CN212009622U - Intelligent tray system for automatic warehouse-in and warehouse-out management - Google Patents
Intelligent tray system for automatic warehouse-in and warehouse-out management Download PDFInfo
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- CN212009622U CN212009622U CN202020723245.8U CN202020723245U CN212009622U CN 212009622 U CN212009622 U CN 212009622U CN 202020723245 U CN202020723245 U CN 202020723245U CN 212009622 U CN212009622 U CN 212009622U
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Abstract
The utility model discloses an intelligent tray system for automatic warehouse-in and warehouse-out management, which comprises an intelligent terminal module, an in-field logistics monitor, an in-field monitoring gateway and a background management system; after the intelligent terminal module and the tray are bound, the tray is managed through an on-site logistics monitor and an on-site monitoring gateway; the tray carrying the intelligent terminal module can be used for monitoring the information sent by the monitoring machine when passing through the area where the logistics monitoring machine in the field is deployed; the monitoring machines send the received tray data and the self working mode information to the in-field monitoring gateway, and the gateway collects the data sent by each monitoring machine and then sends the collected data to the background system server; the system analyzes and calculates the received data, and simultaneously marks the state change of each tray in the system to finish the operation of warehouse-out or warehouse-in. The utility model has the advantages of no operation environment and condition restriction, installation and debugging cost are low, quick and accomplish in batches go out warehouse entry statistics in batches greatly.
Description
Technical Field
The utility model belongs to the technical field of storage logistics and specifically relates to an intelligent tray system that can automize warehouse entry management.
Background
In the manufacturing and logistics industries, the entry and exit of raw materials and goods into and out of warehouses is a very common and frequent operation. The latter operation includes a plurality of specific operations such as picking, placing, loading, unloading, carrying, counting, checking and the like. At present, enterprises adopt a large number of equipment such as trays, automatic lifting forklifts, automatic stackers and the like, so that the operating efficiency of links such as taking, placing, loading, unloading, carrying and the like is greatly improved. However, in the links of statistics, verification and the like, the method still mainly depends on a manual or semi-automatic mode, and the efficiency and the accuracy are not very high.
After the goods are brought into the coding management, the counting and rechecking work of the goods in and out of the warehouse is correspondingly completed by a code scanning mode. Its advantages are clear knowledge about the goods in or out of warehouse, but one scan for each scan is needed in operation, and its speed is not increased. Failure to scan the code may occur if the printed quality of the coded label is poor, the label is smudged, or the brightness of the environment is insufficient when the code is scanned. If the goods are not placed in a good position or orientation, the coded labels are not visible, and the code cannot be scanned. Furthermore, in the case of code scanning, it is also possible to generate omissions.
A more advanced method is to install an RFID tag on the goods, and the code of the goods is written in the RFID tag as a supplement to the barcode or the two-dimensional code. When goods with electronic tags pass through a special door with an RFID reader during warehousing, the reader can read the information of the electronic tags in batches, and the system can finish warehousing and warehousing operations on the goods. Compared with manual operation and code scanning operation, the scheme has the advantages that the speed is greatly improved, and the identity of the goods can be identified. However, the RFID solution also has some drawbacks. For example, the distance between the tag and the card reader is required to be relatively short, the goods are required to be placed in a mode that the tag and the card reader are not shielded as much as possible, the goods cannot be placed too densely, metal substances cannot exist nearby the tag, and the like, otherwise, some tags cannot be scanned. In practical applications, incomplete scanning is also often found.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an automatic intelligent tray system of warehouse entry management based on bluetooth low energy and loRa technique installs the intelligent terminal module of built-in bluetooth chip to the tray on to bind the tray and the goods that load on it, through deploying dedicated monitoring machine at the warehouse gate, can realize accurate automation warehouse entry operation.
