CN215555736U - Standard express box - Google Patents

Abstract

The utility model provides a standard express box which comprises a box body S1 and one or more embedded intelligent electronic tags S2, wherein the box body S1 is formed by outer-layer corrugated paper A1 and an inner-layer shockproof heat-insulating layer A2; the intelligent electronic tag S2 comprises a radio frequency antenna, a tag control chip and a sensor unit, and is packaged into a sheet structure with a flange plate, the sheet structure is embedded and assembled on the side surface of the box body S1, the radio frequency antenna is close to the outer surface of the box body S1, and the sensor unit is positioned on the inner surface of the box body S1; the label control chip in the intelligent electronic label S2 contains a memory for storing the identification information, sensing parameters, sensing event records and logistics information of the electronic label. By applying the utility model, the privacy of consumers can be well protected, the express box is easy to recycle and reuse, express packages are easy to track and monitor in the whole transportation and delivery process, and full-automatic treatment is easy to realize in each link of logistics, including the tail end link.

Description

Standard express box

Technical Field

The utility model relates to a standard express box structure, in particular to a standard express box with an intelligent electronic tag, which is suitable for cold chain transportation.

Background

In recent years, the express delivery industry is rapidly developed, the commodity circulation is promoted, and great convenience is brought to the life of people. It should also be seen that the express delivery industry still has some drawbacks that need to be improved. For example, most express packages are disposable, which results in a great deal of resource waste; private information such as a recipient address phone and the like is directly exposed on the outer package, so that the risk of stealing and utilizing the private information by lawbreakers is realized; the parcel sorting method has the advantages that the parcel sorting method still needs to manually check document information on an outer package to sort the parcels in the delivery process of express logistics terminal sites and couriers, a goods receiving user also needs to manually check the document information to find and confirm the parcel, and the problem that the terminal distribution points with a large number of parcels are low in efficiency and prone to wrong-picking and falsifying is brought.

At present widely used's community express delivery cabinet has solved the problem of above-mentioned wrong collar and faking, nevertheless delivers and takes out two links and all need operation control screen and/or cell-phone, and especially when express delivery parcel was delivered to express delivery cabinet to the courier, need examine look, scan express delivery document, select suitable case of depositing according to the parcel size, operation control screen opens the door and puts into the parcel, closes some row actions such as door at last and just can accomplish the input of a parcel, inefficiency.

The utility model provides a standardized express box aiming at the defects of the current products in the market, which enables express packages to be easy to track and monitor in the whole process of transportation and delivery through size standardization and introduction of intelligent electronic tags, is easy to realize full-automatic treatment in each link of logistics, including a tail end link, is easy to automatically recycle and reuse, and can protect the privacy of consumers.

SUMMERY OF THE UTILITY MODEL

The utility model provides a standard express box, which comprises a box body S1 and one or more embedded intelligent electronic tags S2; the box body S1 is composed of outer corrugated paper A1 and an inner shockproof heat-insulating layer A2, wherein the inner shockproof heat-insulating layer A2 is composed of a polyethylene foam aluminum-coated layer; the intelligent electronic tag comprises a radio frequency antenna, a tag control chip and a sensor unit, is packaged into a sheet structure with a flange plate, is embedded and assembled on the side surface of the box body S1, the radio frequency antenna of the intelligent electronic tag is close to the outer surface of the box body S1, and the sensor unit of the intelligent electronic tag is positioned on the inner surface of the box body S1.

The label control chip is internally provided with a memory for storing the identification information, the sensing parameters, the sensing event records and the logistics information of the electronic label.

The sensor unit comprises a temperature sensor and a humidity sensor; the sensing parameters comprise a temperature threshold and a humidity threshold, the sensing events comprise over-standard temperature and humidity events, and the sensing event records comprise sensing event type codes, occurrence time and sensing numerical values.

The logistics information comprises logistics list numbers, sending article information and receiving and dispatching goods information.

Other features and advantages of the present invention will become more apparent from the detailed description of the embodiments of the present invention when taken in conjunction with the accompanying drawings.

Drawings

In order to clearly illustrate the technical solution and the embodiments of the present invention, the drawings referred to in the specification are briefly introduced as follows. It is to be noted that the drawings are primarily intended to illustrate the relationship between the components of the device of the utility model, the structural features and the advantages resulting therefrom, and are not to scale with the actual dimensions of the device. Obviously, said figures relate only to a limited number of embodiments and are not to be understood as limiting the utility model, from which a person skilled in the art can easily derive new embodiments by modifying the forms.

FIG. 1 is a view showing the structure of the external appearance of one embodiment of the present invention;

FIG. 2 is a schematic view of a planer structure of the container in the embodiment of the present invention;

FIG. 3 is a block diagram of an intelligent electronic tag according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the assembly of the intelligent electronic tag on the box body in the embodiment of the utility model;

fig. 5 is a flowchart of the operation of the intelligent electronic tag in the embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings.

