JP2023550871A - Enclosure and external hardware - Google Patents

Abstract

They are a storage device (010) and external hardware (300). The storage device (010) includes a storage main body (100), the storage main body (100) is provided with a storage chamber (130) having a storage opening (131), and a first plate (110) of the storage main body (100) is provided with a storage chamber (130) having a storage opening (131). The first folding wing (200) is connected, and the first safety management mechanism (210) connects the first folding wing (200) and the second plate (120) so as to seal the storage opening (131). The second plate (120) has a first plate that connects the second plate (120) and the first folding wing (200) so as to seal the storage opening (131). A second safety management mechanism (220) is provided for connecting a portion of the second plate (110) adjacent to the storage port (131) and a portion of the second plate (120) adjacent to the storage port (131). The storage body (100) can seal the storage opening (131) more than once by the first safety management mechanism (210) and the second safety management mechanism (220), thereby making it possible to reuse the storage body (100). and improve environmental friendliness. The external hardware (300) can reseal the storage port (131) of the used storage body (100), extending the service life of the storage body (100) and allowing the reuse of the storage body (100). and improve environmental friendliness.

Description

TECHNICAL FIELD This application relates to the technical field of storage, and more particularly to storage devices and external hardware.

The related art provides many types of self-sealing envelopes as storage devices for storing items such as letters, express mail, and the like.

Envelopes provided by related technologies have a short service life, are difficult to reuse once opened, and are bad for the environment.

It is an object of the present application to provide a storage device and external hardware that can extend the service life of each storage device, enable reuse, and improve environmental friendliness.

The embodiment of the present application is implemented as follows.

In a first aspect, the present application provides a storage device including a storage body, a first folding wing, and at least one first safety management mechanism, the storage body including a first plate and a second plate connected to each other. , the first plate and the second plate may be folded along the fold line to form a storage chamber, and when the first plate and the second plate are folded along the fold line, the storage chamber may be formed by folding the first plate and the second plate along the fold line. The main body has a storage port communicating with the storage chamber, the first plate is connected to the first folding wing, and the first folding wing contacts a surface of the second plate to open the storage port. the first folding wing is for rotation about a first set axis relative to the first plate so as to seal, or the first folding wing enters the storage chamber through the storage opening; The first safety control mechanism is configured to rotate around the first set axis relative to the first plate, and the first safety management mechanism is configured to prevent the first folding wing from closing the storage opening when the first folding wing comes into contact with the surface of the second plate. for connecting the first folding wing and the second plate so as to seal the opening, or for cutting the connection between the first folding wing and the second plate so as to open the storage port. A second safety management mechanism is provided on the second plate, and the second safety management mechanism is configured to seal the storage opening when the first folding wing enters the storage chamber. The second safety management mechanism is for connecting the second plate and the first folding wing, or the second safety management mechanism is configured to connect the second plate and the first folding wing when the first folding wing comes into contact with the surface of the second plate. , providing a storage device for connecting a portion of the first plate adjacent to the storage port and a portion of the second plate adjacent to the storage port so as to seal the storage port. do.

Optionally, the first safety management mechanism includes a first self-adhesive assembly and a first safety inspection part, the first self-adhesive assembly is provided on the first folding wing or the second plate, and the first self-adhesive assembly is provided on the first folding wing or the second plate, and a safety inspection part is provided on the first folding wing, and the first self-adhesive assembly is configured to seal the storage opening when the first folding wing abuts the surface of the second plate; The first safety inspection part is for connecting the first folding wing and the second plate, and the first safety inspection part is for connecting the first folding wing and the second plate so that the storage opening can be opened. The first self-adhesive assembly and the first safety inspection part are sequentially arranged in a predetermined direction, and the predetermined direction is provided at an angle with the first setting axis.

Optionally, the first safety management mechanism further includes a biasing part connected to the first safety inspection part, and the biasing part applies an external force to disconnect the first folding wing and the second plate. This is for driving the first safety inspection section by action.

Optionally, the storage device further includes an insertion assembly, the insertion assembly including a slot and a latch that are insertionally engaged with each other, and one of the slot and the latch is disposed on the first security mechanism. and the other of both the slot and the latch is provided in the second plate.

Optionally, the second safety management mechanism includes a second self-adhesive assembly and a second safety inspection part, the second self-adhesive assembly is installed on the second plate via the second safety inspection part, and the second self-adhesive assembly is provided on the second plate through the second safety inspection part, and the second self-adhesive assembly The adhesive assembly is for connecting the second plate and the first folding wing within the storage chamber so as to seal the storage port; The second safety inspection part is for connecting the part of the first plate adjacent to the storage port and the part of the second plate adjacent to the storage port, and the second safety inspection part is connected to the second plate so that the storage port can be opened. The second safety inspection part is for cutting the connection with the first folding wing that has entered the storage chamber, or the second safety inspection part is a part of the first plate adjacent to the storage opening so that the storage opening can be opened. and a portion of the second plate adjacent to the storage opening, the second self-adhesive assembly and the second safety inspection part are sequentially arranged in a predetermined direction, the predetermined direction being aligned with the first setting axis. It is placed at an angle with.

Optionally, the storage device further includes a first digital encoding member provided on at least one of both the first plate and the second plate.

Optionally, the first digital encoding member includes at least one of both a machine-readable optical volume label assembly and a radio frequency chip.

Optionally, the first digital encoding member includes a machine-readable optical volume label assembly, the machine-readable optical volume label assembly is provided on the second plate, and the number of machine-readable optical volume label assemblies is equal to the number of the first security features. The first safety management mechanism and the machine-readable optical volume label are provided in one-to-one correspondence when the first folding wing abuts the second plate.

Optionally, the storage device further includes a third safety management mechanism, and a second folding wing is connected to the second plate, and the second folding wing abuts a surface of the first plate to open the storage opening. the second folding wing is for rotation about a second set axis relative to the second plate so as to seal or open, or the second folding wing is for entering into the storage chamber from the storage opening. , for rotating around the second setting axis with respect to the second plate, and the third safety management mechanism is such that the second folding wing contacts the surface of the first plate and closes the storage opening. This is for connecting the second folding wing and the first plate when sealing.

Optionally, the third safety management mechanism includes a third self-adhesive assembly and a third safety inspection part, the third self-adhesive assembly is provided on the second folding wing or the first plate, and the third self-adhesive assembly is provided on the second folding wing or the first plate, and a safety inspection part is provided on the second folding wing, and the third self-adhesive assembly is configured to seal the storage opening when the second folding wing abuts the surface of the first plate; The third safety inspection part is for connecting the second folding wing and the first plate, and the third safety inspection part is for connecting the second folding wing and the first plate so that the storage opening can be opened. The third self-adhesive assembly and the third safety inspection part are sequentially arranged in a predetermined direction, and the predetermined direction is provided at an angle with the second set axis.

Optionally, the storage device further includes external hardware, the external hardware including a third plate and a fourth plate connected to each other, the third plate being connected to one of both the first plate and the second plate. The fourth plate may be connected to the third plate about the third set axis so as to abut the surface of the other of both the first plate and the second plate to seal or open the storage opening. It can be rotated against.

Optionally, the fourth plate is provided with a fourth safety management mechanism, and the fourth safety management mechanism is for connecting the fourth plate with the first plate or the second plate that the fourth plate abuts. .

Optionally, the fourth safety management mechanism includes a fourth self-adhesive assembly and a fourth safety inspection part, the fourth self-adhesive assembly is connected to the fourth plate via the fourth safety inspection part, and the fourth self-adhesive assembly is connected to the fourth plate via the fourth safety inspection part, The adhesive assembly is for connecting the first plate or the second plate that the fourth plate abuts with the fourth plate so as to seal the storage opening, and the fourth safety inspection part is for sealing the storage opening. The fourth self-adhesive assembly and the fourth safety inspection part are arranged in a predetermined direction to cut the connection between the first plate or the second plate and the fourth plate that the fourth plate abuts so that the fourth plate can be opened. The predetermined direction is arranged at an angle with the third setting axis.

Optionally, the external hardware further includes a second digital encoding member provided on at least one of both the third plate and the fourth plate.

Optionally, the second digital encoding member includes at least one of both a machine-readable optical volume label assembly and a radio frequency chip.

In a second aspect, the present application provides external hardware for mounting on a storage body, comprising a third plate and a fourth plate connected to each other, the third plate for connecting to the storage body. , the fourth plate is provided with a fourth safety control mechanism, and the fourth plate is configured to rotate relative to the third plate around a third set axis to seal or open the storage port of the storage body. , the fourth safety management mechanism includes a fourth self-adhesive assembly and a fourth safety inspection part, the fourth self-adhesive assembly is connected to the fourth plate via the fourth safety inspection part, and the fourth self-adhesive assembly is connected to the fourth plate through the fourth safety inspection part; The assembly is for connecting the fourth plate and the storage body so as to seal the storage opening, and the fourth safety inspection part is for connecting the fourth plate and the storage body so as to open the storage opening. Provide external hardware to disconnect the

Optionally, the external hardware further includes a second digital encoding member provided on at least one of both the third plate and the fourth plate.

Optionally, the second digitally encoded member is at least one of both a machine-readable optical volume label assembly and a radio frequency chip.

Beneficial effects of the storage device of the present application include the following. The storage device of the present application includes a storage body, a first folding wing, and a first safety management mechanism, and the storage body includes a first plate and a second plate connected to each other, and the first plate and the second plate are arranged at a fold line. The storage body can be folded along the fold line to form a storage chamber, and when the first plate and the second plate are folded along the fold line, the storage body is provided with a storage opening that communicates with the storage chamber, and from the storage opening. An item can be stored within the storage chamber, and a first folding wing is connected to the first plate, the first folding wing being connected to the first plate about a first set axis until the storage opening is sealed or opened. or the first folding wing is for rotation about a first set axis relative to the first plate to enter the storage chamber from the storage opening; The management mechanism connects the first folding wing and the second plate so as to seal the storage port when the first folding wing contacts the surface of the second plate, or connects the storage port so as to open the storage port. The second plate is provided with a second safety management mechanism for disconnecting the first folding wing and the second plate, and the second safety management mechanism is configured to cut the connection between the first folding wing and the second plate. or the second safety management mechanism is for connecting the second plate and the first folding wing so as to seal the storage opening when the first folding wing enters the second plate. This is for connecting the portion of the first plate adjacent to the storage port and the portion of the second plate adjacent to the storage port so as to seal the storage port when abutting against the surface. In this way, the storage opening can be sealed by the first safety management mechanism or the second safety management mechanism, that is, one storage body can seal the storage opening more than once by the first safety management mechanism and the second safety management mechanism. It can be sealed, thereby extending the useful life of each containment device, allowing for reuse, and improving environmental friendliness.