In order to realize the purpose, the following technical scheme is adopted: the system of the utility model comprises an intelligent terminal module, an on-site logistics monitor, an on-site monitoring gateway and a background management system;
the intelligent terminal module is fixedly installed at a position which is not easy to be collided outside the tray, or is placed inside the tray body through a reserved installation position;
the intelligent terminal module takes the MAC address of the main control chip in the intelligent terminal module as a code, and is printed out in a bar code or two-dimensional code form and stuck to the visible position on the surface of the module shell before being installed outside or inside the tray; correspondingly, the tray is also encoded and printed in a bar code or two-dimensional code form and is stuck to the visible position on the surface of the tray; scanning the bar code or the two-dimensional code through intelligent digital equipment to send the codes of the tray and the intelligent terminal module to a cloud database for binding and storing;
after the intelligent terminal module is bound with the tray, the tray can be managed through the cloud intelligent tray management system;
the cloud intelligent tray management system comprises an on-site logistics monitor and an on-site monitoring gateway;
when the in-field logistics monitor is used for automatic warehouse entry and exit management, the in-field logistics monitor is deployed on a passage through which the tray must pass in and out of the warehouse, and monitors signals sent by the intelligent tray module within a range;
the in-field monitoring gateway is deployed in an area where the gateway and each in-field logistics monitor can communicate through a LoRa protocol;
the tray carrying the intelligent terminal module can be used for monitoring the information sent by the monitoring machine when passing through the area where the logistics monitoring machine in the field is deployed; the monitoring machines send the received tray data and the self working mode information to the in-field monitoring gateway, and the gateway collects the data sent by each monitoring machine and then sends the collected data to the background system server; the system analyzes and calculates the received data, and simultaneously marks the state change of each tray in the system to finish the operation of warehouse-out or warehouse-in.
Furthermore, the intelligent terminal module consists of an integrated circuit assembly, a lithium battery power supply and a shell; the integrated circuit assembly comprises a low-power consumption Bluetooth BLE chip with a microprocessor, a memory, a power management module, an external data interface and an external clock module; the memory, the power management module, the external data interface and the external clock module are respectively connected with the BLE chip.
Furthermore, the intelligent terminal module adopts a disposable lithium battery for power supply; the module is electrified, namely, the module is automatically started to start working, the Bluetooth radio frequency signal is continuously broadcast at a fixed frequency, the broadcasting time is 100 milliseconds each time, and the average working current of the module is 1 milliampere during broadcasting; the broadcasting completion module enters a standby state, and the average current is 5 microamperes in the standby state; the module is not provided with a power-on key and a power-off key; the intensity of a signal transmitted by the intelligent terminal module is adjustable, and the signal transmission distance broadcasted by the module is 15-20 m under the condition that the transmission power is set to be 0dBm as a default value; and under the condition that the transmitting power is adjusted to be maximum, the signal transmission range is 50-60 m.
Furthermore, the intelligent terminal module shell is of a rectangular shell structure, is made of flame-retardant ABS materials, is designed according to the waterproof and dustproof requirements of IP67, and is provided with through holes at four corners, and the shell cover and the shell are fastened and tightly sealed through screws; the intelligent terminal module circuit board and the lithium battery power supply are sealed in the shell; the middle part of the shell is additionally provided with 2 through holes for installing and fixing the intelligent terminal module on various types of trays; the through hole is isolated mutually with casing inner space, has inlayed silica gel O type circle between cap and the casing.
Furthermore, the in-field monitoring gateway consists of a microprocessor chip, a Wi-Fi chip, an Ethernet transceiver, a LoRa transceiver, a 4G communication module, an RS-232/485 industrial communication module, a memory, a power management module, a clock management module, a circuit switch and an external gain antenna; the deployment place of the in-field monitoring gateway is within the distance that the gateway and each in-field logistics monitoring machine can communicate through the LoRa protocol.
