth plate 340 overlaps the side of the fourth plate 320 away from the third plate 310, or the fifth plate 340 may be inserted between the third plate 310 and the fourth plate 320, and then the fifth plate 340 and the fourth plate 320 may be connected, for example, by bonding, or by using a fastener such as a stapler. In this way, a plugging cavity is formed between the third plate 310 and the fourth plate 320, and the first plate 110 and the second plate 120 of the storage body 100 can be plugged into the plugging cavity at the same time, even if the third plate 310 and the fourth plate 320 are respectively distributed at the outer sides of the first plate 110 and the second plate 120, so as to seal the storage port 131 with the external hardware 300.

Note that the third plate 310 and the fourth plate 320 are integrally formed, and the third plate 340 and the fifth plate 340 are integrally formed. Of course, in other embodiments, the connection manner of the third plate 310 and the fourth plate 320, and the connection manner of the third plate 310 and the fifth plate 340 may also be bonding, connection with a fastener such as a stapler, and the like.

Optionally, referring to fig. 18, the third plate 310 may not be connected to the fifth plate 340, that is, in a case that the external hardware 300 does not have the fifth plate 340, the third plate 310 extends into the storage cavity 130 from the storage port 131 and is connected to the first plate 110, that is, the third plate 310 may extend into the storage cavity 130 and is connected to a side of the first plate 110 facing the second plate 120, or the third plate 310 may extend into the storage cavity 130 and is connected to a side of the second plate 120 facing the first plate 110, or the third plate 310 may be connected to a side of the first plate 110 facing away from the second plate 120, or the third plate 310 may be connected to a side of the second plate 120 facing away from the first plate 110, and functions of the third plate 310 are similar to those of the first flap 200, which will not be described herein again.

The connection between the third plate 310 and the first plate 110 may be made by bonding or by using a fastener such as a staple, and is not particularly limited.

Optionally, the external hardware 300 further includes a second digital code 241, and the second digital code 241 is disposed on at least one of the third board 310 and the fourth board 320. The second digital code device 241 is similar to the first digital code device 240 in operation and operation, and will not be described in detail herein.

Optionally, the second digital code 241 includes at least one of a mechanically readable optical label assembly and a wireless radio frequency chip 244. Wherein the mechanically readable optical label assembly includes at least one of a bar code 242 and a two-dimensional code 243.

Referring to fig. 15 and 16, the second digital coding device 241 of the present embodiment includes a machine-readable optical label assembly (hereinafter referred to as a fourth machine-readable optical label assembly 274), the fourth machine-readable optical label assembly 274 includes a barcode 242 and a two-dimensional code 243, the barcode 242 and the two-dimensional code 243 are arranged at intervals along the extending direction of the third set axis 311, and both the barcode 242 and the two-dimensional code 243 are arranged corresponding to the fourth self-adhesive assembly 331. With this arrangement, when the external hardware 300 is used to close the storage opening 131 of the storage body 100, the barcode 242 and the two-dimensional code 243 can be used to record postal delivery information, such as a destination, an origin, a mailer contact address, a recipient contact address, and the like of the postal delivery, and can also be used to record the number of times of use of the storage device 010, and the like, and the recording is not particularly limited herein.

Alternatively, the barcode 242 may be used to record the number of times the storage device 010 is reused, and the two-dimensional code 243 is used to record postal delivery information. Of course, in other embodiments, the barcode 242 may be used to record postal delivery information, and the two-dimensional code 243 may be used to record the number of times the storage device 010 is reused.

Optionally, referring to fig. 16, the second digital code device 241 further includes a wireless rf chip 244, and when the external hardware 300 is disposed on the storage body 100, that is, when the third plate 310 is connected to the first plate 110 or the second plate 120, the wireless rf chip 244 of the second digital code device 241 can be put into the storage cavity 130 through the storage opening 131. It should be noted that the function of the wireless rf chip 244 of the second digital encoding device 241 is similar to that of the wireless rf chip 244 of the first digital encoding device 240, and is not described herein again.

It should be understood that the external hardware 300 of the present embodiment is used in cooperation with the storage body 100 to prolong the service life of the storage body 100, even if the storage body 100 is reused for safe storage requiring the storage opening 131 to be closed. In other embodiments, the external hardware 300 may also be separately matched with the storage device 010 of another envelope or document bag of a third party to close the storage opening 131 of the other envelope or document bag for secure storage, and the external hardware 300 may also be replaced to extend the service life of the other common envelope or document bag, i.e. to enable the other envelope or document bag to be reused and repeatedly perform secure storage that can close the storage opening 131.

The environmental benefit (recycling benefit) of the storage device 010 of this embodiment can be represented by the calculated economic benefit and carbon equivalent (CO2e), which includes: the single-use storage device 010 is marked as a unit value 1 and is used as a denominator, while the present application reuses the storage device 010 for the first time (i.e., the storage device 010 for the second time), and when the storage device 010 is reused for the first time, the first security administration 210 is marked as a unit value 2 and is used as a numerator, and the settlement is 2 and is 2 times beneficial; if the storage device 010 is reused twice and is recorded as a unit value 1 plus 2 equal to 3, the benefit is 3 times. Therefore, the storage device 010 of the present application has considerable economic benefits through repeated use and prolonged service life.

