CN113516422A - A containing box for commodity circulation storage - Google Patents
A containing box for commodity circulation storage Download PDFInfo
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- CN113516422A CN113516422A CN202010272751.4A CN202010272751A CN113516422A CN 113516422 A CN113516422 A CN 113516422A CN 202010272751 A CN202010272751 A CN 202010272751A CN 113516422 A CN113516422 A CN 113516422A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
- G06Q10/083—Shipping
- G06Q10/0833—Tracking
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D25/00—Details of other kinds or types of rigid or semi-rigid containers
- B65D25/02—Internal fittings
Abstract
A containing box for logistics storage comprises a box body, wherein the box body is provided with a control module and a function module, the control module is connected with the function module, and the function module sends a data signal to the control module and works according to the control signal sent by the control module; the functional module includes: power module, locking module, data storage module, data transmission module and collection module, collection module contains: the device comprises a position service module, a temperature and humidity acquisition module, a camera module and a vibration detection module. The invention can enable a user to know whether the articles are illegally opened in real time in the process of transporting and storing the articles, and know the real-time positions, the environmental temperature and humidity, the real-time state of the articles, the vibration intensity in the process of transporting and storing the articles and the like, so that the user can master the real state of the articles in the process of logistics and storing the articles in the whole process, and the articles are protected from being stolen and stolen.
Description
Technical Field
The invention relates to a storage box for logistics storage, and belongs to the technical field of logistics.
Background
In the modern logistics and warehousing industry, as the scope of the contracting business provided by the service providers to users is continuously expanded (for example, articles such as fresh and live food, special medicines and the like, living animals and plants and the like which need to be stored in a specific temperature and humidity range are transported and stored), customers have put forward the requirements of monitoring and mastering the real-time state of the articles in real time in the transportation and warehousing process of certain high-value and high-privacy articles. The technical means of the current logistics storage industry cannot meet the requirements, and even in the existing cold chain transportation mode, whether the supported articles are in the temperature condition of reaching the standard in the whole course or not can not be proved to a user in the transportation and storage process. Whether the supported articles are illegally opened, loaded and unloaded, the real-time positions of the articles, the real-time states of the articles and the like in the logistics storage process cannot be known by a user.
In addition, after storage logistics accidents occur, responsibility is difficult to identify at present, and the existing technical means in the industry can only define the overall loss and serious damage of goods. For other divisions of responsibility, there is no solution.
Disclosure of Invention
The invention aims to solve the technical problem that the prior art is not enough, and provides a storage box for logistics storage, which realizes the functions of remote online real-time unlocking reminding, position service, temperature and humidity detection, camera shooting, photographing, vibration detection and the like by arranging a functional module comprising a vibration detection module and the like; the containing box can enable a user to know whether the articles are illegally opened in real time in the process of transporting and storing the articles, and know the real-time positions, the environmental temperature and humidity, the real-time state of the articles, the vibration intensity in the process of transporting and storing the articles and the like, so that the user can master the real state of the articles in the process of logistics and storing the articles in the whole process, and the articles are protected from being stolen and stolen; after an accident occurs, the accident reason can be traced by calling stored data, the responsibility of each party is confirmed, and business disputes are avoided; meanwhile, the service provider can be prompted to properly process the held objects in time in an abnormal state.
The technical problem to be solved by the invention is realized by the following technical scheme:
the invention provides a storage box for logistics storage, which comprises a box body, wherein the box body is provided with a control module and a function module, the control module is connected with the function module, and the function module sends a data signal to the control module and works according to the control signal sent by the control module; the functional module includes:
a power module for supplying power to the storage box,
a locking module for locking a cover or a door of the storage box,
a data storage module for receiving and storing the data signal transmitted by the control module to form the specific data,
a data transmission module for receiving an external control signal, transmitting the external control signal to the control module, and receiving a control signal of the control module, transmitting the data signal and/or the specific data to the outside,
an acquisition module, comprising:
a position service module for collecting the real-time geographical position of the containing box according to the control signal of the control module and sending a data signal containing the real-time geographical position to the control module,
a temperature and humidity acquisition module for acquiring real-time temperature and humidity data outside and/or inside the box body according to the control signal of the control module and sending a data signal containing the real-time temperature and humidity data to the control module,
the camera module is used for collecting image data in the box body according to the control signal of the control module and sending a data signal containing the image data to the control module,
the vibration detection module is used for collecting the vibration amplitude of the containing box according to the control signal of the control module and sending a data signal containing the vibration amplitude to the control module.