Furthermore, the logistics monitor in the field consists of a multi-protocol 2.4G wireless microprocessor chip, a LoRa system chip, a memory, a power management module, a clock management module, a mode selection switch and an external gain antenna, and a temperature and humidity sensor chip interface is reserved; the LoRa system chip, the memory, the clock management module and the power management module are respectively connected with the microprocessor; the external gain antenna is used for expanding the scanning range of the logistics monitor in the field.
Further, the pallet may be various types of pallets made of wood or steel, aluminum, plastic, and other composite materials for loading cargo for transportation and storage.
Further, the MAC address of the intelligent terminal module needs to establish a one-to-one correspondence with the code of the tray, that is, binding is performed, and the binding is performed through a dedicated intelligent device APP; the intelligent device APP is installed on the intelligent mobile phone with the Bluetooth 4.0 function and runs under an android system or an iOS system.
An intelligent tray application method for automatic warehouse-in and warehouse-out management comprises the following steps:
s1, mounting and fixing the produced intelligent terminal module on a tray in a screw, rivet or even viscose mode; the intelligent terminal module does not have a power-on key and a power-off key, starts working from the completion of production, and continuously transmits signal broadcasting at a certain frequency until the electric energy of the built-in lithium battery is exhausted;
s2, installing and deploying the in-site monitoring gateway in a factory area or a storage area, and ensuring that the communication range of the gateway can cover the positions of all in-site logistics monitoring machines;
s3, installing and deploying the logistics monitor in the yard on the necessary channel of the pallet and the goods in and out of the warehouse as required;
s4, running a special APP to establish Bluetooth connection between the smart phone and the logistics monitor in the field, and writing specific parameter values into the monitor through the smart phone to adjust the scanning monitoring range of the monitor;
s5, in the background management system, each in-site logistics monitor needs to be configured under a certain warehouse item;
s6, a mode selection switch is arranged on the logistics monitor in the site; the universal mode can simultaneously detect the warehousing of the tray and the ex-warehousing of the tray under a specific service scene.
Compared with the prior art, the utility model has the advantages of as follows:
1. the warehouse entry and exit statistics can be completed rapidly and massively;
2. accurate data, no operation environment and condition limitation. When the tray is delivered from the warehouse, the tray does not need to pass through a specific path, and the tray can be counted when being arranged in a closed carriage;
3. the monitoring range is adjustable, the deployment of the monitoring machine and the gateway is simple, and the installation and debugging cost is low;
4. the working mode of the monitoring machine can be switched, and the system is suitable for the warehouse-in and warehouse-out scenes of various services;
5. the intelligent mobile phone can be used for replacing a monitor and a gateway, so that the application cost is further reduced;
6. and the function expansibility is good. The tray provided with the intelligent module can be automatically managed in and out of the warehouse, and can be expanded to inventory checking, misloading, anti-theft alarm, trajectory tracking and the like.
Drawings
Fig. 1 is a data flow diagram of the present invention.
Fig. 2 is the utility model discloses well intelligent terminal module's connection schematic diagram.
Fig. 3 is a schematic diagram of the intelligent terminal module.
Fig. 4 is the utility model discloses well intelligent terminal module's casing schematic diagram.
Fig. 5 is an operation interface diagram of the mobile phone APP of the present invention.
Fig. 6 is a rule diagram for judging whether the warehouse is in or out in the general mode of the present invention.
Fig. 7 is a judgment rule diagram in the delivery mode of the present invention.
Fig. 8 is a judgment rule diagram in the warehousing mode of the present invention.
Fig. 9 is a schematic diagram of the logistics monitor in the field.
Fig. 10 is a schematic diagram of the in-field monitoring gateway of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
It is to be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt prior art, and conventional model, including circuit connection adopts conventional connection mode among the prior art, does not detailed here again.