Beneficial effects of the external hardware of this application include the following. The external hardware provided in this application can be provided on the storage body and used in combination with the storage body. The external hardware includes a third plate and a fourth plate connected to each other, and a fourth safety management mechanism provided on the fourth plate, the third plate being for connecting to the storage body, and a fourth safety management mechanism provided on the fourth plate. The management mechanism includes a fourth self-adhesive assembly and a fourth safety inspection section, the fourth self-adhesive assembly is connected to the fourth plate via the fourth safety inspection section, and the fourth self-adhesive assembly is connected to the storage port. The fourth safety inspection section is for connecting the fourth plate and the storage body so as to seal it, and the fourth safety inspection section disconnects the fourth plate and the storage body so that the storage opening can be opened. It is for. Thus, the external hardware can reseal the storage opening of the used storage body, thereby extending the service life of the storage body, allowing reuse of the storage body, and improving environmental friendliness.

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings used in the embodiments will be briefly described below. The following drawings merely illustrate some embodiments of the present application and should not be considered limiting in scope, and a person skilled in the art will be able to use these drawings without any creative effort. It is understood that other related drawings may be derived based on the drawings.
FIG. 3 is a schematic structural diagram of a storage device that does not include a second folding wing in an embodiment of the present application; FIG. 1 is a schematic structural diagram (Part 1) of a storage device in an embodiment of the present application. It is a structural schematic diagram (part 2) of the storage device in the Example of this application. FIG. 2 is a schematic structural diagram (part 1) of the storage device when the first folding wing contacts the second plate in the embodiment of the present application. FIG. 7 is a schematic structural diagram (part 2) of the storage device in the embodiment of the present application when the first folding wing contacts the second plate; FIG. 7 is a schematic structural diagram (part 3) of the storage device in the embodiment of the present application when the first folding wing contacts the second plate; FIG. 4 is a schematic structural diagram (No. 4) of the storage device when the first folding wing contacts the second plate in the embodiment of the present application. FIG. 6 is a schematic structural diagram of the storage device in the embodiment of the present application when the first folding wing is not in contact with the second plate. It is a structural schematic diagram of the test|inspection part main body in other Example of this application. FIG. 3 is a schematic structural diagram (part 1) of a storage device in another embodiment of the present application. FIG. 2 is a schematic structural diagram (Part 2) of a storage device in another embodiment of the present application. FIG. 3 is a schematic structural diagram of the storage device when the first folding wing enters the storage chamber in the embodiment of the present application; FIG. 2 is a schematic structural diagram (part 1) of a storage device including a second folding wing in an embodiment of the present application. FIG. 2 is a schematic structural diagram (Part 2) of a storage device including a second folding wing in an embodiment of the present application. FIG. 2 is a schematic structural diagram of external hardware in an embodiment of the present application. FIG. 3 is a schematic structural diagram in which external hardware is provided in the storage main body in an embodiment of the present application. It is a structural schematic diagram (part 3) of the storage device in the Example of this application. FIG. 6 is a schematic structural diagram of external hardware installed in the storage main body in another embodiment of the present application;

In order to make the objectives, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of 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. It should be understood that the described embodiments are only some, but not all, of the embodiments of the present application. In general, the assemblies of the embodiments of the present application described and illustrated in the drawings can be arranged and designed according to various arrangement schemes.

Accordingly, the detailed descriptions added below to the embodiments of the present application provided in the drawings are not intended to limit the scope of the present application claiming protection, but merely represent selective embodiments of the present application. do not have. Based on the embodiments in this application, all other embodiments that can be obtained by those skilled in the art without any creative efforts fall within the protection scope of this application.

Note that similar symbols and letters represent similar items in the following drawings, and therefore, if an item is defined in one drawing, there is no need to further define and interpret it in subsequent drawings. Should.

In the description of this application, it should be explained that the orientation or positional relationship indicated by the terms "inside", "outside", etc. is the orientation or positional relationship shown based on the drawings, or the orientation or positional relationship normally arranged when the applied product is used. or positional relationship, which is merely for the purpose of easily explaining the application and simplifying the description, and the described device or member always has a specific orientation, or is constructed or operated in a specific orientation. This is neither expressed nor implied, and should not be construed as limiting the present application. Further, the terms "first," "second," "third," etc. are used to describe the terms in a differentiated manner and should not be understood as indicating or implying relative importance.

In the description of this application, it should be further explained that, unless explicitly defined or limited, the terms "provide" and "connect" should be understood in a broad sense, such as fixed connections, removable connections, etc. It may be an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection via an intermediate medium, or an internal communication between two members. Good too. Those skilled in the art can understand the specific meanings of the above terms in this application depending on the specific situation.

In this embodiment, unless otherwise specified, the term "predetermined direction" refers to the direction of the ab arrow in the figure.

This embodiment provides a storage device, such as an envelope, document pouch, etc., that can be used to store items such as letters, document files, etc. A detailed explanation will be given below using an envelope as an example.

Referring to FIGS. 1, 2, and 3, the storage device 010 includes a storage main body 100, and the storage main body 100 includes a first plate 110 and a second plate 120 that are connected to each other. 120 may be folded along a fold line (hereinafter referred to as a first fold line 132) to form a storage chamber 130, and the first plate 110 and the second plate 120 may be folded along a first fold line 132. At this time, the storage body 100 has a storage port 131 connected to the storage chamber 130 , and when an article is stored in the storage device 010 , the article is inserted into the storage chamber 130 through the storage port 131 .

It should be noted that the connection method of the first plate 110 and the second plate 120 can be selected according to needs, and the connection methods of the first plate 110 and the second plate 120 described below are only a few. These are merely listed, and the specific connection methods are not limited to these.

Optionally, referring to FIG. 1, the first plate 110 and the second plate 120 are integrally formed plate-like structures, and have a first fold line 132 between the first plate 110 and the second plate 120. The first plate 110 and the second plate 120 are then folded along a first fold line 132 to form a storage chamber 130 between the first plate 110 and the second plate 120. One end away from the first fold line 132 and one end of the second plate 120 apart from the first fold line 132 form a storage opening 131 .

Alternatively, the storage body 100 may be manufactured using a hard plate material, such as cardboard or a plastic plate, that is, the first plate 110 and the second plate 120 may be manufactured using a hard plate material. I can do it.

Optionally, still referring to FIG. 1, a side wing 121 is connected to at least one side of the first plate 110 in the extending direction of the first fold line 132, and the side wing 121 is folded against the first plate 110 to form the first plate 110. 2 plates 120. Alternatively, side wings 121 are connected to both sides of the first plate 110 in the extending direction of the first fold line 132, and both sides of the first plate 110 are connected to the second plate 120 through two side wings 121, respectively. Connect to.

Optionally, the first plate 110 and the side wing 121 are integrally molded, and have a second fold line 133 between the side wing 121 and the first plate 110, and the side wing 121 is connected to the first plate along the second fold line 133. 110, it can come into contact with the surface of the second plate 120. The method of connecting the side wings 121 and the second plate 120 may be by adhesive or by a fastener such as a staple, and is not specifically limited here.

Alternatively, the first plate 110 and the side wings 121 may be connected by adhesive or by a fastener such as a staple, but are not specifically limited here.

Optionally, the first plate 110 and the second plate 120 are connected by adhesive. The first end of the first plate 110 and the second plate are arranged such that the first plate 110 and the second plate 120 are stacked and a storage chamber 130 is formed between the first plate 110 and the second plate 120. The first ends of the first plates 120 are connected to each other by adhesive, and the second ends of the first plate 110 and the second plate 120 form a storage opening 131 .

Naturally, in other embodiments, the side wings 121 are not connected to the first plate 110, and both sides of the first plate 110 and both sides of the second plate 120 are paired in the extending direction of the first fold line 132. The connection method may be an adhesive connection, a fastener such as a staple, etc., and is not specifically limited here.

Alternatively, the first plate 110 and the second plate 120 are connected by a fastener such as a staple, the first plate 110 and the second plate 120 are stacked, and the first plate 110 and the second plate 120 are A first end of the first plate 110 and a first end of the second plate 120 are connected by a fastener, such as a staple, such that a storage chamber 130 is formed between the second end of the first plate 110 and the second end of the second plate 120. The second end of the plate 120 forms a storage opening 131 .

1, 2 and 3, the storage device 010 further includes a first folding wing 200, the first plate 110 is connected to the first folding wing 200, and the first plate 110 and the second plate 120 are connected to the first folding wing 200. When folded along the first fold line 132, the first folding wing 200 is aligned with the first set axis relative to the first plate 110 so as to abut the surface of the second plate 120 and seal the storage opening 131. 141 , or the first folding wing 200 rotates about the first set axis 141 relative to the first plate 110 such that it enters the storage chamber 130 through the storage opening 131 . It is for. The storage device 010 further includes at least one first safety management mechanism 210, and the first safety management mechanism 210 is configured such that when the first folding wing 200 contacts the surface of the second plate 120 and seals the storage opening 131, It is for connecting the first folding wing 200 and the second plate 120, that is, the first folding wing 200 is used to seal the storage port 131 or to open the storage port 131. This is for cutting the connection between the first folding wing 200 and the second plate 120. Thus, when an article is placed in the storage chamber 130 and stored in the storage device 010, the first folding wing 200 is sandwiched between the second plate 120 and the article, or the first folding wing 200 is sandwiched between the first plate 110 and the article. The first folding wing 200 can be inserted into the storage chamber 130 so as to be sandwiched between the article, or the first folding wing 200 can be inserted into the storage chamber 130 so as to be sandwiched between the article and the second folding wing 200 . The first folding wing 200 is rotated around the first setting axis 141, and the first folding wing 200 and the second plate 120 are connected by the first safety management mechanism 210, and the articles placed in the storage chamber 130 are stored in the storage opening 131. Avoid falling involuntarily. When it is necessary to take out the article in the storage chamber 130 , and by cutting the connection between the first folding wing 200 and the second plate 120 by the first safety management mechanism 210 , the first folding wing 200 is removed from the storage opening 131 . It becomes possible to rotate around the first setting axis 141 so as to open the door.

It should be noted that the above-described first folding wing 200 rotates about the first setting axis 141 with respect to the first plate 110 so as to abut the surface of the second plate 120 and seal the storage opening 131. This means that the first folding wing 200 is attached to the first plate 110 such that the first folding wing 200 contacts the surface of the second plate 120 that is separated from the first plate 110 and seals the storage opening 131. This means that it is for rotating around the first setting axis 141.

By bringing the first folding wing 200 into contact with the surface of the second plate 120 and connecting the first folding wing 200 and the second plate 120 by the first safety management mechanism 210, the first folding wing 200 is connected to the second plate 120. The stability of the first folding wing 200 when abutting the storage opening 131 is improved, and it is ensured that the first folding wing 200 can reliably seal the storage opening 131, which effectively improves the reliability of article storage.

Referring to FIGS. 1 and 2, a second safety management mechanism 220 is provided on the second plate 120, and when the first folding wing 200 enters the storage chamber 130, the second safety management mechanism 220 This is for connecting the second plate 120 and the first folding wing 200 so as to seal the same. By doing this, when it is necessary to store articles in the storage device 010 and seal the storage opening 131, the first safety management mechanism 210 or the second safety management mechanism 220 can be selected and used as necessary. Thus, the storage port 131 can be sealed.