When the storage device 010 of this embodiment is used to store articles, the storage opening 131 may not be closed, and only the first flap 200 and the second flap 250 need to be folded to extend into the storage cavity 130, and the first flap 200 is sandwiched between the articles in the storage cavity 130 and the second flap 250, and the second flap 250 is sandwiched between the second panel 120 and the first flap 200. When the storage device 010 of this embodiment is used for storing articles, the coin storage slot 131 mainly includes the following modes: the storage opening 131 can be closed by folding the first flap 200 over, sandwiching the first flap 200 between the article in the storage chamber 130 and the second panel 120, and connecting the second panel 120 and the first flap 200 by the second security management mechanism 220; alternatively, the first flap 200 is folded over such that the first flap 200 is sandwiched between the article in the storage cavity 130 and the second panel 120, the second flap 250 is overlapped on the side of the first panel 110 away from the second panel 120, and the second flap 250 is connected to the first panel 110 by the third security management mechanism 260; alternatively, the second flap 250 is folded over, the second flap 250 is sandwiched between the article in the storage cavity 130 and the first panel 110, the first flap 200 is overlapped on the side of the second panel 120 away from the first panel 110, and the first flap 200 is connected to the second panel 120 by the first security management mechanism 210. After the first security management mechanism 210, the second security management mechanism 220, and the third security management mechanism 260 of the storage device 010 are all used and scrapped, the external hardware 300 may be disposed on the storage body 100 to seal the storage opening 131, so as to further continuously reuse the used storage body 100.

In summary, when the storage device 010 stores an article, the storage device can utilize the first security management mechanism 210, the second security management mechanism 220, the third security management mechanism 260 and the external hardware 300 to seal the storage opening 131 for security storage, so that the storage body 100 can be effectively reused, and the service life of the storage body 100 is prolonged.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Industrial applicability

The storage device of this application utilizes to store the body and deposits article, and when article were deposited in the storage intracavity of storing the body, can choose for use first safety control mechanism or second safety control mechanism to seal the storage mouth to carry out safe storage. After utilizing one of first safety control mechanism and second safety control mechanism to seal the mouth and having carried out once safe storage, can also use another one of first safety control mechanism and second safety control mechanism to seal the mouth and carry out safe storage next time, and no matter use first safety control mechanism or second safety control mechanism to seal the mouth and carry out safe storage, can not destroy the basic structure who stores the body, can make storage device can utilize first safety control mechanism and second safety control mechanism to carry out the safe storage that can seal the mouth at least twice. The storage device including the second flap and the third safety gear may also be used for a greater number of safe storage of the closed storage opening. Moreover, after the first safety management mechanism, the second safety management mechanism and the third safety management mechanism are scrapped, the storage port of the storage body can be further sealed by external hardware for safe storage, so that the service life of the storage body is further prolonged. Because the storage device can be repeatedly and safely stored for many times, the service life of the storage device is effectively prolonged, and the economic benefit and the environmental protection benefit are improved.

Claims

1. A storage device comprising a storage body, a first flap, and at least a first security management mechanism, the storage body comprising first and second panels connected to one another and foldable along a fold line to form a storage cavity, the storage body having a storage opening in communication with the storage cavity when the first and second panels are folded along the fold line;

the first panel is connected with the first folding wing, the first folding wing is used for being turned around a first set axis relative to the first panel so as to be lapped on the surface of the second panel to close the storage opening, or the first folding wing is used for being turned around the first set axis relative to the first panel so as to extend from the storage opening into the storage cavity;

the first safety management mechanism is used for connecting the first flap and the second panel when the first flap is lapped on the surface of the second panel so as to enable the storage opening to be closed or disconnecting the first flap and the second panel so as to enable the storage opening to be opened;

the second plate is provided with a second safety management mechanism, and the second safety management mechanism is used for connecting the second plate with the first folding wing when the first folding wing extends into the storage cavity so as to seal the storage opening; or, the second safety management mechanism is used for connecting the position of the first plate adjacent to the storage opening and the position of the second plate adjacent to the storage opening when the first folding wing is lapped on the surface of the second plate so as to close the storage opening.

2. The storage device of claim 1 wherein the first security management mechanism comprises a first self-adhesive assembly disposed on the first flap or the second panel and a first security check portion disposed on the first flap, the first self-adhesive assembly being for connecting the first flap and the second panel when the first flap is lapped on a surface of the second panel such that the storage opening is closed; the first security inspection part is used for disconnecting the first flap and the second panel so that the storage opening can be opened; first self-adhesive assembly with first safety inspection portion arranges in proper order along predetermineeing the direction, wherein, predetermine the direction with first settlement axis is the angle setting.