Example 1:
as shown in fig. 1, the system of the present invention includes an intelligent terminal module, an on-site logistics monitor, an on-site monitoring gateway, and a background management system;
the intelligent terminal module can be fixedly installed at a position, which is not easily collided, outside the tray in a riveting mode or the like, or is placed in the tray body, such as pier feet of the tray, through a reserved installation position;
the intelligent terminal module takes the MAC address of the main control chip in the intelligent terminal module as a code, and is printed out in a bar code or two-dimensional code form and stuck to the visible position on the surface of the module shell before being installed outside or inside the tray; correspondingly, the tray is also encoded and printed in a bar code or two-dimensional code form and is stuck to the visible position on the surface of the tray; scanning the bar code or the two-dimensional code through intelligent digital equipment to send the codes of the tray and the intelligent terminal module to a cloud database for binding and storing;
the tray code can directly adopt the code of the intelligent terminal module, and can also be separately coded. If the tray is coded additionally, the codes of the tray and the intelligent module can be read in a mode of continuously scanning the two different codes, and the codes are sent to the cloud-end database for binding. This operation is done by a special smartphone APP.
After the intelligent terminal module is bound with the tray, the tray can be managed through the cloud intelligent tray management system;
the cloud intelligent tray management system comprises an on-site logistics monitor and an on-site monitoring gateway;
when the logistics monitor in the yard is used for automatic warehouse entry and exit management, the logistics monitor is arranged on a passage through which the pallets enter and exit the warehouse and is far away from the pallets or goods which are temporarily or permanently stacked inside and outside the warehouse as far as possible. Through parameter debugging, the logistics monitor in the field can monitor signals sent by the intelligent tray module within the range of several meters to dozens of meters;
the in-field monitoring gateway is deployed in an area where the gateway and each in-field logistics monitor can communicate through a LoRa protocol;
the tray carrying the intelligent terminal module is used for monitoring the information sent by the monitoring machine when the tray passes through an area where the logistics monitoring machine in the field is deployed no matter whether the tray is loaded or unloaded; the monitoring machines send the received tray data and the self working mode information to the in-field monitoring gateway, and the gateway collects the data sent by each monitoring machine and then sends the collected data to the background system server; the system analyzes and calculates the received data, and simultaneously marks the state change of each tray in the system to finish the operation of warehouse-out or warehouse-in.
As shown in fig. 2 and 3, the intelligent terminal module is composed of an integrated circuit assembly, a lithium battery power supply and a housing; the integrated circuit assembly comprises a low-power consumption Bluetooth BLE chip with a microprocessor, a memory, a power management module, an external data interface and an external clock module; the memory, the power management module, the external data interface and the external clock module are respectively connected with the BLE chip; the microprocessor is RS02A 1.
The intelligent terminal module is powered by a disposable lithium battery; the module is electrified, namely, the module is automatically started to start working, a Bluetooth radio frequency signal is continuously broadcast at a fixed frequency (adjustable and default to 0.1 Hz), the broadcasting time is 100 milliseconds each time, and the average working current of the module is 1 milliampere during broadcasting; the broadcasting completion module enters a standby state, and the average current is 5 microamperes in the standby state; the module can continuously work for more than 5 years by calculating the CR2477 type lithium manganese battery with the capacity of 1000 mAmp; the module is not provided with a power-on key and a power-off key; the intensity of a signal transmitted by the intelligent terminal module is adjustable, and the signal transmission distance broadcasted by the module is 15-20 m under the condition that the transmission power is set to be 0dBm as a default value; and under the condition that the transmitting power is adjusted to the maximum (the power consumption of the intelligent module is correspondingly increased), the signal transmission range is 50-60 m.
As shown in fig. 4, the housing of the intelligent terminal module is a rectangular housing structure, is made of flame-retardant ABS material, and is designed according to the waterproof and dustproof requirements of IP67, and through holes are formed at four corners of the housing, and the housing cover and the housing are fastened and sealed by screws; the intelligent terminal module circuit board and the lithium battery power supply are sealed in the shell; the middle part of the shell is additionally provided with 2 through holes for installing and fixing the intelligent terminal module on various types of trays; the through hole is isolated mutually with casing inner space, has inlayed silica gel O type circle between cap and the casing to satisfy waterproof dirt-proof requirement. The module packaged size is about 55x45x15 mm.