In order to facilitate charging, the box body is provided with a charging hole connected with the power module and used for plugging an external power line.
Preferably, the vibration detection module continuously transmits the vibration amplitude of the storage box to the control module when operating, or the vibration detection module transmits the vibration amplitude of the storage box to the control module only when the vibration amplitude exceeds a predetermined threshold.
In order to ensure the safety of data and facilitate the use of a user, the data storage module comprises a local memory and a cloud memory.
Preferably, the data signal is a continuous real-time data signal or an intermittent data signal at a specific time interval.
In order to ensure the safety of the articles, the control module further comprises an alarm module, and the alarm module is used for actively sending the specific data exceeding a preset threshold value to the outside through the data transmission module when the specific data exceed the preset threshold value.
In order to prevent the abnormal communication, the containing box can not work normally, the data transmission module further comprises a self-checking module, and the self-checking module is used for detecting whether the data transmission module is normal with the external communication.
Preferably, the storage box comprises at least one of the following three modes of operation:
an active working mode: the data transmission module is used for receiving a data checking request sent by the control module, and transmitting the data checking request to the data storage module;
and (3) passive working mode: when the containing box starts to work, the data transmission module works, the acquisition module is in a standby state, when the data transmission module receives an external control signal, the control module starts the corresponding acquisition module according to the data type required to be checked by the external control signal, transmits the data signal acquired by the acquisition module to the outside through the data transmission module, and simultaneously stores the data signal into the data storage module;
and (3) hybrid working mode: the self-checking module detects whether the data transmission module is in normal communication with the outside, if so, the containing box is in the passive working mode, and if not, the containing box is in the active working mode.
Further, in the active operating mode, the storing, by the control module, the data signal on the data storage module specifically includes: the control module stores the data signal to a local memory and a cloud memory, or the control module stores the data signal to a local memory;
when the control module stores the data signals to a local memory and a cloud memory and the self-checking module detects that communication is abnormal, the data transmission module sends abnormal signals to the control module; the control module sending the data signal only to the local memory; when the self-checking module detects that the communication is normal, a normal signal is sent to the control module, and the control module sends the data signal stored on the local memory during the abnormal communication period to the cloud memory through the data transmission module.
Preferably, when the state of the locking module changes, a data signal containing an open/close signal is sent to the control module, and the control module sends the data signal containing the open/close signal to the data storage module.
In summary, the invention realizes the functions of remote online real-time unlocking reminding, position service, temperature and humidity detection, camera shooting and photographing, vibration detection and the like by arranging the functional module comprising the vibration detection module and the like; the containing box can enable a user to know whether the articles are illegally opened in real time in the process of transporting and storing the articles, and know the real-time positions, the environmental temperature and humidity, the real-time state of the articles, the vibration intensity in the process of transporting and storing the articles and the like, so that the user can master the real state of the articles in the process of logistics and storing the articles in the whole process, and the articles are protected from being stolen and stolen; after an accident occurs, the accident reason can be traced by calling stored data, the responsibility of each party is confirmed, and business disputes are avoided; meanwhile, the service provider can be prompted to properly process the held objects in time in an abnormal state.
The technical solution of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
Drawings
FIG. 1 is a functional block diagram of a storage box for logistics storage according to the present invention;
FIG. 2 is a flowchart illustrating a working procedure of the storage box according to the first embodiment of the present invention;
FIG. 3 is a flowchart illustrating a second embodiment of the present invention;
FIG. 4 is a flowchart illustrating the operation of the storage box according to a third embodiment of the present invention;
fig. 5 is a flowchart illustrating a work procedure of the storage box according to the fourth embodiment of the present invention.