In this embodiment, when it is necessary to store an article in the storage device 010 for the first time and seal the storage opening 131, the first folding wing 200 is clamped between the second plate 120 and the article in the storage chamber 130. As shown in FIG. By connecting the two, the storage opening 131 is jointly sealed by the second plate 120 and the first folding wing 200. When it is necessary to take out the article, the second safety management mechanism 220 can be broken to disconnect the first folding wing 200 and the second plate 120, and the first folding wing 200 can be rotated in the opposite direction. If the first folding wing 200 is taken out from inside the storage chamber 130, the article inside the storage chamber 130 can be taken out from the storage opening 131. When it is necessary to store the article in the storage device 010 for the second time and seal the storage opening 131, the first folding wing 200 can be rotated in the forward direction to abut against the surface of the second plate 120, and the first By connecting the first folding wing 200 and the second plate 120 by the first safety management mechanism 210, the storage opening 131 is sealed by the first folding wing 200. When it is necessary to take out the article, the first safety management mechanism 210 can be broken to disconnect the first folding wing 200 and the second plate 120, and the first folding wing 200 can be rotated in the opposite direction. If so, the storage port 131 can be opened and the article inside the storage chamber 130 can be taken out from the storage port 131.

Optionally, in another embodiment, when it is necessary to store articles in the storage device 010 for the first time and seal the storage opening 131, the first folding wing 200 is rotated in the forward direction to close the surface of the second plate 120. By connecting the first folding wing 200 and the second plate 120 by the first safety management mechanism 210, the storage opening 131 is sealed by the first folding wing 200. When it is necessary to take out the article, the first safety management mechanism 210 can be broken to disconnect the first folding wing 200 and the second plate 120, and the first folding wing 200 can be rotated in the opposite direction. If so, the storage port 131 can be opened and the article inside the storage chamber 130 can be taken out from the storage port 131. When it is necessary to store the article in the storage device 010 for the second time and seal the storage port 131, the first folding wing 200 is sandwiched between the second plate 120 and the article in the storage chamber 130. , the first folding wing 200 can be inserted into the storage chamber 130 through the storage opening 131 by rotating in the forward direction, and the first folding wing 200 and the second plate 120 are connected by the second safety management mechanism 220. Thus, the storage opening 131 is jointly sealed by the second plate 120 and the first folding wing 200. When it is necessary to take out the article, the second safety management mechanism 220 can be broken to disconnect the first folding wing 200 and the second plate 120, and the first folding wing 200 can be rotated in the opposite direction. If the first folding wing 200 is taken out from inside the storage chamber 130, the article inside the storage chamber 130 can be taken out from the storage opening 131.

Envelopes provided in the related art usually require a structure for adhesion to be provided in the storage opening 131 of the envelope so that the storage opening 131 of the envelope is sealed by adhesive. When opening the envelope, it is necessary to cut the edge of the envelope with a knife or tear the envelope forcefully to remove the items stored inside the envelope, and after each envelope is opened and the item is removed, it is glued again. Since there is no structure for sealing the storage opening 131, the envelopes provided in the related art have a short service life, are difficult to reuse once opened, and are bad for the environment. In the storage device 010 provided in the present application, the storage port 131 can be sealed by the first safety management mechanism 210 or the second safety management mechanism 220. The storage opening 131 can be sealed at least twice by the second safety management mechanism 220, thereby extending the service life of each storage device 010, enabling reuse, and improving environmental friendliness.

Optionally, in another embodiment, the second safety management mechanism 220 is configured to seal the storage opening 131 when the first folding wing 200 contacts the surface of the second plate 120. This is for connecting a portion of the second plate 120 adjacent to the storage port 131 to a portion of the second plate 120 adjacent to the storage port 131. By doing so, when it is necessary to store the article for the first time and seal the storage port 131, the first safety management mechanism 210 seals the storage port 131, and the second time it is necessary to store the article and seal the storage port 131. 131, the storage opening 131 can be sealed by the second safety management mechanism 220, or when it is necessary to store the article for the first time and sealing the storage opening 131, the second safety management mechanism 220 can seal the storage opening 131. The storage opening 131 is sealed by the safety management mechanism 220, and when the article is stored for the second time and the storage opening 131 needs to be sealed, the storage opening 131 can be sealed by the first safety management mechanism 210. . This also ensures that the storage device 010 can store items at least twice, thereby extending the service life of the storage device 010, enabling reuse, and improving environmental friendliness.

The number of first safety management mechanisms 210 can be selected as required, and the greater the number of first safety management mechanisms 210, the more times the storage device 010 can be reused. Referring to FIG. 2, in this embodiment, the storage device 010 includes three sets of first safety management mechanisms 210. By doing this, the number of times the storage device 010 stores the article and seals the storage port 131 is four times, and one of the safe storages is performed by the second safety management mechanism 220 using the second plate. 120 and the first folding wing 200 and sealing the storage port 131. The other three safe storages are realized by connecting the first safety management mechanism 210 to the second plate 120 and the first folding wing 200. This is realized by connecting the storage port 131 and sealing the storage port 131. Naturally, in other embodiments, the number of first safety management mechanisms 210 may be one (as shown in FIG. 1), two, four, etc., and is not specifically limited here.

It should be noted that in other embodiments, the second plate 120 is not provided with the second safety management mechanism 220, and the storage device 010 has at least It includes two sets of first safety management mechanisms 210, and each time an article is stored in the storage device 010 and the storage opening 131 is sealed, one set of the first safety management mechanisms 210 closes the first folding wing 200 and the second plate. 120 to achieve sealing of the storage port 131.

Referring to FIG. 2, the first safety management mechanism 210 of this embodiment includes a first self-adhesive assembly 211 and a first safety inspection part 212, the first safety inspection part 212 is provided on the first folding wing 200, A first self-adhesive assembly 211 is installed on the first folding wing 200 through a first safety inspection part 212 . The first self-adhesive assembly 211 is for connecting the first folding wing 200 and the second plate 120 to seal the storage opening 131. The first safety inspection part 212 is for disconnecting the first folding wing 200 and the second plate 120 so that the storage port 131 can be opened. The first self-adhesive assembly 211 and the first safety inspection part 212 are sequentially arranged in a predetermined direction, and the predetermined direction is provided at an angle with the first setting axis 141 . By doing this, when it is necessary to open the storage opening 131 by rotating the first folding wing 200 connected to the second plate 120, the first folding wing 200 connected to the second plate 120 can be opened by simply destroying the structure of the first safety inspection part 212. The connection between the wing 200 and the second plate 120 can be severed, so that the first folding wing 200 can freely rotate around the first set axis 141 until the storage opening 131 is opened; Furthermore, since the structure of the storage body 100 is not damaged, the storage body 100 can be reused to store articles next time as well.

It is understood that in other embodiments, the first self-adhesive assembly 211 is provided on the second plate 120 and the first safety inspection part 212 is provided on the first folding wing 200. The first self-adhesive assembly 211 connects the first folding wing 200 and the second plate 120 so as to seal the storage opening 131 when the first folding wing 200 abuts the surface of the second plate 120. That is, when the first folding wing 200 contacts the surface of the second plate 120, the first self-adhesive assembly 211 is attached to the first folding wing 200 through the first safety inspection part 212. Connected. The first safety inspection part 212 is for disconnecting the first folding wing 200 and the second plate 120 so that the storage port 131 can be opened. By doing this, when it is necessary to open the storage opening 131 by rotating the first folding wing 200 connected to the second plate 120, the first folding wing 200 connected to the second plate 120 can be opened by simply destroying the structure of the first safety inspection part 212. The connection between the wing 200 and the second plate 120 can be severed, and the first folding wing 200 can freely rotate around the first set axis 141 until the storage opening 131 is opened, and Since the structure of the storage body 100 is not damaged, the storage body 100 can be reused to store articles next time as well.

It should be noted that the predetermined direction in this embodiment is perpendicular to the first setting axis 141, that is, the angle between the predetermined direction and the first setting axis 141 is 90°. Naturally, in other embodiments, the angle between the predetermined direction and the first setting axis 141 may be 88°, 93°, etc., and is not specifically limited here.

It should be explained that when the number of first safety management mechanisms 210 is two or more, all the first safety management mechanisms 210 are arranged in order in a predetermined direction, and one of the first safety management mechanisms 210 is The first safety inspection section 212 that is closest to the first setting axis 141 is directly connected to the first folding wing 200, and the first safety inspection section 212 of the remaining first safety management mechanism 210 is connected directly to the first folding wing 200. 1 is provided to the first folding wing 200 via a first safety inspection section 212 of another first safety management mechanism 210 that is closer to the first setting axis 141 . For example, the three sets of first safety management mechanisms 210 in this embodiment are numbered 1, 2, and 3 in order from the set farthest to the set closest to the first setting axis 141, and the first safety management mechanism 210 of No. 3 The first safety inspection section 212 of the first safety management mechanism 210 of No. 2 is directly connected to the first folding wing 200, and the first safety inspection section 212 of the first safety management mechanism 210 of No. 3 is directly connected to the first safety inspection section 212 of the first safety management mechanism 210 of No. 3. 212 to the first folding wing 200, and the first safety inspection section 212 of the first safety management mechanism 210 of No. 1 is connected to the first safety inspection section 212 of the first safety management mechanism 210 of No. 2. 1 is connected to the folding wing 200. The order of connecting the first folding wing 200 and the second plate 120 in the first safety management mechanism 210 is to first use the first safety management mechanism 210 furthest from the first setting axis 141, and then to connect the first folding wing 200 and the second plate 120. The next first safety management mechanism 210 that is relatively close to 141 may be sequentially used. In this way, when the first safety inspection part 212 of the first safety management mechanism 210 is destroyed and the connection between the first folding wing 200 and the second plate 120 is cut, damage to the next first safety management mechanism 210 is avoided. This ensures that there are still other undestroyed first security mechanisms 210 to reuse the enclosure 010. Referring to FIGS. 4 to 8, for example, the storage device 010 of this embodiment uses three sets of first safety management mechanisms 210, first using the first safety management mechanism 210, then using the second safety management mechanism 210. The first safety management mechanism 210 of No. 3 is used, and finally the first safety management mechanism 210 of No. 3 is used in order. In this way, even after the first safety management mechanism 210 of No. 1 is used and the first safety inspection section 212 of the first safety management mechanism 210 of No. 1 is destroyed, the first safety management mechanism 210 of No. 2 and the first safety management mechanism 210 of No. 3 Since the first security mechanism 210 of the storage device 010 is intact, the storage device 010 can be continuously reused.