As shown in fig. 10, the in-field monitoring gateway is composed of a microprocessor chip of STM32F407, a Wi-Fi chip of RTL8711AF, an ethernet transceiver of DP83848, a LoRa transceiver of SX1278, a 4G communication module of EC20, an RS-232/485 industrial communication module, a memory, a power management module, a clock management module, a circuit switch, and an external gain antenna; the deployment place of the in-field monitoring gateway is within the distance that the gateway and each in-field logistics monitoring machine can communicate through the LoRa protocol, and the distance can reach more than 10 kilometers farthest.
As shown in fig. 9, the in-field logistics monitor is composed of a multi-protocol 2.4G wireless microprocessor chip with the model number CC2652R, a LoRa system chip with the model number ASR6051, a memory, a power management module, a clock management module, a mode selection switch and an external gain antenna, and reserves a chip interface of a temperature and humidity sensor; the LoRa system chip, the memory, the clock management module and the power management module are respectively connected with the microprocessor; the external gain antenna is used for expanding the scanning range of the logistics monitor in the field.
The pallet can be of various types made of wood or steel, aluminum, plastic and other composite materials for carrying goods for transportation and storage.
As shown in fig. 5, the MAC address of the intelligent terminal module needs to establish a one-to-one correspondence relationship with the code of the tray, that is, binding is performed, and the binding is performed through a dedicated intelligent device APP; the intelligent device APP is installed on the intelligent mobile phone with the Bluetooth 4.0 function and runs under an android system or an iOS system.
An intelligent tray application method for automatic warehouse-in and warehouse-out management comprises the following steps:
s1, mounting and fixing the produced intelligent terminal module on a tray in a screw, rivet or even viscose mode; the intelligent terminal module does not have a power-on key and a power-off key, starts working from the completion of production, and continuously transmits signal broadcasting at a certain frequency until the electric energy of the built-in lithium battery is exhausted;
s2, installing and deploying the in-site monitoring gateway in a factory area or a storage area, and ensuring that the communication range of the gateway can cover the positions of all in-site logistics monitoring machines;
s3, installing and deploying the logistics monitor in the yard on the pallet and the necessary passage for goods to enter and exit the warehouse according to the requirement, usually in the door of the warehouse or yard; according to the width of the gate of the warehouse or the yard, relevant parameters of the logistics monitor in the yard are adjusted, so that the monitoring range of the logistics monitor can just cover the width of the gate but is not too large. The parameter adjustment is completed through a smart phone supporting the Bluetooth 4.0 function.
S4, running a special APP to establish Bluetooth connection between the smart phone and the logistics monitor in the field, and writing specific parameter values into the monitor through the smart phone to adjust the scanning monitoring range of the monitor;
and S5, in the background management system, each in-site logistics monitor needs to be configured under a certain warehouse item, so that the system can identify which warehouse the tray information sent by the monitor belongs to. The code of the intelligent terminal module corresponding to each tray belongs to a certain warehouse item, and the state of the intelligent terminal module is marked as one of three states of ' warehouse in ', authorized warehouse out ' and ' on the way '. If the pallets are loaded with goods, the codes of the goods and the codes of the pallets are also associated in a background management system, and one code can be inquired by the other code.