Detailed Description
The invention provides a storage box for logistics storage, which comprises a box body, wherein the box body is provided with a control module and a functional module, the functional module comprises but is not limited to an acquisition module, a power module, a locking module, a data transmission module and a data storage module, the acquisition module comprises but is not limited to a position service module, a temperature and humidity acquisition module, a camera module and a vibration detection module, the control module is connected with the functional module, and the functional module sends a data signal to the control module and works according to the control signal sent by the control module.
The connection mode of the control module and the function module can be a wired mode or a wireless mode.
The case includes a storage case for receiving objects. The box body can be of a closed structure or a semi-closed structure. The box body also comprises a function box provided with a control module and a function module, the invention does not limit the number, the structure and the relative position of the storage box and the function box, and a person skilled in the art can design according to actual needs.
In order to ensure that the control module and the functional module can work normally, the box body can be provided with a charging hole connected with the power module so as to plug an external power line and provide electric energy for the control module and the functional module.
The power module is used for supplying power to components such as a control module and a functional module in the storage box, and the power module exemplarily comprises a charger and a rechargeable battery.
The locking module is used for locking a box cover or a box door of the containing box, and the like, and is preferably arranged at the box cover or the box door of the containing box. The invention is not limited to the specific form of the locking module, which may be a combination lock, a fingerprint lock, a remote control lock, etc. The locking module sends a data signal containing an open/close signal to the control module when the locking module is opened/closed, and can execute the opening/closing according to the control signal of the control module.
The location service module can be located outside the box body or inside the box body, and acquires the real-time geographic location (including but not limited to longitude and latitude, altitude and the like) of the containing box according to the control signal of the control module, and sends a data signal including the real-time geographic location to the control module.
The temperature and humidity acquisition module can be positioned outside the box body and/or in the box body, acquires real-time temperature and humidity data outside the box body and/or in the box body according to a control signal of the control module, and sends a data signal containing the real-time temperature and humidity data to the control module.
The camera module is positioned in the box body, collects image data in the box body according to a control signal of the control module, and sends a data signal containing the image data to the control module. The camera module can contain one or more cameras, and when the camera module contains a plurality of cameras, the cameras are used for shooting image data of different angles in the collection box.
The vibration detection module can be positioned outside the box body or in the box body, collects the vibration amplitude of the containing box according to the control signal of the control module, and sends a data signal containing the vibration amplitude to the control module. For example, the vibration detection module used in the present invention includes a 3D vibration sensor (gravity acceleration sensor), and specifically, the 3D vibration sensor includes a gyroscope, a gravity sensor, an integrated chip, and the like. Through setting up 3D vibration sensor, can accurately measure the acceleration of containing box equidirectional, consequently, no matter the containing box is that forward is placed, the fall is placed or the side direction is placed, all can measure its acceleration to calculate the vibration intensity of containing box. For example, when the container falls from a certain height to the ground, the falling speed V of the container becomes 0 at the moment of contacting the ground, and in this process, there is inevitably a reverse acceleration (upward from the ground), and in this case, the vibration amplitude may be exemplified by the acceleration, and when the acceleration exceeds a predetermined threshold, it is proved that the container is abnormally carried or loaded or unloaded.
The present invention is not limited thereto, and the vibration detection module may further adopt a force sensor, a strain sensor, or the like as a vibration sensor for acquiring a vibration amplitude of the storage box.
It should be noted that, according to the type of the vibration detection module and the actual service requirement, the vibration detection module may send a data signal containing the vibration amplitude to the control module in multiple modes. For example, the vibration detection module may continuously transmit the vibration amplitude of the storage box to the control module when operating, or may transmit the vibration amplitude of the storage box to the control module only when the vibration amplitude exceeds a predetermined threshold. Similarly, the other acquisition modules may also continuously transmit data signals, or transmit data signals to the control module when the data signals exceed a predetermined threshold.