Referring to FIG. 2, the first self-adhesive assembly 211 of the present embodiment includes a self-adhesive tape 214 and a protective layer 215 that removably covers the self-adhesive tape 214 and separates from the protective layer 215 of the self-adhesive tape 214. The side is glued to the first safety inspection part 212, the first safety inspection part 212 is connected to the first folding wing 200, the self-adhesive tape 214 and the protective layer 215 covering the self-adhesive tape 214 are attached to the first safety inspection part 212. The first folding wing 200 is provided through the first folding wing 200 . Peel off the protective layer 215 when the first folding wing 200 abuts the surface of the second plate 120 and it is necessary to connect the first folding wing 200 and the second plate 120 by the first self-adhesive assembly 211. The first folding wing 200 and the second plate 120 can be connected by bonding the self-adhesive tape 214 to the second plate 120 on the side facing away from the first safety inspection part 212. By destroying the first safety inspection part 212, the connection between the first folding wing 200 and the second plate 120 can be cut, and the first folding wing 200 can freely rotate around the first set axis 141. Become. The protective layer 215 is provided on the first safety inspection part 212 of the self-adhesive tape 214 to protect the self-adhesive tape 214 when there is no need to adhere the first folding wing 200 and the second plate 120 with the self-adhesive tape 214. Can be used to cover the side facing away from the

Optionally, in another embodiment, the side of the self-adhesive tape 214 facing away from the protective layer 215 is adhered to the surface of the second plate 120, and the first safety check part 212 is connected to the first folding wing 200. Peeling off the protective layer 215 when the first folding wing 200 abuts the surface of the second plate 120 and the first self-adhesive assembly 211 needs to connect the first folding wing 200 and the second plate 120; Then, by connecting the side of the self-adhesive tape 214 away from the second plate 120 and the first safety inspection part 212, the first folding wing 200 and the second plate 120 can be connected. By destroying the first safety inspection part 212, the connection between the first folding wing 200 and the second plate 120 can be cut, and the first folding wing 200 can freely rotate around the first set axis 141. Become.

Referring to FIG. 2, the first safety inspection section 212 of this embodiment includes an inspection section main body 216 and a connection section 217, the self-adhesive tape 214 is connected to the connection section 217, and the inspection section main body 216 is connected to the connection section 217 and the connection section 217. This is for connecting the first folding wing 200. The inspection unit body 216 of the first safety inspection unit 212 that is closest to the first setting axis 141 is directly connected to the first folding wing 200, and the inspection unit body 216 of the first safety inspection unit 212 that is farther from the first setting axis 141 is directly connected to the first folding wing 200. It is connected to the first folding wing 200 through the connection part 217 of the previous first safety inspection part 212 which is closer to the first setting axis 141, and the first safety of the first safety management mechanism 210 of No. 3 of this embodiment is The inspection unit main body 216 of the inspection unit 212 is directly connected to the first folding wing 200, and the inspection unit main body 216 of the first safety inspection unit 212 of the first safety management mechanism 210 of No. 2 is connected to the first safety management mechanism 210 of No. 3. The inspection section main body 216 of the first safety inspection section 212 of the first safety management mechanism 210 of No. 1 is connected to the connection section 217 of the first safety inspection section 212 of No. The first safety inspection sections 212 of the other number of first safety management mechanisms 210 connected to the connection section 217 of the inspection section 212 are provided in the same manner as in this embodiment, so a detailed explanation will be omitted here.

Optionally, the self-adhesive tape 214 adhered to the connection part 217 and the test part body 216 are distributed at intervals in a predetermined direction. By doing this, when connecting the first folding wing 200 and the second plate 120 with the self-adhesive tape 214, the structure of the inspection section main body 216 is individually destroyed, and the first folding wing 200 and the second plate 120 becomes easier, thereby reliably avoiding damage to the structure of the storage body 100 and allowing reuse of the storage body 100.

Alternatively, the distance between the self-adhesive tape 214 adhered to the connection part 217 and the inspection part body 216 may be 1 mm, 1.5 mm, 1.2 mm, etc., and is not specifically limited here.

Optionally, referring to FIG. 9, the test part body 216 is a connecting strip, and the connection between the connecting strip and the connecting part 217 and/or the first folding wing 200 is a broken connection. Taking a broken connection between the connecting strip and the connecting part 217 as an example, a broken connection means that there is a gap between the connecting part of the connecting strip and the connecting part 217 in the longitudinal direction of the first setting axis 141. It has a plurality of through holes or apertures in which no connections are formed evenly distributed, that is, the connection between the connection strip and the connection part 217 is not a complete connection along the extending direction of the connection parts. By using a broken connection, the connection strip and the connection 217 can be easily disconnected by the action of an external force.

An example in which the first folding wing 200 of this embodiment is provided with three sets of first safety management mechanisms 210 will be described. In this embodiment, the connection between one side of the inspection unit main body 216 of the first safety management mechanism 210 of No. 3 and the first folding wing 200 is a broken connection, and the inspection unit main body of the first safety management mechanism 210 of No. 3 is a broken connection. The connection between the other side of 216 and the connecting portion 217 of the first safety management mechanism 210 of No. 3 is a broken connection. In this way, the connection strip, which is the inspection part main body 216, is torn by external force, so that both the connection part 217 of the first folding wing 200 and the first safety management mechanism 210 of No. 3 are easily disconnected. The connection between the first folding wing 200 and the connecting portion 217 and the first self-adhesive assembly 211 adhered to the connecting portion 217 is severed. If the first self-adhesive assembly 211 is also glued to the second plate 120 at the same time, the test part body 216 will be connected to the first folding wing 200 when both the first folding wing 200 and the connection part 217 are disconnected. The connection with the second plate 120 is also disconnected. Similarly, the connection between one side of the inspection unit main body 216 of the first safety management mechanism 210 of No. 2 and the connection part 217 of the first safety management mechanism 210 of No. 3 is a broken connection, and The connection between the other side of the inspection unit main body 216 of the management mechanism 210 and the connection part 217 of the first safety management mechanism 210 of No. 2 is a broken connection, and the connection of the inspection unit main body 216 of the first safety management mechanism 210 of No. 1 is a broken connection. The connection between one side and the connection part 217 of the first safety management mechanism 210 of No. 2 is a broken connection, and the other side of the inspection section main body 216 of the first safety management mechanism 210 of No. 1 and the first safety The connection between the management mechanism 210 and the connection unit 217 is a broken connection. The operating principle of the inspection unit main body 216 of the first safety management mechanism 210 of Nos. 1 and 2 is the same as the operating principle of the inspection unit main body 216 of the first safety management mechanism 210 of No. 3, and detailed explanation is omitted here. do.

Optionally, the connecting strip, which is the test part body 216, may be serrated so that if no external force is applied to the test part body 216 that would tear the test part body 216, the test part body 216 will inadvertently break into the connection part 217 or the first While it is possible to avoid disconnection from the folding wing 200, the test section main body 216 is likely to be torn apart by the action of an external force until it is disconnected from the first folding wing 200 or the connection part 217.

Optionally, the connecting strip, which is the test section body 216, is provided with a serrated break point section, so that the test section body 216 can be broken from the serrated break point section under the action of an external force, and the test section body 216 The connection between the terminal and the connecting portion 217 can be cut off. Referring to FIG. 9, the inspection section main body 216 of the first safety management mechanism 210 of No. 1 is explained as an example. The inspection section main body 216 is provided with a plurality of serrated breaking point parts, and the plurality of serrated breaking points are provided in the longitudinal direction of the first setting axis 141. The break point portions are sequentially spaced apart.

Optionally, with continued reference to FIG. 9, the test part body 216 is a connecting strip, and the connecting strip is connected to the connecting part 217 and/or the first folding wing 200. Taking the inspection part main body 216 of the first safety management mechanism 210 of No. 2 as an example, both sides of the connection strip are connected to the connection part 217 of the first safety management mechanism 210 of No. 3 and the first safety management mechanism 210 of No. 2, respectively. Connected to the connection part 217, two rows of through-hole groups 218 are opened in the connection strip, and each row of the through-hole groups 218 is sequentially spaced from each other in the longitudinal direction of the first setting axis 141. Contains multiple through holes.

Optionally, the connection between the inspection section main body 216 and the connecting section 217 is integrally molded, and the connection between the inspection section main body 216 and the first folding wing 200 is also integrally molded, and the inside of the through hole group 218 provided in the inspection section main body 216 is The through hole may be formed by die-cutting, punching, etc., or an unconnected break point may be formed by die-cutting or punching at the connecting portion between the inspection section main body 216 and the connecting section 217. , is not specifically limited here.

Optionally, with continued reference to FIG. 9, the test section body 216 is a tensile strip, which is connected to the connection section 217 and/or the first folding wing 200. Taking the inspection part main body 216 of the first safety management mechanism 210 of No. 3 as an example, both sides of the tension strip are connected to the first folding wing 200 and the connection part 217 of the first safety management mechanism 210 of No. 3, respectively, and the tension strip is The length extension direction of the strip coincides with the extension direction of the first setting axis 141, and when the tension strip is torn by an external force, the tension strip can disconnect both the connection part 217 and the first folding wing 200. can.

It should be noted that the test section body 216, regardless of whether the test section body 216 employs a break point connection, is provided with through holes 218, or uses a tensile strip as the test section body 216; When it is necessary to destroy the structure of the inspection section body 216 to disconnect the first folding wing 200 and the second plate 120, the structure of the inspection section main body 216 can be easily destroyed without using a knife, and Not destroying the structure of the storage body 100 and the structure of the unused first safety management mechanism 210 effectively ensures that the storage device 010 can be reused.

It should be noted that when using the retracting device 010 and abutting the first folding wing 200 against the second plate 120 and connecting the first folding wing 200 and the second plate 120 with the self-adhesive tape 214, the retracting In order to open the mouth 131 and take out the article, the structure of the inspection section main body 216 is destroyed and the connection between the first folding wing 200 and the second plate 120 is cut, so that the first folding wing 200 is aligned with the first set axis. In addition, before destroying the structure of the inspection section main body 216, the structure of the inspection section main body 216 is visually inspected to see if it has been destroyed, and the storage device 010 It is also possible to ensure the reliability and safety of the items stored in the inspection unit body 216 if the structure of the inspection unit main body 216 is destroyed before it becomes necessary to disconnect the first folding wing 200 and the second plate 120. , the structure of the inspection section main body 216 is destroyed before it is determined that the articles stored in the storage device 010 are not stored safely and the connection between the first folding wing 200 and the second plate 120 needs to be cut. If not, it is determined that the items 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 biasing part 213, the biasing part 213 is connected to the first safety inspection part 212, and the biasing part 213 is connected to the first folding wing. This is for driving the first safety inspection section 212 by the action of an external force so as to disconnect the second plate 120 from the first safety inspection section 200 . When the first folding wing 200 abuts the second plate 120 and the first self-adhesive assembly 211 connects the first folding wing 200 and the second plate 120, applying an external force to the biasing part 213 causes the The structure of the first safety inspection part 212 can be destroyed and the connection between the first folding wing 200 and the second plate 120 can be cut, resulting in a labor-saving effect.

