CN211928677U - Shipment equipment - Google Patents

Abstract

The utility model provides a shipment equipment, shipment equipment includes: the RFID storage box comprises a box body, a lower-layer cover plate structure, a top-layer cover plate structure, a first RFID identification assembly and a processing assembly, wherein the lower-layer cover plate structure and the box body are enclosed to form a storage space, a first opening is formed in the top-layer cover plate structure, a second opening is formed in the lower-layer cover plate structure, the first RFID identification assembly is arranged in the identification space, and the processing assembly is electrically connected with the first RFID identification assembly. The steps of the method are as follows: the RFID first identification component identifies the object to be rented and is recorded by the processing component; leasing: the RFID first identification component identifies the taken-out article and records that the corresponding glasses are rented out by the processing component; returning: the RFID first identification component identifies the returned item and records by the processing component that the corresponding glasses have been returned. The scheme realizes the renting and returning management of the articles efficiently, and saves the cost and resources. This scheme is applicable to the automatic lease and the recovery of 3D glasses.

Description

Shipment equipment

Technical Field

The utility model belongs to the technical field of shipment equipment, especially, relate to a shipment equipment.

Background

In life, temporary articles such as 3D glasses of a movie theater, skating shoes of an ice rink, tour guides of a museum are needed in many scenes, and the articles are usually used only in specific places, so that resources are saved by renting, but the renting is usually performed by a manual management method, which is labor-consuming and inefficient.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a delivery device, which can realize the automatic leasing and recycling of articles, save human resources and improve the leasing efficiency of the articles; and can be well adapted to recyclable items.

In order to solve the above technical problem, the utility model relates to a realize like this, a shipment equipment, include: the RFID tag box comprises a box body, a lower layer cover plate structure, a top layer cover plate structure, a first RFID identification component and a processing component, wherein the lower layer cover plate structure is fixed in the box body, the lower layer cover plate structure and the box body are enclosed to form a storage space, the storage space is used for storing articles with RFID tags, the top layer cover plate structure is fixed at the top of the box body and is right opposite to the lower layer cover plate structure, an identification space is formed between the lower layer cover plate structure and the top layer cover plate structure, the top layer cover plate structure is provided with a first opening, the lower layer cover plate structure is provided with a second opening corresponding to the first opening, the articles can pass through the first opening and the second opening, the first RFID identification component is arranged in the identification space and is used for identifying the articles with the RFID tags passing between the first opening and the second opening, the processing component is electrically connected with the RFID first identification component and is used for processing and analyzing the RFID label information received by the RFID first identification component.

Further, the top layer cover plate structure comprises a first protective layer far away from the identification space, the lower layer cover plate structure comprises a second protective layer far away from the identification space, and the first protective layer and the second protective layer are made of electromagnetic wave shielding materials.

Furthermore, the top cover plate structure further comprises a first absorption layer arranged on the first protective layer and close to the identification space side, the lower cover plate structure further comprises a second absorption layer arranged on the second protective layer and close to the identification space side, a side absorption layer is arranged on the inner wall of the box body located in the identification space, and the first absorption layer, the second absorption layer and the side absorption layer are all made of electromagnetic wave absorption materials.

Further, a communication pipeline is arranged between the first opening and the second opening, and the communication pipeline is made of a material capable of allowing electromagnetic waves to pass through.

Further, a protective cover is movably arranged at the first opening.

Furthermore, a third opening for articles to pass through is formed in one side of the box body, the third opening is communicated with the storage space, a second RFID identification component is arranged at the third opening, the processing component is electrically connected with the second RFID identification component, and the second RFID identification component is used for identifying the articles which pass through the third opening and are provided with the RFID tags.

Furthermore, a returning slide way is arranged on the side, provided with the third opening, of the box body, the returning slide way comprises an inclined plane slide way of which the bottom is connected with the third opening and a vertical channel connected with the top side of the inclined plane slide way, a returning opening is formed in the top of the vertical channel, and the RFID second identification component is fixed on the inclined plane slide way.

The utility model discloses well shipment equipment compares with prior art, and beneficial effect lies in:

the shipment equipment of this scheme can realize the automatic lease and the management of returning to article, at the in-process of renting, article take out from storage space through second opening and first opening, the first discernment subassembly of RFID discerns it this moment, thereby processing component confirms the specific information of the article of confirming by renting to identifying information, at the in-process of returning, the article of returning enters into storage space through first opening and second opening, the first discernment subassembly of RFID discerns it this moment, thereby processing component confirms the specific information of the article of confirming by returning to identifying information, thereby the lease and the management of returning to article have been realized to high efficiency, human cost and social resource have been practiced thrift. The delivery equipment can be well suitable for recyclable articles, and is particularly suitable for automatic leasing and recycling of 3D glasses.