The data storage module includes a local memory, which may be located outside or inside the box, and receives and stores the data signal sent by the control module (e.g., the data signal including various information sent by other functional modules to the control module, the data signal including an open/close signal of the lock module, etc.) to form specific data. Preferably, the data storage module is an EEPROM (electrically erasable and programmable read only memory) to ensure that data is not lost in case of power failure. Furthermore, the data storage module further comprises a cloud storage, so that the data storage module is convenient for a user to use.
The data transmission module may be located outside or inside the box body, and may communicate with an external ((wireless) base station or node) using various existing wireless communication standards, and the data transmission module receives an external control signal, transmits the external control signal to the control module, and receives a control signal of the control module, and transmits a data signal and/or specific data to the external base station or node.
When the data storage module further comprises a cloud storage, the data transmission module may be further configured to send a data signal to the cloud storage.
The data transmission module also comprises a self-checking module, wherein the self-checking module is used for detecting whether the data transmission module is normally communicated with the outside or not, sending a communication abnormal signal to the control module when the communication is abnormal, and sending a communication normal signal to the control module when the communication is recovered to be normal.
The control module may be located outside or inside the box, and is in the prior art, and includes, for example, an internal clock, a programmable processor, various data interfaces, and the like. The internal clock is used for identifying the occurrence time of each data; the programmable processor is used for defining the specific working mode of each module; the data interface is used for receiving/transmitting data with different types of structures adopted by different modules. The control module controls all other modules, including turning on/off of each functional module, sending control signals (such as data acquisition commands, on/off commands, etc.) to each module, etc. The control module is also responsible for carrying out data format conversion, data forwarding, data extraction and other work on the received data of each functional module.
The storage box for logistics storage at least comprises three working modes: an active mode of operation, a passive mode of operation, and a hybrid mode of operation. Any one of the working modes can be adopted according to the actual business requirements.
In the active working mode, the collection module in the storage box starts to work when the storage box starts to work. The acquisition module sends the acquired data signals to the control module, and the control module stores the data signals on the data storage module to form specific data. When the data transmission module receives an external control signal containing a request to view data, the requested specific data is transmitted to an external base station or node through the data transmission module. The active working mode can record all data in real time in the whole process, and a user can trace any data at any time in the logistics storage process.
It should be noted that the data signal stored and transmitted according to the predetermined strategy may be a continuous real-time data signal or an intermittent data signal with a specific time interval.
In the passive working mode, all the acquisition modules in the storage box do not work when the storage box starts to work, and the data transmission module works. When the data transmission module receives an external control signal, the control module starts the corresponding acquisition module according to the data type required to be checked by the external control signal, transmits the data signal acquired by the acquisition module to the outside through the data transmission module, and simultaneously stores the data signal into the data storage module. The passive working mode can save electric energy, data flow and storage space.
Both the active and passive modes of operation described above have certain disadvantages. For example, in the active working mode, the requirements on electric energy and storage space are high due to whole-course real-time acquisition, and when a data uploading mode is adopted, the consumed data flow is large. Only when the user sends the external control signal who looks over the data request in passive mode, just can gather data signal, can't accomplish whole journey and trace back, be in the communication under unusual circumstances when the containing box, even the user sends external control signal, also can't acquire data.
In the hybrid working mode, firstly, the self-checking module in the data transmission module detects whether the communication is abnormal, namely, whether the data transmission module is in normal communication with the outside. When the self-checking module in the data transmission module detects that the data transmission module can work normally, the containing box is in a passive working mode. When a self-checking module in the data transmission module detects that the data transmission module is abnormal in work (for example, the conditions that a network is abnormal and the containing box enters a shielding area) and cannot normally communicate with the outside, the data transmission module sends an abnormal signal to the control module, and the control module controls the acquisition module to start working when receiving the abnormal signal and stores the data signal acquired by the acquisition module on the data storage module to form specific data, namely, the containing box enters an active working mode. When the self-checking module in the data transmission module detects that the data transmission module can normally communicate with the outside, the containing box enters the passive working mode again and selectively sends specific data to the outside, so that the problem that the specific data cannot be provided for a user when the containing box is in an abnormal communication condition is solved, and the traceability of the data is realized.