The biasing section 213 is provided at one end of the first safety inspection section 212 in the extending direction of the first setting axis 141 . Of course, in other embodiments, the biasing parts 213 are provided at both ends of the first safety inspection part 212 in the extending direction of the first setting axis 141.

Optionally, the biasing part 213 and the test part body 216 are integrally molded. By doing this, it is possible to ensure the stability of the connection between the biasing section 213 and the inspection section main body 216, and even when external force is applied to the biasing section 213, the biasing section 213 and the inspection section main body 216 can be connected to each other. 216, thereby making it possible to apply an external force to the urging section 213 to peel off the inspection section main body 216, thereby cutting the connection between the first folding wing 200 and the second plate 120. Naturally, in other embodiments, the connection between the biasing section 213 and the inspection section main body 216 may be made by using an adhesive, or by using a fastener such as a staple. Not limited to.

Optionally, referring to FIGS. 2 and 3, the storage device 010 further includes an insertion assembly (hereinafter referred to as a first insertion assembly 230), and the first insertion assemblies 230 are inserted and engaged with each other. one of the slot 233 and the latch 232 is provided in the first safety management mechanism 210 and the other of both the slot 233 and the latch 232 is provided in the second plate 120. It will be done. The latch 232 may be inserted into the slot 233 so that when the first folding wing 200 contacts the second plate 120, the first folding wing 200 can contact the second plate 120 more stably. It should be explained that the storage device 010 is used for general storage, that is, there is no need to reliably seal the storage opening 131, and the first folding wing 200 and the second plate 120 are connected by the first safety management mechanism 210. If gluing is not required, the first folding wing 200 is rotated about the first set axis 141 so that the first folding wing 200 abuts the second plate 120 while the article is stored in the storage chamber 130. and the latch 232 can be inserted into the slot 233. Of course, even if it is necessary to bond the first folding wing 200 and the second plate 120, the latch 232 can be slotted to improve the stability of the connection between the first folding wing 200 and the second plate 120. 233.

It is understood that the first insertion assembly 230 is not a required assembly, that is, the storage device 010 may not include the first insertion assembly 230 if desired.

The latch 232 of this embodiment is connected to the first safety management mechanism 210 such that it is connected to the first folding wing 200 via the first safety management mechanism 210. A slot 233 is opened in the second plate 120. Of course, in other embodiments, the slot 233 may be opened in the first folding wing 200 or the first safety control mechanism 210, such as being provided in the first folding wing 200 via the first safety control mechanism 210. Often, the latch 232 is provided on the second plate 120.

Optionally, the number of first insertion assemblies 230 may be the same as the number of first security features 210 (as shown in FIG. 3) or may be different (as shown in FIG. 10). ). In this embodiment, the number of first insertion assemblies 230 is the same as the number of first safety management mechanisms 210, that is, the storage device 010 of this embodiment includes three sets of first insertion assemblies 230; The latches 232 of the sets of first insertion assemblies 230 and the three sets of first safety management mechanisms 210 are provided in one-to-one correspondence, and the slots 233 of the three sets of first insertion assemblies 230 are sequentially spaced apart in a predetermined direction. set aside.

Optionally, referring to FIGS. 2 and 3, the latch 232 of each set of first insertion assembly 230 is provided corresponding to the connection part 217 of the corresponding first safety management mechanism 210, that is, the latch 232 is The latch 232 is connected to the end of the connecting portion 217 and in the extending direction of the first setting axis 141 . By doing so, it is possible to prevent the first insertion assembly 230, the first self-adhesive assembly 211, and the first safety inspection part 212 from interfering with each other.

Optionally, latch 232 and connection 217 are integrally formed. In other embodiments, the connection between the latch 232 and the connecting portion 217 may be made using an adhesive or the like, and is not specifically limited here.

Optionally, the latch 232 can have various shapes as desired, as shown in FIG. be done. Alternatively, the latch 232 is an insertion piece 234, the insertion piece 234 is connected to the connection part 217, and two locking grooves 235 are provided at one end of the insertion piece 234 away from the connection part 217, and the two locking grooves 235 are They are distributed on both sides of the insertion piece 234 in a predetermined direction. The latch 232 includes an insertion piece 234 and a projection 236, the insertion piece 234 is connected to the connection part 217, the projection 236 is connected to one end of the insertion piece 234 remote from the connection part 217, and the projection 236 is connected to the first setting axis 141. Extending toward or away from each other.

Optionally, as shown in FIG. 11, the slot 233 may also have various shapes, such as rectangular, curved, pentagonal, etc., and is not specifically limited here.

Optionally, a latch 232 is connected to either end of the connecting portion 217 in the direction of extension of the first setting axis 141, and accordingly, each set of the first insertion assembly 230 has two slots 233. The two latches 232 can be inserted into and engaged with the two slots 233 in one-to-one correspondence. By doing so, the stability of the engagement between the first folding wing 200 and the second plate 120 by the first insertion assembly 230 can be increased.

Referring to FIG. 12, the second safety management mechanism 220 of this embodiment includes a second self-adhesive assembly 221 and a second safety inspection part 222, and the second self-adhesive assembly 221 is connected through the second safety inspection part 222. and a second self-adhesive assembly 221 is provided on the second plate 120 to connect the second plate 120 and the first folding wing 200 disposed within the storage chamber 130 to seal the storage opening 131. belongs to. The second safety inspection part 222 is for cutting the connection between the second plate 120 and the first folding wing 200 that has entered the storage chamber 130 so that the storage port 131 can be opened. The second self-adhesive assembly 221 and the second safety inspection part 222 are sequentially arranged in a predetermined direction. In this way, when the storage device 010 is used for the first time to carry out safety storage that requires sealing of the storage port 131, the storage port 131 can be sealed by the second self-adhesive assembly 221, that is, , the first folding wing 200 can be inserted into the storage chamber 130 such that the article is placed in the storage chamber 130 and the first folding wing 200 is sandwiched between the article and the second plate 120; The storage opening 131 can be sealed by bonding the second plate 120 and the first folding wing 200 using the second self-adhesive assembly 221 . When the second safety inspection part 222 is destroyed by an external force, the connection between the second plate 120 and the first folding wing 200 is cut, and the storage port 131 is formed between the first plate 110 and the second plate 120. , the item within the storage chamber 130 can be removed.

It should be noted that the second self-adhesive assembly 221 is for connecting the second plate 120 and the first folding wing 200 within the storage chamber 130 to seal the storage opening 131. That is, the second self-adhesive assembly 221 connects the second plate 120 to the first plate 110 via the first folding wing 200 within the storage chamber 130 to seal the storage port 131. may be considered to be for the purpose of When the second safety inspection part 222 is destroyed by external force, the connection between the second plate 120 and the first folding wing 200 is cut, and the storage port 131 between the first plate 110 and the second plate 120 is opened. I can do it.

It should be noted that when the storage device 010 performs general storage that does not require sealing of the storage opening 131, after the article is placed in the storage chamber 130, the first folding wing 200 separates the article from the second one. The first folding wing 200 may be inserted into the storage chamber 130 so as to be sandwiched between the first folding wing 200 and the plate 120 .

In this embodiment, the second self-adhesive assembly 221 is located between the second safety inspection part 222 and the storage opening 131. By doing so, the structure of the second safety inspection assembly is destroyed, the connection between the second plate 120 and the first folding wing 200 is severed, and the external When forming a new communicating storage port 131, the second self-adhesive assembly 221 is glued to the first folding wing 200, and the structure of the storage body 100 is not damaged, so that the storage body 100 can be reused for storing items. be able to.

In other embodiments, the first folding wing 200 is in contact with the surface of the second plate 120 and the second self-adhesive assembly 221 is attached to the storage opening of the first plate 110 to seal the storage opening 131. 131 and a portion of the second plate 120 adjacent to the storage port 131. It is understood that this is for cutting off the connection between the portion adjacent to the storage port 131 and the portion of the second plate 120 adjacent to the storage port 131. In this manner, the article is placed within the storage chamber 130 and the first folding wing 200 abuts the surface of the second plate 120 and is adjacent to the storage opening 131 of the first plate 110 by the second self-adhesive assembly 221. By adhering the portion of the second plate 120 adjacent to the storage port 131, the storage port 131 can be sealed.

It should be explained that the structure and operating principle of the second self-adhesive assembly 221 and the second safety inspection part 222 are similar to the first self-adhesive assembly 211 and the first safety inspection part 212, that is, The first safety management mechanism 210 and the second safety management mechanism 220 have the same structure and operating principle, and detailed description thereof will be omitted here.

Optionally, referring to FIG. 12, the storage device 010 further includes a first digital encoding member 240, the first digital encoding member 240 including at least one of both the first plate 110 and the second plate 120. established in The first digital encoding member 240 is for intelligent management of the storage device 010 and can be traced back, so for example, it can recognize and record who, when and where the storage device 010 was used. Safety management becomes possible. It is understood that the first digital encoding member 240 is not an essential member, and that the storage device 010 may not include the first digital encoding member 240 if necessary.

Optionally, first digital encoding member 240 includes at least one of both a machine-readable optical volume label assembly and a radio frequency chip 244. The machine-readable optical volume label assembly and radio frequency chip 244 can extract data with scanners and sensors, respectively, and transmit the extracted data to computing hardware for further data analysis, management, etc. be able to. The above calculation hardware may be a terminal such as a computer or a mobile phone, and is not specifically limited here. The machine-readable optical volume label assembly includes at least one of both a barcode 242 and a two-dimensional code 243 (Quick Response Code, QR Code).

In this embodiment, the first digital encoding member 240 includes a machine-readable optical volume label assembly (hereinafter referred to as a first machine-readable optical volume label assembly 271), and the first machine-readable optical volume label assembly 271 is connected to a second plate. 120 , the number of first machine-readable optical volume label assemblies 271 is the same as the number of first safety control mechanisms 210 , and when the first folding wing 200 abuts the second plate 120 , the first safety control mechanism The mechanism 210 and the machine-readable optical volume label are provided in one-to-one correspondence. In this way, in order to facilitate tracing, security management, etc. of the storage device 010, when each first safety management mechanism 210 is used, it is handled by the corresponding first machine-readable optical volume label assembly 271. information can be recorded.

Optionally, the first digital encoding member 240 further includes a second machine-readable optical volume label assembly 272 , which cooperates with the second security mechanism 220 . When the first folding wing 200 abuts the second plate 120, the second security mechanism 220 cooperates with the second machine-readable optical volume label assembly 272.

In this embodiment, with continued reference to FIG. 12, a second machine-readable optical volume label assembly 272 and a plurality of first machine-readable optical volume label assemblies 271 are sequentially spaced apart in a predetermined direction, and Optical volume label assembly 272 is closest to first set axis 141 . From the one closest to the first setting axis 141 to the one farthest from it, machine-readable optical volume label assemblies of No. 4, No. 3, No. 2, and No. 1 are defined in order, of which the machine-readable optical volume label assembly of No. 4 is the second machine-readable optical volume label assembly. The machine-readable optical volume label assembly 272 is a machine-readable optical volume label assembly 272, and No. 3, No. 2, and No. 1 are all the first machine-readable optical volume label assembly 271.