S6, a mode selection switch is arranged on the logistics monitor in the site; the universal mode can simultaneously detect the warehousing of the tray and the ex-warehousing of the tray under a specific service scene. The tray warehouse-out has two scenes, and the difference is whether the trays can be determined to be warehouse-out before warehouse-out. Generally, when heterogeneous goods are delivered, which goods are to be delivered can be determined in advance. Since the goods and the pallets have corresponding relations, which pallets will be delivered from the warehouse can be determined in advance. In this scenario, the universal mode of the monitor is applicable. If the ex-warehouse plan is made and sent by an ERP, OMS or WMS system of a user, after plan data is imported into the intelligent tray management system, the system automatically marks the tray to be ex-warehouse as an authorized ex-warehouse state. The on-site logistics monitor sends broadcast information sent by the tray passing nearby to the background management system through the on-site monitoring gateway after receiving the broadcast information, the management system searches the state information of the tray in the system according to the received tray information, and if the tray is found to belong to the warehouse and the current state is authorized to be delivered out of the warehouse, the state of the tray is automatically changed to be in transit. If the pallet is found not to belong to the warehouse and the current status is "in transit", indicating that the pallet is being put in storage, the system automatically changes the status to "in-stock" and changes the warehouse to which the monitoring machine belongs. For other cases, the system does nothing. The warehouse-in/out judgment rule in the general mode is shown in fig. 6.
When the mode selection switch of the logistics monitor in the field is switched to the 'ex-warehouse mode', the monitor can only be used for counting the trays which are going out of the warehouse. This mode applies to scenarios where it is not possible to determine in advance which trays are going to be out of stock. If the user who operates the tray rental sends the trays to the client, the user only needs to ensure that the number of the sent trays is consistent, and does not specifically require which tray should be sent. Different from the general mode, in the ex-warehouse mode, for tray information scanned each time, the monitor sends mode switch data before sending the tray information to the background management system, and if the tray information is taken out of the warehouse as represented by '0', the current monitor is only used for ex-warehouse statistics. The management system searches the state information of the tray in the system according to the received tray information, and if the tray is found to belong to the warehouse and the current state is 'in-warehouse', the state of the tray is automatically changed into 'in-transit'. For other cases, the system does nothing. The judgment rule in the ex-warehouse mode is shown in fig. 7.
When the mode selection switch of the logistics monitor in the field is switched to the 'warehousing mode', the monitor can be only used for counting the trays being warehoused. The mode is suitable for various tray warehousing scenes. Different from the general mode, in the ex-warehouse mode, the monitoring machine sends mode switch data to the background management system before sending the tray information scanned each time, and if the tray information is sent to the background management system, the mode switch data is sent to the background management system, and the mode switch data represents warehousing by '1', which indicates that the current monitoring machine is only used for warehousing statistics. The management system searches the state information of the tray in the system according to the received tray information, if the tray is found not to belong to the warehouse and the current state is in the on-road state, the state of the tray is automatically changed into the on-road state, and the warehouse to which the tray belongs is changed into the current warehouse. For other cases, the system does nothing. The judgment rule in the binning mode is shown in fig. 8.
The above-mentioned embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.
Claims (8)
1. The utility model provides an automatic intelligent tray system of warehouse entry management which characterized in that: the system comprises an intelligent terminal module, an on-site logistics monitor, an on-site monitoring gateway and a background management system;
the intelligent terminal module is fixedly installed at a position which is not easy to be collided outside the tray, or is placed inside the tray body through a reserved installation position;
the intelligent terminal module takes the MAC address of the main control chip in the intelligent terminal module as a code, and is printed out in a bar code or two-dimensional code form and stuck to the visible position on the surface of the module shell before being installed outside or inside the tray; correspondingly, the tray is also encoded and printed in a bar code or two-dimensional code form and is stuck to the visible position on the surface of the tray; scanning the bar code or the two-dimensional code through intelligent digital equipment to send the codes of the tray and the intelligent terminal module to a cloud database for binding and storing;
after the intelligent terminal module is bound with the tray, the tray can be managed through the cloud intelligent tray management system;
the cloud intelligent tray management system comprises an on-site logistics monitor and an on-site monitoring gateway;
when the in-field logistics monitor is used for automatic warehouse entry and exit management, the in-field logistics monitor is deployed on a passage through which the tray must pass in and out of the warehouse, and monitors signals sent by the intelligent tray module within a range;
the in-field monitoring gateway is deployed in an area where the gateway and each in-field logistics monitor can communicate through a LoRa protocol;
the tray carrying the intelligent terminal module can be used for monitoring the information sent by the monitoring machine when passing through the area where the logistics monitoring machine in the field is deployed; the monitoring machines send the received tray data and the self working mode information to the in-field monitoring gateway, and the gateway collects the data sent by each monitoring machine and then sends the collected data to the background system server; the system analyzes and calculates the received data, and simultaneously marks the state change of each tray in the system to finish the operation of warehouse-out or warehouse-in.