Drawings

Fig. 1 is a schematic structural diagram of a shipment facility in a first implementation manner of an embodiment of the present invention;

fig. 2 is a schematic view of an overall structure of a shipping apparatus in a first implementation manner of the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a shipment facility in a second implementation manner of the embodiment of the present invention;

FIG. 4 is a flow chart illustrating a vending method according to an embodiment of the present invention;

fig. 5 is a schematic flow chart of a leasing method according to a first implementation manner in an embodiment of the present invention;

fig. 6 is a schematic flow chart of a leasing method according to a second implementation manner in the embodiment of the present invention.

In the drawings, each reference numeral denotes: 1. a box body; 11. a side absorbent layer; 12. a third opening; 2. A lower layer cover plate structure; 21. a second opening; 22. a second protective layer; 23. a second absorbent layer; 3. a top layer cover plate structure; 31. a first opening; 32. a first protective layer; 33. a first absorbent layer; 4. an RFID first identification component; 5. an RFID second identification component; 6. returning the slideway; 61. an inclined plane slideway; 62. a vertical chute.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example (b):

in the present embodiment, as shown in fig. 1 to 3, there is provided a shipment apparatus including: the RFID tag box comprises a box body 1, a lower layer cover plate structure 2, a top layer cover plate structure 3, an RFID first identification component 4 and a processing component, wherein the lower layer cover plate structure 2 is fixed in the box body 1, the lower layer cover plate structure 2 and the box body 1 are enclosed to form a storage space, the storage space is used for storing articles with RFID tags, the top layer cover plate structure 3 is fixed at the top of the box body 1 and is opposite to the lower layer cover plate structure 2, an identification space is formed between the lower layer cover plate structure 2 and the top layer cover plate structure 3, the top layer cover plate structure 3 is provided with a first opening 31, the lower layer cover plate structure 2 is provided with a second opening 21 corresponding to the first opening 31, the articles can pass through the first opening 31 and the second opening 21, the RFID first identification component 4 is arranged in the identification space, the RFID first identification component 4 is used for identifying the articles with the RFID tags passing between the first opening 31 and the second opening 21, the processing component, the processing component is adapted to process and analyze the RFID tag information received by the RFID first identification component 4.

The goods delivery equipment can realize automatic renting and returning management of goods, in the renting process, the goods are taken out from the storage space through the second opening 21 and the first opening 31, at the moment, the RFID first identification component 4 identifies the goods, the processing component confirms the identification information to determine the specific information of the rented goods, in the returning process, the returned goods enter the storage space through the first opening 31 and the second opening 21, at the moment, the RFID first identification component 4 identifies the goods, the processing component confirms the identification information to determine the specific information of the returned goods, and due to the fact that the goods are taken out from the different openings and returned, the taking out and returning operation can be allowed at the same time, the renting and returning management of the goods is efficiently realized, and the labor cost and social resources are saved. The delivery equipment can be well suitable for recyclable articles, and is particularly suitable for automatic leasing and recycling of 3D glasses.

In a first implementation manner of the embodiment, as shown in fig. 1-2, the top cover structure 3 includes a first protection layer 32 far away from the identification space, the lower cover structure 2 includes a second protection layer 22 far away from the identification space, and both the first protection layer 32 and the second protection layer 22 are made of electromagnetic wave shielding materials, such as metal materials, e.g., copper, iron, and the like. The arrangement of the protective layer can prevent the interference of outside electromagnetic wave signals to the RFID first identification component 4 and can also avoid the misreading of the RFID chip in the storage space, thereby improving the identification accuracy of the articles passing through the identification space.

In order to further improve the identification accuracy, the top cover plate structure 3 further comprises a first absorption layer 33 arranged on the side, close to the identification space, of the first protection layer 32, the lower cover plate structure 2 further comprises a second absorption layer 23 arranged on the side, close to the identification space, of the second protection layer 22, the inner wall, located in the identification space, of the box body 1 is provided with a side absorption layer 11, and the first absorption layer 33, the second absorption layer 23 and the side absorption layer 11 are all made of electromagnetic wave absorption materials. The absorbent layer is arranged to prevent the identification signal of the RFID first identification component 4 from reflecting in the reading space and causing misidentification.