When the storage device 010 is used for safe storage to seal the storage port 131 for the first time, the first folding wing 200 is inserted into the storage chamber 130, and the second safety management mechanism 220 separates the first folding wing 200 and the second folding wing 200 from each other. When connecting with the plate 120, the machine-readable optical volume label assemblies No. 4, No. 3, No. 2, and No. 1 are all located on the side of the second plate 120 that is away from the first plate 110, that is, No. 4 , No. 3, No. 2, and No. 1 machine-readable optical volume label assemblies are all exposed to write the relevant information of the first secure storage to the No. 4 machine-readable optical volume label assembly. When reusing the storage device 010 for a second safe storage operation that requires sealing of the storage port 131, the first folding wing 200 is brought into contact with the surface of the second plate 120, as shown in FIG. The first folding wing 200 and the second plate 120 are connected by the first safety management mechanism 210 of No. 1, the machine-readable optical volume label assembly of No. 1 is unshielded, and the machine-readable optical volume label assembly of No. 4, No. 3, and No. The readable optical volume label assemblies are all shielded, and the No. 1 machine-readable optical volume label assembly writes the relevant information of the second secure storage to the No. 1 machine-readable optical volume label assembly. As shown in FIG. 5, after the second safe retraction, the first safety inspection part 212 of the first safety management mechanism 210 of No. 1 is destroyed and the connection between the first folding wing 200 and the second plate 120 is removed. The first self-adhesive assembly 211 can be peeled off from the second plate 120 for cutting and a third safety retraction requiring sealing of the retraction port 131 by the second first safety mechanism 210. . It should be explained that after the second safety retraction, the first safety inspection part 212 and the first self-adhesive assembly 211 of the first safety management mechanism 210 of No. 1 were all removed from the second plate 120; When performing the second secure storage, the No. 2 machine-readable optical volume label assembly can be exposed, so that the relevant information of the third secure storage can be written to the No. 2 machine-readable optical volume label assembly. The method of safe storage and information recording for the fourth time is the same as above, and detailed explanation will be omitted here.

Optionally, each of the first machine-readable optical volume label assembly 271 and the second machine-readable optical volume label assembly 272 both include a barcode 242 and a two-dimensional code 243, and in the extending direction of the first setting axis 141, A barcode 242 and a two-dimensional code 243 for each machine-readable optical volume label assembly are spaced apart from each other on the second plate 120 .

Continuing to refer to FIG. 12, the first digital encoding member 240 of this embodiment further includes a radio frequency chip 244, and the radio frequency chip 244 is provided at one end of the second plate 120 remote from the storage opening 131. Of course, in other embodiments, the radio frequency chip 244 may be provided on the first plate 110, or may be located directly within the storage chamber 130, or at a location close to the storage port 131 on the second plate 120. may be provided, and is not specifically limited here.

In other embodiments, the first digital encoding member 240 may include only one of the barcode 242, the two-dimensional code 243, and the radio frequency chip 244, or may include only one of the three. It is understood that combinations of any two may be included.

It should be noted that the machine-readable optical volume label assembly can be used to record postal information such as, for example, delivery address, shipping origin, sender contact information, recipient contact information, etc. It can also be used to record the number of times of use, etc., and is not specifically limited here.

It should be noted that the first digital encoding member 240 is used for the use process control and data collection of the storage device 010, and the use process control and data collection is performed according to ISO 9001 retrospective quality control implementation, e.g. control of operating conditions and processes, such as who used it, what for, where, and when it was used, and storage history for big data analysis, or carbon footprint calculation, greenhouse gas emissions, and compensation efficiency. may include environmental performance monitoring according to the ISO 14000 series, including: Compared to the conventional single-use containment device 010, the energy saving effect can be obtained by reusing the same containment chamber multiple times in this application, and this environmentally friendly performance can be quantified as a carbon equivalent (CO2e) value by conversion. I can do it.

It should be noted that the application for analyzing and monitoring data scanned or read from the first digitally encoded member 240 is similar to programs provided by the related art, and that the associated digitally encoded information is stored in the storage device. The data may be data provided by all users of the storage device 010, whereby usage behavior can be grasped through communication with the website of the provider of the storage device 010, and this also has retroactivity. It is possible to safely manage who uses the device, when and where. Or using a cloud server to implement ISO 9001, the service provider of the storage device 010 can also analyze the number of times the same storage device 010 is reused and other valuable information; for example, a logistics company can Tracking information may be provided for reference, but is not specifically limited here.

13 and 14, the storage device 010 of the present embodiment further includes a second folding wing 250, the second plate 120 is connected to the second folding wing 250, and the second folding wing 250 is connected to the first plate 110 to seal or open the storage opening 131, or the second folding wing 250 is for rotating about the second set axis 142 relative to the second plate 120 so as to abut the surface of the second plate 110 to seal or open the storage opening 131. It is for rotating around the second set axis 142 relative to the second plate 120 so as to enter the storage chamber 130 through the storage opening 131 . The second folding wing 250 is provided with at least one set of third safety management mechanism 260, and the third safety management mechanism 260 seals the storage opening 131 when the second folding wing 250 comes into contact with the surface of the first plate 110. This is for connecting the second folding wing 250 and the first plate 110 when stopped. By doing so, the number of times the storage device 010 is used can be further increased by the second folding wing 250 connected to the second plate 120 and the third safety management mechanism 260 provided in the second folding wing 250.

The second folding wing 250 is configured to rotate around the second set axis 142 with respect to the second plate 120 so as to contact the surface of the first plate 110 to seal or open the storage port 131. That is, the second folding wing 250 is aligned with the second set axis relative to the second plate 120 such that the second folding wing 250 contacts a surface of the first plate 110 that is separated from the second plate 120 to seal or open the storage opening 131. It means that it is for rotation around 142 degrees.

It should be explained that the method of using the storage device 010, in which the second folding wing 250 is connected to the second plate 120, for storing articles includes the following. The article is placed in the storage chamber 130 , the first folding wing 200 is placed in the storage chamber 130 such that the first folding wing 200 is located between the article and the second plate 120 , and then the second folding wing 250 is placed in the storage chamber 130 . The second folding wing 250 is placed within the storage chamber 130 such that the second folding wing 250 is located between the second plate 120 and the first folding wing 200 . Alternatively, a second folding wing 250 may be placed within the storage chamber 130, with the second folding wing 250 being located between the first plate 110 and the article, or between the second plate 120 and the article. Then, the first folding wing 200 is brought into contact with the side of the second plate 120 that is separated from the first plate 110, and the first folding wing 200 and the second plate 120 are bonded together by the first safety management mechanism 210. do.

Optionally, the third safety management mechanism 260 includes a third self-adhesive assembly 261 and a third safety inspection part 262, the third safety inspection part 262 is provided on the second folding wing 250, and the third self-adhesive assembly 261 is installed on the second folding wing 250 through a third safety inspection part 262, and the third self-adhesive assembly 261 is attached to the second folding wing 250 and the first plate 110 so as to seal the storage opening 131. It is for connecting. The third safety inspection part 262 is for disconnecting the second folding wing 250 and the first plate 110 so that the storage port 131 can be opened. The third self-adhesive assembly 261 and the third safety inspection part 262 are sequentially arranged in a predetermined direction, and the predetermined direction is provided at an angle with the second setting axis 142 .

Optionally, the second setting axis 142 and the first setting axis 141 extend in the same direction.

It should be noted that the structure of the second folding wing 250 is similar to the structure of the first folding wing 200, and detailed description thereof will be omitted here. The structure of the third self-adhesive assembly 261 and the third safety inspection part 262 and the manner in which the second folding wing 250 is provided are the same as the structure of the first self-adhesive assembly 211 and the first safety inspection part 212 and the first folding wing. 200, that is, the first safety management mechanism 210 and the third safety management mechanism 260 have the same structure and operating principle, and detailed description thereof will be omitted here.

Optionally, a third self-adhesive assembly 261 is provided on the first plate 110 , a third safety check part 262 is provided on the second folding wing 250 , and the third self-adhesive assembly 261 seals the storage opening 131 . This is for connecting the second folding wing 250 and the first plate 110 so that the second folding wing 250 and the first plate 110 are stopped. The third safety inspection part 262 is for disconnecting the second folding wing 250 and 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 assembly 261 is provided on the first plate 110 and the manner in which the third safety inspection part 262 is provided on the second folding wing 250 are similar to the manner in which the first self-adhesive assembly 211 is provided on the first plate 110 and the third safety inspection part 262 on the second folding wing 250, respectively. The method in which the first plate 110 is provided and the method in which the first safety inspection part 212 is provided in the first folding wing 200 are the same, and detailed description thereof will be omitted here.

The number of third safety management mechanisms 260 provided in the second folding wing 250 can be selected as required, and in this embodiment, there are three sets of third safety management mechanisms 260, and in other embodiments, one set is provided. , 2 sets, etc.

It should be noted that the first plate 110 of this embodiment is further provided with third machine-readable optical volume label assemblies 273, and the number of third machine-readable optical volume label assemblies 273 is equal to the number of third safety management mechanisms 260. The specific installation method, operating principle, etc. are all the same as the first machine-readable optical volume label assembly 271, and detailed description thereof will be omitted here.

Optionally, referring to FIG. 13, the storage device 010 further includes a second insertion assembly 231, the structure of the second insertion assembly 231 is similar to the first insertion assembly 230, and the second insertion assembly 231 includes a slot and a latch that are inserted into each other, one of the slot and the latch being provided on the second folding wing 250 and the other of the slot and the latch being provided on the first plate 110.

It should be noted that the specific structure, operating principle, and operation of the second insertion assembly 231 are all the same as those of the first insertion assembly 230, and detailed description thereof will be omitted here.

It is understood that in other embodiments, the storage device 010 may not be provided with the second folding wing 250.

Referring to FIGS. 15 and 16, the storage device 010 of the present embodiment further includes external hardware 300, and the external hardware 300 includes a third plate 310 and a fourth plate 320 that are connected to each other. can be connected to one of both the first plate 110 and the second plate 120, and the fourth plate 320 is in contact with the other surface of both the first plate 110 and the second plate 120. It can be rotated 311 relative to the third plate 310 about a third set axis to seal or open the storage port 131. By doing so, when the first safety management mechanism 210 and the second safety management mechanism 220 provided in each of the first folding wing 200 and the second folding wing 250 are used up, that is, become invalid, the external hardware 300 in the storage body 100, the storage opening 131 can be sealed by the external hardware 300, and the service life of the storage body 100 can be further extended. If a plurality of external hardware 300 are arranged in each storage device 010 and the first safety management mechanism 210, second safety management mechanism 220, and third safety management mechanism 260 of the storage device 010 are all disabled, it can be reused. The number of times depends on the number of external hardware 300.