It should be added that the invention does not limit the working mode of the storage box, and can be arbitrarily defined according to the actual service situation and the actual user requirement. For example, different operating modes may be set for different acquisition modules. More specifically, the temperature and humidity acquisition module and the vibration detection module with relatively small data size and relatively low energy consumption can be always in an active working mode, namely the temperature and humidity acquisition module and the vibration detection module work in the whole process; for position service modules, camera modules and the like with large data volume and high energy consumption, the position service modules, the camera modules and the like can be in a passive working mode, namely, data signals can be collected only when a user sends an external control signal for checking a data request.
Furthermore, the control module also comprises an alarm module, and the alarm module is used for actively sending the specific data exceeding the preset threshold value to the outside through the data transmission module when the specific data exceed the preset threshold value so as to prompt risks.
Furthermore, in order to ensure the safety of the articles in the storage box, no matter what working mode is adopted by the storage box, when the state of the locking module is changed, a data signal containing an opening/closing signal is sent to the control module, and the control module sends the data signal to the data storage module.
The mode of operation of the present invention is described below with reference to specific examples.
Example one
Fig. 2 is a flowchart illustrating a working procedure of the storage box according to an embodiment of the invention. In this embodiment, the storage box operates according to the following steps:
s11: when the service is started, the control module controls the function module to start working;
s12: a user puts the held articles into the containing box, locks the locking module, and the locking module sends locking signals to the control module;
s13: the control module sends the locking signal to a local memory and a cloud memory of the data storage module;
s14: the acquisition module acquires data signals and sends the acquired data signals to the control module;
s15: the control module sends the data signal to a local memory and a cloud memory in the data storage module;
s16: a user opens the locking module, takes out the held article, and the locking module sends an opening signal to the control module; the control module sends the starting signal to a local memory and a cloud memory of the data storage module;
s17: the user sends an external control signal containing the service end to the data transmission module;
s18: the data transmission module sends an external control signal containing the service end to the control module, and the control module controls the function module to stop working and the service is ended.
It should be added that the above S15 can be performed only when the data transmission module can work normally, and when the self-checking module in the data transmission module detects a communication abnormality, the S15 further includes the following steps:
s151: a self-checking module in the data transmission module detects communication abnormity;
s152: the data transmission module sends the abnormal signal to the control module;
s153: the control module sends the data signal to a local memory in the data storage module;
s154: when the self-checking module in the data transmission module detects that the communication is normal, the normal signal is sent to the control module, and the control module sends the data signal stored in the local memory during the abnormal communication period to the cloud memory in the data storage module through the data transmission module and returns to S15.
Otherwise, returning to S153, i.e., the control module continues to send the data signal to the local memory in the data storage module.
In order to ensure that the storage box can operate normally, in S11, after the service is started and before the control module controls the functional module to start operating, a storage box self-checking step may be further included to confirm whether the functional module of the storage box operates normally.
In this embodiment, since the data signal is sent to the cloud storage, preferably, the request for viewing the real-time data or the historical data from the outside is responded by the cloud storage.
Note that when the locking module is unlocked, which may be the end of normal service, the user unlocks and removes the held item; or may be an illegal opening in the service process. Therefore, the locking module is unlocked and does not mean that the service is finished, the containing box still continues to collect, store and send various data (including a locking signal of the lock again), and the containing box does not stop collecting, storing and sending the data signals until an external control signal including the service is finished.
Example two
Fig. 3 is a flowchart illustrating a work procedure of the storage box according to a second embodiment of the present invention. In this embodiment, the storage box operates according to the following steps:
s21: when the service is started, the control module controls the function module to start working;
s22: a user puts the held articles into the containing box, locks the locking module, and the locking module sends locking signals to the control module;
s23: the control module sends the locking signal to a local memory of the data storage module;
s24: the acquisition module acquires data signals and sends the acquired data signals to the control module;
s25: the control module sends the data signal to a local memory in the data storage module;
s26: a user opens the locking module, takes out the held article, and the locking module sends an opening signal to the control module; the control module sends the opening signal to a local memory of the data storage module;
s27: the user sends an external control signal containing the service end to the data transmission module;
s28: the data transmission module sends an external control signal containing the service end to the control module, and the control module controls the function module to stop working and the service is ended.