In this implementation manner, as shown in fig. 2, preferably, the RFID first identification component 4 is disposed at a corner of the reading space, that is, disposed obliquely and has an included angle with two adjacent faces, the reading direction of the RFID first identification component 4 is a diagonal angle, and the reading direction is aligned with the passage between the first opening 31 and the second opening 21, such an arrangement manner may achieve a better identification effect, and alternatively, the RFID first identification component 4 may also be disposed parallel to one of the surrounding faces of the reading space, and the reading direction faces the opposite face.

In order to allow the article to pass between the first opening 31 and the second opening 21 smoothly, a communication channel may be provided between the first opening 31 and the second opening 21, the communication channel being made of a material that allows electromagnetic waves to pass through, thereby ensuring that the RFID first identification component 4 can identify the article. First opening 31 department can the movable protective cover that sets up, for example, the protective cover slidingtype sets up on first inoxidizing coating 32 top side, make the protective cover can close first opening 31 or move to and coincide with first inoxidizing coating 32, perhaps, the protective cover rotary type is connected at the border of first opening 31, set up between protective cover and the first inoxidizing coating 32 and enable the protective cover to reply the torsional spring that the lid closed the state of first opening 31, the protective cover atress is rotatory when the user stretches out the hand and enters storage space and is opened, the protective cover lid closes on first opening 31 under the effect of torsional spring when the hand leaves.

In a second implementation manner of the embodiment, as shown in fig. 3, in order to facilitate the return operation of the articles, a third opening 12 through which the articles pass is formed in one side of the box 1, the third opening 12 is communicated with the storage space, an RFID second identification component 5 is disposed at the third opening 12, the processing component is electrically connected to the RFID second identification component 5, and the RFID second identification component 5 is used for identifying the articles with RFID tags passing through the third opening 12. The side, provided with the third opening 12, of the box body 1 is provided with a return slideway 6, the return slideway 6 comprises an inclined plane slideway 61 with the bottom connected to the third opening 12 and a vertical channel connected with the top side of the inclined plane slideway 61, the top of the vertical channel is provided with a return opening, and the RFID second identification component 5 is fixed on the inclined plane slideway 61. When the articles are returned, the articles are placed into the return opening, the articles sequentially pass through the vertical channel, the return slide 6 and the third opening 12 to enter the storage space, and in the process, the RFID second identification component 5 identifies the articles.

The embodiment provides a vending method, as shown in fig. 4, applied to the shipping apparatus of the first implementation manner, including the following steps:

s1, preprocessing: acquiring marking information of the stored articles in the storage space and marking the files as homing;

s2, selling: the RFID-tagged items in the storage space are acquired and taken out through the second opening (21) and the first opening (31), the RFID first identification component (4) identifies the mark information of the taken-out RFID-tagged items, and acquires a corresponding archive according to the mark information and marks the archive as sold.

The embodiment also provides a leasing method of the first implementation manner, as shown in fig. 5, which is applied to the shipment equipment of the first implementation manner, and includes the following steps:

s1, preprocessing: acquiring marking information of the stored articles in the storage space and marking the files as homing;

specifically, during the preprocessing, the articles to be leased and provided with the RFID tags can be put into the storage space through the first opening 31 and the second opening 21, the RFID first identification component 4 identifies the tag information of the articles passing through the identification space and provided with the RFID tags and transmits the tag information to the processing component, and the processing component sequentially archives the tag information of each article to be leased and provided with the RFID tags and marks each archive as a homing; in some embodiments, the tagging information for the corresponding item may also be transmitted to the processing component by way of manual entry of the RFID tag information;

s2, leasing: acquiring the RFID-tagged items in the storage space and taking the items out through the second opening 21 and the first opening 31, identifying the mark information of the taken-out RFID-tagged items by the RFID first identification component 4, acquiring a corresponding archive according to the mark information and marking the archive as leased;

s3, returning: the returned RFID-tagged item enters the storage space via the first opening 31 and the second opening 21, the RFID first identification component 4 identifies the tag information of the returned RFID-tagged item, and acquires an archive corresponding to the tagged leased item according to the tag information and marks the archive as a return.