A fourth safety management mechanism 330 is provided on the fourth plate 320, and the fourth safety management mechanism 330 is configured to connect the fourth plate 320 with the first plate 110 or the second plate 120 that the fourth plate 320 abuts. It is something. By doing so, the storage port 131 can be reliably sealed by the external hardware 300, and it is guaranteed that the storage main body 100 can be repeatedly used multiple times to ensure safe storage.

The fourth safety management mechanism 330 includes a fourth self-adhesive assembly 331 and a fourth safety inspection part 332, and the fourth self-adhesive assembly 331 is connected to the fourth plate 320 through the fourth safety inspection part 332. The fourth self-adhesive assembly 331 is for connecting the first plate 110 or the second plate 120 and the fourth plate 320, which the fourth plate 320 abuts, so as to seal the storage opening 131. The fourth safety inspection part 332 is for cutting the connection between the first plate 110 or the second plate 120 and the fourth plate 320 that the fourth plate 320 contacts so that the storage port 131 can be opened. The fourth self-adhesive assembly 331 and the fourth safety inspection part 332 are sequentially arranged in a predetermined direction, and the predetermined direction is provided at an angle with the third setting axis 311 .

As should be explained, the extending directions of the third setting axis 311 and the first setting axis 141 are the same.

Optionally, the third plate 310 is provided with a self-adhesive assembly, and the third plate 310 can be connected to the first plate 110 or the second plate 120 by the self-adhesive assembly. It should be noted that the structure of the self-adhesive assembly is similar to that of the first self-adhesive assembly 211, and detailed description will be omitted here.

In the following, an example will be described in which the third plate 310 of the external hardware 300 is connected to the first plate 110 and can rotate around the third setting axis 311 until the fourth plate 320 contacts the second plate 120.

The third plate 310 is connected to the first plate 110 , and the fourth self-adhesive assembly 331 is connected to the fourth plate 320 via a fourth safety inspection part 332 . The fourth self-adhesive assembly 331 is for connecting the second plate 120 and the fourth plate 320 that the fourth plate 320 abuts, that is, for sealing the storage opening 131 by the external hardware 300. I can do it. When the structure of the fourth safety inspection part 332 is destroyed by external force, the connection between the second plate 120 and the fourth plate 320 is cut, and the fourth plate 320 is moved along the third setting axis so as to open the storage opening 131. It can be rotated freely around 311.

It should be noted that the external hardware 300 is connected to the storage body 100, and the method for sealing or opening the storage opening 131 does not destroy the structure of the storage body 100 itself, so the storage body 100 is connected to the storage body 100. By replacing the wear 300 with a new one, reuse is ensured, and the service life of the storage body 100 is extended sufficiently until the structure of the storage body 100 is destroyed.

The number of fourth safety management mechanisms 330 provided on the fourth plate 320 can be selected as needed, and may be one, two, three, etc., and is not specifically limited here. Referring to FIG. 17, when the external hardware 300 is provided in the storage body 100 to seal the storage port 131, one set of fourth safety management mechanisms are installed at a time to seal the storage port 131. 330 can connect the fourth plate 320 and the second plate 120, and therefore, the number of times each external hardware 300 can seal the storage opening 131 for safe storage depends on the number of times each external hardware 300 can seal the storage opening 131 It is determined by the number of four safety management mechanisms 330. It should be noted that each storage device 010 can have a plurality of external hardware 300, for example, one, two, three, etc., and the storage body 100 can be reused by the plurality of external hardware 300. This increases the service life of the storage device 010 and contributes to improving economic and environmental effects.

It should be noted that the structure of the fourth self-adhesive assembly 331 and the fourth safety inspection part 332 and the manner in which they are provided on the fourth plate 320 are different from those of the first self-adhesive assembly 211 and the first safety inspection part 212, respectively. The structure and the manner in which both are provided in the first folding wing 200 are similar, that is, the structure and operating principle of the first safety management mechanism 210 and the fourth safety management mechanism 330 are similar, and a detailed explanation will be given here. Omitted.

Optionally, referring to FIGS. 15 to 17, a fifth plate 340 is connected to both sides of the third plate 310 in the extending direction of the third setting axis 311, and the fifth plate 340 is connected to the third plate 310. can be rotated against. When the fourth plate 320 is rotated relative to the third plate 310 around the third set axis 311 so as to have a folded shape with the third plate 310, the fifth plate 340 is rotated, and the fifth plate 340 is rotated. Alternatively, the fifth plate 340 can be inserted between the third plate 310 and the fourth plate 320, and the fifth plate 340 and the fourth plate 320 and the connection between the fifth plate 340 and the fourth plate 320 may be, for example, a connection using an adhesive or a fastener such as a stapler. Thus, an insertion chamber 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 inserted into the insertion chamber at the same time, i.e. , a third plate 310 and a fourth plate 320 are disposed outside the first plate 110 and the second plate 120, respectively, and the storage opening 131 is sealed by the external hardware 300.

It should be noted that the third plate 310 and the fourth plate 320 are integrally molded, and the third plate 310 and the fifth plate 340 are integrally molded. Naturally, in other embodiments, the connection method between the third plate 310 and the fourth plate 320 and the connection method between the third plate 310 and the fifth plate 340 may be a connection using an adhesive, a fastener such as a stapler, etc. There may be.

Optionally, referring to FIG. 18, the fifth plate 340 may not be connected to the third plate 310, that is, if the external hardware 300 does not have the fifth plate 340, the third plate 310 is connected to the storage port 131. into the storage chamber 130 and connected to the first plate 110 , i.e. the third plate 310 can enter into the storage chamber 130 and connect to the side of the first plate 110 facing the second plate 120 , or , the third plate 310 can enter the storage chamber 130 and connect to the side of the second plate 120 facing the first plate 110, or the third plate 310 can be separated from the second plate 120 of the first plate 110. Alternatively, the third plate 310 can be connected to the side of the second plate 120 that is away from the first plate 110, and its role is similar to that of the first folding wing 200. A detailed explanation will be omitted here.

It should be noted that the method of connecting the third plate 310 and the first plate 110 may be an adhesive connection or a fastener such as a staple, and is not specifically limited here.

Optionally, the external hardware 300 further includes a second digital encoding member 241, which is provided on at least one of both the third plate 310 and the fourth plate 320. The role and operating principle of the second digital encoding member 241 are the same as those of the first digital encoding member 240, and detailed description thereof will be omitted here.

Optionally, second digital encoding member 241 includes at least one of both a machine-readable optical volume label assembly and a radio frequency chip 244. Machine readable optical volume label assembly includes at least one of both a barcode 242 and a two-dimensional code 243.

15 and 16, the second digital encoding member 241 of this embodiment includes a machine-readable optical volume label assembly (hereinafter referred to as a fourth machine-readable optical volume label assembly 274); The volume label assembly 274 includes a barcode 242 and a two-dimensional code 243, and the barcode 242 and the two-dimensional code 243 are spaced apart from each other in the extending direction of the third setting axis 311. Each dimension code 243 is provided corresponding to the fourth self-adhesive assembly 331. By doing this, when sealing the storage opening 131 of the storage main body 100 with the external hardware 300, for example, postal information such as the delivery destination, delivery origin, sender's contact information, recipient's contact information, etc. can be stored in the bar code. 242 and a two-dimensional code 243, and can also be used to record the number of times the storage device 010 has been used, but this is not specifically limited here.

Optionally, the barcode 242 can be used to record the number of times the record storage device 010 has been reused, and the two-dimensional code 243 can be used to record postal information. Of course, in other embodiments, the barcode 242 can be used to record postal information and the two-dimensional code 243 can be used to record the number of times the storage device 010 has been reused.

Optionally, referring to FIG. 16, the second digital encoding member 241 further includes a radio frequency chip 244, and external hardware 300 is installed in the storage body 100, that is, the third plate 310 and the first plate 110 or the second plate 110. When connecting the plate 120, the radio frequency chip 244 of the second digital encoding member 241 can be inserted into the storage chamber 130 through the storage opening 131. It should be noted that the role of the radio frequency chip 244 of the second digital encoding member 241 is similar to that of the radio frequency chip 244 of the first digital encoding member 240, and detailed description thereof will be omitted here.

Note that the external hardware 300 of this embodiment is used in combination with the storage body 100 to extend the service life of the storage body 100, that is, to extend the service life of the storage body 100, and to use the storage body 100 for safe storage requiring sealing of the storage opening 131. It is understood that the purpose is to enable reuse. In other embodiments, the external hardware 300 can be independently combined with a storage device 010 such as another envelope or document pouch of a third party to seal the storage opening 131 of the other envelope or document pouch for safe storage. By replacing the external hardware 300 with a new one, you can also extend the useful life of other common envelopes and document pouches, which means you can reuse and reuse other envelopes and document pouches. The storage port 131 can be sealed to enable repeated safe storage.

The environmental effect (reuse effect) of the storage device 010 of this embodiment can be shown by calculating the economic effect and carbon equivalent (CO2e) value, and includes the following. The denominator is one use of the storage device 010 with a unit value of 1, and in this application, the storage device 010 is reused for the first time (i.e., the second use of the storage device 010), and the first time the storage device 010 is reused for the first time. 1 The case where the safety management mechanism 210 is used for the first time is set as the unit value 2 and the calculated result is 2, that is, it is twice as effective. If the storage device 010 is reused twice, 2 is added to the unit value 1 to get 3, and the effect is tripled, etc. From this, it can be seen that extending the service life of the storage device 010 of the present application through reuse has a considerable economic effect.

When the storage device 010 of this embodiment is used for storing articles, the storage opening 131 does not need to be sealed, and the first folding wing 200 and the second folding wing 250 enter the storage chamber 130, and the first folding wing 250 does not need to be sealed. The first folding wing 200 is sandwiched between the article in the storage chamber 130 and the second folding wing 250, and the second folding wing 250 is sandwiched between the second plate 120 and the first folding wing 200. It is sufficient to simply fold back the folding wing 200 and the second folding wing 250. When the storage device 010 of this embodiment is used for storing articles, the storage opening 131 may be sealed, and the following methods are mainly included. The first folding wing 200 is folded back so that the first folding wing 200 is sandwiched between the article in the storage chamber 130 and the second plate 120, and the second safety management mechanism 220 folds the first folding wing 200 between the second plate 120 and the first folding wing. If the wing 200 is connected, the storage port 131 can be sealed. Alternatively, the first folding wing 200 is folded back and the second folding wing 250 is attached to the second folding wing 250 of the first plate 110 so that the first folding wing 200 is sandwiched between the article in the storage chamber 130 and the second plate 120. The third safety management mechanism 260 connects the second folding wing 250 and the first plate 110 by contacting the side facing away from the plate 120 . Alternatively, the second folding wing 250 is folded back and the first folding wing 200 is attached to the first plate 110 of the second plate 120 such that the second folding wing 250 is sandwiched between the article in the storage chamber 130 and the first plate 110. The first folding wing 200 and the second plate 120 are connected to each other by the first safety management mechanism 210 , which contacts the side facing away from the plate 110 . After the first safety management mechanism 210, second safety management mechanism 220, and third safety management mechanism 260 of the storage device 010 of this embodiment are all used and discarded, external hardware is installed to seal the storage opening 131. 300 can be provided on the storage body 100, thereby allowing the used storage body 100 to be continuously reused.