2. The intelligent tray system for automated warehouse entry and exit management according to claim 1, wherein: the intelligent terminal module consists of an integrated circuit assembly, a lithium battery power supply and a shell; the integrated circuit assembly comprises a low-power consumption Bluetooth BLE chip with a microprocessor, a memory, a power management module, an external data interface and an external clock module; the memory, the power management module, the external data interface and the external clock module are respectively connected with the BLE chip.
3. The intelligent tray system for automated warehouse entry and exit management according to claim 1, wherein: the intelligent terminal module is powered by a disposable lithium battery; the module is electrified, namely, the module is automatically started to start working, the Bluetooth radio frequency signal is continuously broadcast at a fixed frequency, the broadcasting time is 100 milliseconds each time, and the average working current of the module is 1 milliampere during broadcasting; the broadcasting completion module enters a standby state, and the average current is 5 microamperes in the standby state; the module is not provided with a power-on key and a power-off key; the intensity of a signal transmitted by the intelligent terminal module is adjustable, and the signal transmission distance broadcasted by the module is 15-20 m under the condition that the transmission power is set to be 0dBm as a default value; and under the condition that the transmitting power is adjusted to be maximum, the signal transmission range is 50-60 m.
4. The intelligent tray system for automated warehouse entry and exit management according to claim 1, wherein: the intelligent terminal module shell is of a rectangular shell structure, is made of flame-retardant ABS materials, is designed according to the waterproof and dustproof requirements of IP67, and is provided with through holes at four corners, and a shell cover and the shell are fastened and tightly sealed through screws; the intelligent terminal module circuit board and the lithium battery power supply are sealed in the shell; the middle part of the shell is additionally provided with 2 through holes for installing and fixing the intelligent terminal module on various types of trays; the through hole is isolated mutually with casing inner space, has inlayed silica gel O type circle between cap and the casing.
5. The intelligent tray system for automated warehouse entry and exit management according to claim 1, wherein: the in-field monitoring gateway consists of a microprocessor chip, a Wi-Fi chip, an Ethernet transceiver, a LoRa transceiver, a 4G communication module, an RS-232/485 industrial communication module, a memory, a power management module, a clock management module, a circuit switch and an external gain antenna; the deployment place of the in-field monitoring gateway is within the distance that the gateway and each in-field logistics monitoring machine can communicate through the LoRa protocol.
6. The intelligent tray system for automated warehouse entry and exit management according to claim 1, wherein: the on-site logistics monitor consists of a multi-protocol 2.4G wireless microprocessor chip, a LoRa system chip, a memory, a power management module, a clock management module, a mode selection switch and an external gain antenna, and a temperature and humidity sensor chip interface is reserved; the LoRa system chip, the memory, the clock management module and the power management module are respectively connected with the microprocessor; the external gain antenna is used for expanding the scanning range of the logistics monitor in the field.
7. The intelligent tray system for automated warehouse entry and exit management according to claim 1, wherein: the pallet can be of various types made of wood or steel, aluminum, plastic and other composite materials for carrying goods for transportation and storage.
8. The intelligent tray system for automated warehouse entry and exit management according to claim 1, wherein: the MAC address of the intelligent terminal module needs to establish a one-to-one correspondence relationship with the code of the tray, namely binding is carried out, and the binding is operated through a special intelligent device APP; the intelligent device APP is installed on the intelligent mobile phone with the Bluetooth 4.0 function and runs under an android system or an iOS system.
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