3. The storage device of claim 2, wherein the first safety mechanism further comprises a force application portion, the force application portion is connected to the first safety inspection portion, and the force application portion is configured to drive the first safety inspection portion under an external force to disconnect the first flap from the second panel.

4. The storage device of claim 1, further comprising a plug assembly including a socket and a latch that mate with each other, one of the socket and the latch disposed on the first security management mechanism and the other of the socket and the latch disposed on the second board.

5. The storage device of claim 1, wherein the second security management mechanism comprises a second self-adhesive component and a second security check portion, the second self-adhesive component being disposed on the second panel through the second security check portion, the second self-adhesive component being configured to connect the second panel to the first flap extending into the storage cavity to close the storage opening, or to connect the first panel adjacent to the storage opening and the second panel adjacent to the storage opening to close the storage opening;

the second security check means is for disconnecting the second panel from the first flap extending into the storage cavity to enable the storage opening to be opened, or for disconnecting the first panel adjacent the storage opening and the second panel adjacent the storage opening to enable the storage opening to be opened;

the second is from gluing the subassembly with second safety inspection portion arranges in proper order along predetermineeing the direction, wherein, predetermine the direction with first axis of setting is the angle setting.

6. The storage device of claim 1, further comprising a first digital code disposed on at least one of the first plate and the second plate.

7. The storage device of claim 6, wherein the first digital code comprises at least one of a mechanically readable optical label assembly and a wireless radio frequency chip.

8. The storage device of claim 7, wherein the first digital code includes a mechanically readable optical label assembly disposed on the second panel, the number of mechanically readable optical label assemblies being the same as the number of first security management mechanisms disposed in a one-to-one correspondence with the mechanically readable optical label when the first flap is attached to the second panel.

9. The storage device of claim 1, 4 or 6, further comprising a third security authority; a second flap is connected to the second panel and is configured to be flipped about a second set axis relative to the second panel to overlap a surface of the first panel to close or open the storage opening, or flipped about the second set axis relative to the second panel to extend from the storage opening into the storage cavity;

the third safety management mechanism is used for connecting the second flap with the first plate when the second flap is overlapped on the surface of the first plate and closes the storage opening.

10. The storage device of claim 9 wherein the third security management mechanism includes a third self-adhesive assembly disposed on the second flap or the first panel and a third security check portion disposed on the second flap for connecting the second flap to the first panel when the second flap is lapped over a surface of the first panel such that the storage opening is closed; the third safety inspection part is used for disconnecting the second flap from the first plate so that the storage port can be opened;

the third is from gluing the subassembly with third safety inspection portion arranges in proper order along predetermineeing the direction, wherein, predetermine the direction with the second is set for the axis and is the angle setting.

11. The storage device of claim 1 or 9, further comprising an external hardware comprising a third plate and a fourth plate connected to each other, the third plate being connectable to one of the first plate and the second plate, the fourth plate being reversible relative to the third plate about a third set axis to overlap a surface of the other of the first plate and the second plate to close or open the storage opening.

12. A storage device according to claim 11 wherein the fourth panel is provided with a fourth safety arrangement for connecting the first or second panel overlapping the fourth panel to the fourth panel.

13. The storage device of claim 12, wherein the fourth security management mechanism comprises a fourth self-adhesive component and a fourth security check portion, the fourth self-adhesive component being coupled to the fourth board via the fourth security check portion; the fourth self-adhesive assembly is used for connecting the first plate or the second plate overlapped with the fourth plate so as to seal the storage opening; the fourth safety inspection part is used for disconnecting the first plate or the second plate overlapped with the fourth plate from the fourth plate so as to open the storage port;

the fourth is from the viscose subassembly with fourth safety inspection portion arranges in proper order along predetermineeing the direction, wherein, predetermine the direction with the third is set for the axis and is the angle setting.

14. The storage device of claim 11, wherein the external hardware further comprises a second digital code disposed on at least one of the third plate and the fourth plate.

15. The storage device of claim 14, wherein the second digital code comprises at least one of a mechanically readable optical label assembly and a wireless radio frequency chip.

16. The external hardware is used for being arranged on a storage body and is characterized by comprising a third plate and a fourth plate which are connected with each other, wherein the third plate is used for being connected with the storage body, the fourth plate is provided with a fourth safety management mechanism, and the fourth plate is used for being turned over relative to the third plate around a third set axis so as to close or open a storage opening of the storage body;

the fourth safety management mechanism comprises a fourth self-adhesive assembly and a fourth safety inspection part, and the fourth self-adhesive assembly is connected with the fourth board through the fourth safety inspection part; the fourth self-adhesive assembly is used for connecting the fourth plate with the storage body so as to seal the storage opening, and the fourth safety inspection part is used for disconnecting the fourth plate from the storage body so as to open the storage opening.

17. The external hardware of claim 16, further comprising a second digital code disposed on at least one of the third and fourth boards.

18. The external hardware of claim 17, wherein the second digital code is at least one of a mechanically readable optical label assembly and a wireless radio frequency chip.