As described above, when storing an article, the storage device 010 provided in the present application seals the storage opening 131 using the first safety management mechanism 210, the second safety management mechanism 220, the third safety management mechanism 260, and the external hardware 300. Therefore, the storage body 100 can be effectively reused and the service life of the storage body 100 can be extended.

The above are only preferred embodiments of the present application and are not intended to limit the present application, and the present application may be subject to various modifications and changes by those skilled in the art. All modifications, equivalent replacements, improvements, etc. that do not depart from the spirit and principles of this application shall be included in the protection scope of this application.

The storage device of the present application stores an article by a storage body, and when the article is stored in a storage chamber of the storage body, the first safety management mechanism or the second safety management mechanism is selected for safe storage. The mouth can be sealed. After one of the first safety management mechanism and the second safety management mechanism has performed one safety retraction to seal the storage opening, one of the first safety management mechanism and the second safety management mechanism The storage port can be sealed by the other one to perform the next safe storage. In other words, the storage device can be safely stored at least twice in which the storage opening can be sealed by the first safety management mechanism and the second safety management mechanism without destroying the basic structure of the main body. If the storage device includes the second folding wing and the third safety management mechanism, safe storage for sealing the storage opening can be performed more times. In addition, even after the first safety management mechanism, second safety management mechanism, and third safety management mechanism are all discarded, the storage opening of the storage body is further sealed with external hardware to perform safe storage. It is also possible to further extend the service life. The storage device can be safely stored multiple times, which effectively extends the service life of the storage device and contributes to improving the economic and environmental effects.

010 Storage device 100 Storage main body 110 First plate 120 Second plate 121 Side wing 130 Storage chamber 131 Storage port 132 First fold line 133 Second fold line 141 First setting axis 142 Second setting axis 200 First folding wing 210 First Safety management mechanism 211 First self-adhesive assembly 212 First safety inspection section 213 Biasing section 214 Self-adhesive tape 215 Protective layer 216 Inspection section main body 217 Connection section 218 Through-hole group 220 Second safety management mechanism 221 Second self-adhesive Assembly 222 Second safety inspection section 230 First insertion assembly 231 Second insertion assembly 232 Latch 233 Slot 234 Insertion piece 235 Locking groove 236 Protrusion 240 First digital encoding member 241 Second digital encoding member 242 Barcode 243 Two-dimensional code 244 Radio frequency chip 250 Second folding wing 260 Third safety management mechanism 261 Third self-adhesive assembly 262 Third safety inspection section 271 First machine-readable optical volume label assembly 272 Second machine-readable optical volume label assembly 273 Third machine-readable optical volume label assembly 274 Fourth machine-readable optical volume label assembly 300 External hardware 310 Third plate 311 Third setting axis 320 Fourth plate 330 Fourth security mechanism 331 Fourth self-adhesive assembly 332 Fourth Safety inspection department 340 5th plate

Claims (18)

A storage device including a storage body, a first folding wing, and at least one first safety management mechanism, wherein the storage body includes a first plate and a second plate connected to each other, and the storage body includes a first plate and a second plate connected to each other. The plate may be folded along a fold line to form a storage chamber, and when the first plate and the second plate are folded along the fold line, the storage body may be in communication with the storage chamber. began to have a mouth;
The first plate is connected to the first folding wing, and has a first configuration with respect to the first plate such that the first folding wing abuts a surface of the second plate to seal the storage opening. for rotation about an axis, or the first folding wing is for rotation about the first set axis relative to the first plate such that the first folding wing enters the storage chamber from the storage port; It belongs to
The first safety management mechanism connects the first folding wing and the second plate so as to seal the storage opening when the first folding wing comes into contact with a surface of the second plate. or, for cutting the connection between the first folding wing and the second plate so that the storage port can be opened;
A second safety management mechanism is provided on the second plate, and the second safety management mechanism is configured to seal the storage opening when the first folding wing enters the storage chamber. The second safety management mechanism is for connecting the plate and the first folding wing, or the second safety management mechanism is configured to close the storage port when the first folding wing abuts the surface of the second plate. A storage device, characterized in that the storage device is for sealingly connecting a portion of the first plate adjacent to the storage port and a portion of the second plate adjacent to the storage port. The first safety management mechanism includes a first self-adhesive assembly and a first safety inspection part, the first self-adhesive assembly is provided on the first folding wing or the second plate, and the first safety inspection part includes a first self-adhesive assembly and a first safety inspection part. is provided on the first folding wing, and the first self-adhesive assembly is configured to seal the storage opening when the first folding wing abuts the surface of the second plate. The first safety inspection part is for connecting the folding wing and the second plate, and the first safety inspection part disconnects the first folding wing and the second plate so that the storage opening can be opened. The first self-adhesive assembly and the first safety inspection part are sequentially arranged in a predetermined direction, and the predetermined direction is provided at an angle with the first setting axis. , A storage device according to claim 1. The first safety management mechanism further includes a biasing part connected to the first safety inspection part, and the biasing part applies an external force to disconnect the first folding wing and the second plate. 3. The storage device according to claim 2, wherein the storage device is for driving the first safety inspection section by the action of . further comprising an insertion assembly, the insertion assembly including a slot and a latch that are matingly engaged with each other, one of the slot and the latch being disposed on the first security mechanism; 2. The storage device of claim 1, wherein the other of both the slot and the latch is provided in the second plate. The second safety management mechanism includes a second self-adhesive assembly and a second safety inspection part, the second self-adhesive assembly is installed on the second plate via the second safety inspection part, and the second self-adhesive assembly is installed on the second plate through the second safety inspection part, and A self-adhesive assembly is for connecting the second plate and the first folding wing within the storage chamber so as to seal the storage port, or for sealing the storage port. for connecting a portion of the first plate adjacent to the storage port and a portion of the second plate adjacent to the storage port so as to seal;
The second safety inspection part is for cutting the connection between the second plate and the first folding wing that has entered the storage chamber so that the storage opening can be opened, or The second safety inspection part is for disconnecting a portion of the first plate adjacent to the storage port and a portion of the second plate adjacent to the storage port so that the storage port can be opened. and
The second self-adhesive assembly and the second safety inspection part are sequentially arranged in a predetermined direction, and the predetermined direction is provided at an angle with the first setting axis. storage device. The storage device of claim 1, further comprising a first digital encoding member provided on at least one of both the first plate and the second plate. 7. The storage device of claim 6, wherein the first digital encoding member includes at least one of both a machine-readable optical volume label assembly and a radio frequency chip. The first digital encoding member includes a machine-readable optical volume label assembly, the machine-readable optical volume label assembly is provided on the second plate, and the number of machine-readable optical volume label assemblies is equal to the number of first security features. and the first safety management mechanism and the machine-readable optical volume label are provided in one-to-one correspondence when the first folding wing abuts the second plate. The storage device according to item 7. further comprising a third safety management mechanism, a second folding wing being connected to the second plate, the second folding wing contacting a surface of the first plate to seal or open the storage opening; the second folding wing is for rotation about a second set axis relative to the second plate, or the second folding wing is configured relative to the second plate to enter the storage chamber from the storage port; for rotating around the second set axis;
The third safety management mechanism is for connecting the second folding wing and the first plate when the second folding wing contacts the surface of the first plate to seal the storage opening. A storage device according to claim 1 or 4 or 6, characterized in that: The third safety management mechanism includes a third self-adhesive assembly and a third safety inspection part, the third self-adhesive assembly is provided on the second folding wing or the first plate, and the third safety inspection part includes a third self-adhesive assembly and a third safety inspection part. is provided on the second folding wing, and the third self-adhesive assembly is configured to seal the storage opening when the second folding wing abuts the surface of the first plate. The third safety inspection part is for connecting the folding wing and the first plate, and the third safety inspection part disconnects the second folding wing and the first plate so that the storage opening can be opened. It is for
The third self-adhesive assembly and the third safety inspection part are sequentially arranged in a predetermined direction, and the predetermined direction is provided at an angle with the second setting axis. storage device. The device further includes external hardware, the external hardware including a third plate and a fourth plate connected to each other, the third plate being connected to one of the first plate and the second plate. The fourth plate is configured to move the third plate around the third setting axis so as to abut against the other surface of both the first plate and the second plate to seal or open the storage opening. 10. Storage device according to claim 1 or 9, characterized in that it can be rotated with respect to. The fourth plate is provided with a fourth safety management mechanism, and the fourth safety management mechanism is for connecting the first plate or the second plate, which the fourth plate abuts, and the fourth plate. 12. Storage device according to claim 11. The fourth safety management mechanism includes a fourth self-adhesive assembly and a fourth safety inspection part, the fourth self-adhesive assembly is connected to the fourth plate via the fourth safety inspection part, and the fourth self-adhesive assembly is connected to the fourth plate through the fourth safety inspection part, and The self-adhesive assembly is for connecting the first plate or the second plate against which the fourth plate is in contact with the fourth plate so as to seal the storage opening, and The safety inspection part is for cutting the connection between the first plate or the second plate and the fourth plate that the fourth plate abuts so that the storage opening can be opened,
The fourth self-adhesive assembly and the fourth safety inspection part are sequentially arranged in a predetermined direction, and the predetermined direction is provided at an angle with the third setting axis. storage device. 12. The storage device of claim 11, wherein the external hardware further includes a second digital encoding member provided on at least one of both the third plate and the fourth plate. 15. The storage device of claim 14, wherein the second digitally encoded member includes at least one of both a machine-readable optical volume label assembly and a radio frequency chip. External hardware for installation on a storage body, including a third plate and a fourth plate connected to each other, the third plate for connecting to the storage body, and a third plate on the fourth plate. 4 safety management mechanism is provided, the fourth plate is for rotating relative to the third plate around a third setting axis so as to seal or open the storage port of the storage body;
The fourth safety management mechanism includes a fourth self-adhesive assembly and a fourth safety inspection part, the fourth self-adhesive assembly is connected to the fourth plate via the fourth safety inspection part, and the fourth self-adhesive assembly is connected to the fourth plate through the fourth safety inspection part, and The self-adhesive assembly is for connecting the fourth plate and the storage body to seal the storage opening, and the fourth safety inspection part is for opening the storage opening. , an external hardware for disconnecting the fourth plate and the storage body. 17. The external hardware of claim 16, further comprising a second digital encoding member provided on at least one of both the third plate and the fourth plate. 18. The external hardware of claim 17, wherein the second digital encoding member is at least one of both a machine-readable optical volume label assembly and a radio frequency chip.

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