The embodiment also provides a leasing method of a second implementation manner, as shown in fig. 6, which is applied to the shipment equipment of the second implementation manner, and includes the following steps:

s1, preprocessing: acquiring marking information of the stored articles in the storage space and marking the files as homing;

specifically, in this implementation manner, during the preprocessing, the articles to be leased and provided with the RFID tags are placed in the storage space through the first opening 31 and the second opening 21, the RFID first identification component 4 identifies the tag information of the articles passing through the identification space and provided with the RFID tags and transmits the tag information to the processing component, and the processing component sequentially archives the tag information of each article to be leased and provided with the RFID tags and marks each archive as a return; in some alternative implementations, it is also possible to place the RFID-tagged items to be rented into the storage space through the third opening 12, the RFID second identification component 5 identifies the tag information of the RFID-tagged items and transmits the tag information to the processing component, and the processing component archives the tag information of each RFID-tagged item to be rented in sequence and marks each archive as a home; in some alternative implementations, the tagging information for the corresponding item may also be transmitted to the processing component by way of manual entry of the RFID tag information. The method of entering the mark information is not limited herein, and any scheme may be used as long as the one-to-one correspondence between the mark information and the corresponding article is realized.

S2, leasing: acquiring the RFID-tagged items in the storage space and taking the items out through the second opening 21 and the first opening 31, identifying the mark information of the taken-out RFID-tagged items by the RFID first identification component 4, acquiring a corresponding archive according to the mark information and marking the archive as leased;

s3, returning: the returned RFID-tagged item enters the storage space via the third opening 12, and the RFID second identification component 5 identifies the tag information of the returned RFID-tagged item, and from this tag information, retrieves an archive that is correspondingly marked as leased and marks this archive as returned.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A shipment apparatus, comprising: the RFID tag box comprises a box body (1), a lower-layer cover plate structure (2), a top-layer cover plate structure (3), a RFID first identification component (4) and a processing component, wherein the lower-layer cover plate structure (2) is fixed in the box body (1), the lower-layer cover plate structure (2) and the box body (1) are enclosed to form a storage space, the storage space is used for storing articles with RFID tags, the top-layer cover plate structure (3) is fixed at the top of the box body (1) and is just opposite to the lower-layer cover plate structure (2), an identification space is formed between the lower-layer cover plate structure (2) and the top-layer cover plate structure (3), a first opening (31) is formed in the top-layer cover plate structure (3), a second opening (21) corresponding to the first opening (31) is formed in the lower-layer cover plate structure (2), and the articles can pass through the first opening (31) and the second opening (21), the RFID first identification component (4) is arranged in the identification space, the RFID first identification component (4) is used for identifying the RFID-tagged articles passing between the first opening (31) and the second opening (21), the processing component is electrically connected with the RFID first identification component (4), and the processing component is used for processing and analyzing the RFID tag information received by the RFID first identification component (4).

2. Outgoing device according to claim 1, characterized in that the top cover structure (3) comprises a first protective layer (32) remote from the identification space, the lower cover structure (2) comprises a second protective layer (22) remote from the identification space, the first protective layer (32) and the second protective layer (22) both being made of an electromagnetic wave shielding material.

3. The outgoing device according to claim 2, characterized in that the top cover structure (3) further comprises a first absorption layer (33) disposed on the side of the first protection layer (32) close to the identification space, the lower cover structure (2) further comprises a second absorption layer (23) disposed on the side of the second protection layer (22) close to the identification space, the inner wall of the box body (1) located in the identification space is provided with a side absorption layer (11), and the first absorption layer (33), the second absorption layer (23) and the side absorption layer (11) are all made of electromagnetic wave absorption materials.

4. A delivery device according to claim 2, wherein a communication channel is provided between the first opening (31) and the second opening (21), said communication channel being made of a material that is capable of passing electromagnetic waves.

5. A tapping device according to claim 4, wherein a protective cover is movably arranged at the first opening (31).

6. The shipment equipment according to any one of claims 1 to 5, wherein a third opening (12) for passing the items is opened at one side of the box body (1), the third opening (12) is communicated with the storage space, a second RFID identification component (5) is arranged at the third opening (12), the processing component is electrically connected with the second RFID identification component (5), and the second RFID identification component (5) is used for identifying the items with RFID tags passing through the third opening (12).

7. The shipment equipment according to claim 6, wherein a return chute (6) is provided at the side of the box body (1) where the third opening (12) is provided, the return chute (6) comprises a slope chute (61) with a bottom connected to the third opening (12) and a vertical channel connected to the top side of the slope chute (61), the top of the vertical channel is provided with the return opening, and the RFID second identification component (5) is fixed to the slope chute (61).

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