When a user needs to check the state of the containing box, an external control signal containing a data checking request can be sent to the control module through the data transmission module (the data transmission module receives the external control signal containing the data checking request sent by the user and sends the external control signal to the control module), and according to the difference of the types of the data checking signals (a real-time data signal and a historical data signal), the control module sends the real-time data signal to the outside through the data transmission module or sends specific data stored on the data storage module to the outside (the control module reads the specific data stored on the data storage module and sends the specific data to the outside through the data transmission module). When the user wishes to stop viewing the state of the storage box or has completed transmission of the specific data, the control module stops transmission of the data signal and/or the specific data by transmitting an external control signal containing a request to stop viewing the data to the control module through the data transmission module.
In this embodiment, compared with the first embodiment, the acquired data signals are all stored in the local memory, and when the containing box receives an external control signal containing a request for viewing data, the control module sends the data of the external request through the data transmission module while continuing to maintain the acquisition and storage of the data, so that the two operations are performed concurrently.
EXAMPLE III
Fig. 4 is a flowchart illustrating a work procedure of the storage box according to a third embodiment of the present invention. In this embodiment, the storage box operates according to the following steps:
s31: when the service is started, the control module controls the power module, the locking module and the data transmission module to work, and the acquisition module is in standby;
s32: a user puts the held articles into the containing box, locks the locking module, and the locking module sends locking signals to the control module;
s33: the control module sends the locking signal to the data storage module;
s34: a user sends an external control signal containing a data viewing request to a data transmission module, and the data transmission module sends the external control signal containing the data viewing request to a control module;
s35: the control module controls the acquisition module to work, the acquisition module acquires data signals and sends the acquired data signals to the control module;
s36: the control module sends the data signal to an external and data storage module through the data transmission module;
s37: the user sends an external control signal containing a request for stopping checking the data to the data transmission module, and the data transmission module sends the external control signal containing the request for stopping checking the data to the control module;
s38: the control module stops sending data signals to the outside and the data storage module and controls the acquisition module to be in standby;
s39: a user opens the locking module, takes out the held article, and the locking module sends an opening signal to the control module; the control module sends the starting signal to the data storage module;
s310: the user sends an external control signal containing the service end to the data transmission module; the data transmission module sends an external control signal containing the service end to the control module, and the control module controls the function module to stop working and the service is ended.
Example four
Fig. 5 is a flowchart illustrating a work procedure of the storage box according to the fourth embodiment of the present invention. In this embodiment, the storage box operates according to the following steps:
s41: when the service is started, a self-checking module in the data transmission module detects whether the communication is normal or not; if yes, the process goes to S42, and if not, the process goes to S43; until the end of the service.
S41: the containing box enters a passive working mode;
s43: the containing box enters an active working mode.
In this embodiment, the storage box is in a hybrid working mode, which not only can save electric energy, storage space and data traffic, but also can store various data signals in the time period when communication is abnormal, so that a user can trace back the data signals, and an effect of providing data to the user in the whole service process is achieved (data in a normal communication stage provides real-time data service to the user; data in an abnormal communication stage provides historical data service to the user).
In summary, the invention provides a storage box for logistics storage, which realizes remote online real-time unlocking reminding, position service, temperature and humidity detection, camera shooting, photographing, vibration detection and other functions by arranging a functional module comprising a vibration detection module and the like; the containing box can enable a user to know whether the articles are illegally opened in real time in the process of transporting and storing the articles, and know the real-time positions, the environmental temperature and humidity, the real-time state of the articles, the vibration intensity in the process of transporting and storing the articles and the like, so that the user can master the real state of the articles in the process of logistics and storing the articles in the whole process, and the articles are protected from being stolen and stolen; after an accident occurs, the accident reason can be traced by calling stored data, the responsibility of each party is confirmed, and business disputes are avoided; meanwhile, the service provider can be prompted to properly process the held objects in time in an abnormal state.