The utility model provides a standardized reusable express box, the appearance structure of which is shown in figure 1, and the express box comprises a box body S1 and an intelligent electronic tag S2 embedded in the box body. The box body S1 is composed of outer layer corrugated paper A1 and inner layer shockproof insulation layer A2, and a schematic plane view is given in figure 2. Preferably, the shockproof heat-insulating layer A2 is formed by covering an aluminum layer with polyethylene foam. As shown in fig. 3, the intelligent electronic tag S2 is a radio frequency electronic tag including a radio frequency antenna, a control chip, and a sensing unit. The radio frequency antenna can receive electronic tag read-write signals of a specific frequency band, and electromagnetic energy is coupled out from the radio frequency antenna for activating the tag; the control chip internally comprises a memory, performs logic processing on the received electronic tag read-write signal, generates a response signal, feeds the response signal back to the electronic tag reader-writer through the radio frequency antenna, and receives and processes environmental temperature and humidity data acquired by the sensing unit; the sensing unit comprises a temperature and humidity sensor and is used for acquiring environmental temperature and humidity data; the memory stores the identification information, sensing parameters, sensing event records and logistics information of the electronic tag. The sensing parameters comprise a temperature threshold and a humidity threshold; the sensing events comprise a temperature exceeding event and a humidity exceeding event; the sensing event record comprises a sensing event type code, an occurrence time and a sensing numerical value; the logistics information comprises logistics list numbers, information of the sent goods, information of receiving and dispatching goods, such as receiving and dispatching goods addresses, contact phones, contact persons and the like. The control chip processes the environmental temperature and humidity data, including reading temperature and humidity threshold values in the storage, judging whether real-time temperature and humidity values from the sensor exceed a threshold value range, and if so, writing sensing events into the storage.

The intelligent electronic tag S2 is packaged in a sheet structure with a flange, and is embedded in the side of the box body, as shown in fig. 4. The radio frequency antenna is composed of a film substrate and an antenna radiation pattern attached to the film substrate and is close to the outer surface F1 of the box body; the sensing unit is located on the inner surface F2 of the box body, so that the temperature and the humidity in the box body can be monitored accurately. In order to conveniently read the electronic tag information in the actual use scene, a plurality of intelligent electronic tags S2 can be installed on the side surface of the box body.

The intelligent electronic tag S2 is a passive tag, does not need to be powered by a battery, and is activated by coupling electromagnetic energy from electromagnetic wave signals of a specific frequency band through a radio frequency antenna. FIG. 5 is a flowchart illustrating an embodiment of a process for coupling electromagnetic energy from a RF antenna to activate a tag whenever a tag reader or a dedicated tag exciter emits a continuous wave signal in a particular frequency band; the control chip collects real-time temperature and humidity data through the sensing unit; comparing with a threshold value in a memory, and recording a sensing event if the threshold value range is exceeded; otherwise, waiting for a subsequent operation instruction from the tag reading and writing device; if a subsequent operation instruction is received, analyzing and executing the instruction; if no follow-up instruction is received within the designated time, the work is stopped, and the device enters a dormant state and is activated only for the next time. The subsequent operation instruction comprises the steps of reading whether the tag identifies information, writing in sensing parameters, reading sensing event information, reading real-time temperature and humidity and the like. When the control chip processes and reads the real-time temperature and humidity instruction, the control chip not only judges whether the operation exceeds the standard or not, records a sensing event and the like, but also further feeds the currently measured temperature and humidity data back to the label reading and writing device.

It is worth mentioning that the standard express box provided by the utility model can define a plurality of box bodies with standard sizes according to logistics big data so as to bring convenience to customers to send various articles to the maximum extent. The advantages of the utility model are obvious, the label information can be read in a wireless mode in the whole process of sending the goods, and thus, the quality tracking management and control can be conveniently carried out. Particularly for cold chain transportation of articles, each link on the transportation chain can monitor whether the temperature and humidity in the previous transportation link meet the requirements or not. Preferably, in a cold chain transportation scene, in order to achieve the purpose of monitoring in the whole process, a tag excitation device may be deployed in a batch of goods on the same route or in a transportation vehicle, and a tag excitation signal, that is, a continuous wave signal of a tag working frequency band, is periodically transmitted according to a preset interval, so as to activate a tag to perform periodic temperature and humidity detection. The label exciting device adopts a rechargeable battery to supply power or a vehicle-mounted power supply to supply power. The standardized size box with the intelligent electronic tag is beneficial to realizing full-automatic processing in the links of sending, transportation, transfer distribution, delivery and the like, and particularly in the links of sending and delivering at the tail end, the full-automatic terminal express cabinet can be realized, so that the processing efficiency of the link at the tail end of logistics is greatly improved. By adopting the electronic tag, the information sent and received by the consumer can be recorded in the internal memory of the tag in an encryption mode, and the information is not required to be printed and posted on the surface of the box body in an explicit mode, so that the privacy of the consumer is well protected. The standardized size, electronic tagged case also facilitates recycling by automated means.

The description of the present invention has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the utility model in the form disclosed. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated. All the new embodiments which are within the framework of the basic concept, construction principle and spirit of the utility model and realized by simple change, modification, equivalent replacement and improvement shall be included in the protection scope of the utility model. The scope of the utility model is determined by the appended claims.

Claims (5)

1. A standard express box is characterized by comprising a box body S1 and one or more embedded intelligent electronic tags S2; the box body S1 is composed of outer corrugated paper A1 and an inner shockproof heat-insulating layer A2, wherein the inner shockproof heat-insulating layer A2 is composed of a polyethylene foam aluminum-coated layer; the intelligent electronic tag comprises a radio frequency antenna, a tag control chip and a sensor unit, is packaged into a sheet structure with a flange plate, is embedded and assembled on the side surface of the box body S1, the radio frequency antenna of the intelligent electronic tag is close to the outer surface of the box body S1, and the sensor unit of the intelligent electronic tag is positioned on the inner surface of the box body S1.

2. The standard courier box of claim 1, wherein the tag control chip includes a memory for storing identification information, sensing parameters, sensing event records and logistics information of the electronic tag.

3. The standard courier box of claim 1, wherein the sensor unit includes a temperature sensor and a humidity sensor.

4. The standard express delivery box of claim 2, wherein the sensing parameters include a temperature threshold and a humidity threshold, the sensing events include over-temperature and over-humidity events, and the sensing event records include sensing event type codes, occurrence time and sensing values.

5. The standard courier box of claim 2, wherein the logistics information includes a logistics order number, shipping item information, and shipping and receiving information.

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