Claims (10)
1. A containing box for logistics storage comprises a box body and is characterized in that the box body is provided with a control module and a function module, the control module is connected with the function module, and the function module sends a data signal to the control module and works according to the control signal sent by the control module; the functional module includes:
a power module for supplying power to the storage box,
a locking module for locking a cover or a door of the storage box,
a data storage module for receiving and storing the data signal transmitted by the control module to form the specific data,
a data transmission module for receiving an external control signal, transmitting the external control signal to the control module, and receiving a control signal of the control module, transmitting the data signal and/or the specific data to the outside,
an acquisition module, comprising:
a position service module for collecting the real-time geographical position of the containing box according to the control signal of the control module and sending a data signal containing the real-time geographical position to the control module,
a temperature and humidity acquisition module for acquiring real-time temperature and humidity data outside and/or inside the box body according to the control signal of the control module and sending a data signal containing the real-time temperature and humidity data to the control module,
the camera module is used for collecting image data in the box body according to the control signal of the control module and sending a data signal containing the image data to the control module,
the vibration detection module is used for collecting the vibration amplitude of the containing box according to the control signal of the control module and sending a data signal containing the vibration amplitude to the control module.
2. The storage box for logistics storage according to claim 1, wherein the box body is provided with a charging hole connected with the power module for plugging an external power line.
3. The container for logistics storage according to claim 1, wherein the vibration detection module is operative to continuously send the vibration amplitude of the container to the control module, or the vibration detection module sends the vibration amplitude of the container to the control module only when the vibration amplitude exceeds a predetermined threshold.
4. The container for logistics warehousing of claim 1, wherein the data storage module comprises a local memory and a cloud memory.
5. The receiving box for logistics storage of claim 1, wherein the data signal is a continuous real-time data signal or an intermittent data signal at a specific time interval.
6. The receiving box for the logistics warehousing of claim 1, wherein the control module further comprises an alarm module, and the alarm module is configured to actively send the specific data exceeding a preset threshold value to the outside through the data transmission module when the specific data exceeds the preset threshold value.
7. The receiving box for logistics storage according to claim 1, wherein the data transmission module further comprises a self-checking module, and the self-checking module is used for detecting whether the data transmission module is in normal communication with the outside.
8. The receiving box for logistics storage according to claim 7, wherein the receiving box comprises at least one of the following three operation modes:
an active working mode: the data transmission module is used for receiving a data checking request sent by the control module, and transmitting the data checking request to the data storage module;
and (3) passive working mode: when the containing box starts to work, the data transmission module works, the acquisition module is in a standby state, when the data transmission module receives an external control signal, the control module starts the corresponding acquisition module according to the data type required to be checked by the external control signal, transmits the data signal acquired by the acquisition module to the outside through the data transmission module, and simultaneously stores the data signal into the data storage module;
and (3) hybrid working mode: the self-checking module detects whether the data transmission module is in normal communication with the outside, if so, the containing box is in the passive working mode, and if not, the containing box is in the active working mode.
9. The receiving box for logistics storage according to claim 8, wherein in the active operating mode, the storing of the data signal on the data storage module by the control module is specifically: the control module stores the data signal to a local memory and a cloud memory, or the control module stores the data signal to a local memory;
when the control module stores the data signals to a local memory and a cloud memory and the self-checking module detects that communication is abnormal, the data transmission module sends abnormal signals to the control module; the control module sending the data signal only to the local memory; when the self-checking module detects that the communication is normal, a normal signal is sent to the control module, and the control module sends the data signal stored on the local memory during the abnormal communication period to the cloud memory through the data transmission module.
10. The receiving box for the logistics warehousing of claim 8, wherein the control module sends a data signal including an open/close signal to the control module when the state of the locking module is changed, and the control module sends the data signal including the open/close signal to the data storage module.
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| CN202010272751.4A CN113516422A (en) | 2020-04-09 | 2020-04-09 | A containing box for commodity circulation storage |
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| Application Number | Priority Date | Filing Date | Title |
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| CN202010272751.4A CN113516422A (en) | 2020-04-09 | 2020-04-09 | A containing box for commodity circulation storage |
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