CN113450041A - Logistics park order management system - Google Patents

Abstract

The invention discloses an order management system for a logistics park, which is characterized in that an order processing module intelligently analyzes order data, the carrying times of carrying equipment are calculated according to the name and the quantity of stock goods of an order, the quantity of the stock goods and the carrying capacity of the carrying equipment, the carrying distance from all the stock goods of the order to each stock platform is calculated according to the carrying times of the carrying equipment and the carrying distance from a warehouse area corresponding to the stock goods to each stock platform, and the stock platform with the shortest carrying distance is selected as an outlet platform. Therefore, the invention can coordinate the stock platforms of all orders, automatically distribute the orders to the optimal delivery platform, facilitate stock preparation, greatly save stock preparation time, design the most efficient delivery scheme for each order, have the highest overall operation efficiency of stock preparation and delivery in the garden and achieve the overall optimization effect.

Description

Logistics park order management system

Technical Field

The invention belongs to the technical field of logistics park management, and particularly relates to a logistics park order management system.

Background

The logistics park is an important component in logistics development, and the construction of the logistics park and supporting facilities thereof is the most important investment in the field of logistics, but the development of the logistics park still has many problems.

For the existing logistics park and warehouse, the problems of vehicle traffic jam, disordered stock and loading and the like can occur due to the fact that the work flow is not optimized. Compared with the time of vehicle transportation, the time of park stock and vehicle loading has higher operability and controllability, and is more favorable for improving the transportation efficiency and accelerating the turnover of the park.

Existing logistics parks and warehouses have in particular the following disadvantages:

1. because the warehouse area where the goods are located is scattered, the same vehicle needs to be loaded at multiple points, the vehicle is inconvenient to find the goods, does not know which platform to go for loading first, often has the driver to run wrong platform, cannot find the goods, or loads the goods which are not suitable for being pressed again first, and wastes time when the goods which are heavy are loaded again, and the efficiency is low.

2. At present, vehicles are loaded first, the timeliness of orders is not taken into consideration, sometimes the vehicles which are delivered first come later, and the platforms need to be replenished when the vehicles come, so that the vehicles can be loaded after waiting for a period of time, the delivery time is too long, the user experience is reduced, and the vehicle loading sequence is not arranged according to the actual delivery timeliness.

3. The vehicles enter and exit without records, a plurality of vehicles enter at one time, the phenomenon of park congestion is caused, and the overall loading efficiency is lower due to congestion. The time for the vehicles to get in and out cannot be mastered, and the vehicles can stay in the park and the like because the vehicles cannot find the goods all the time, so that inconvenience is brought to the management of the park.

4. The dock stock is linked up and disconnected with the vehicle entering the garden, inconvenience is brought to warehouse management personnel, the management personnel do not know what kind of goods should be prepared when, the truck driver does not know when to enter the garden, where the truck driver should go before entering the garden can only be judged by experience, and a new motorcade is found by self.

5. When the orders are distributed, due to the fact that the positions of different types of goods placed in the warehouse are different, the distances from the platforms to different platforms are also different, if the goods preparation platforms distributed by the orders are unreasonable, the long time for preparing goods on the platforms is easily caused, and the efficiency of the whole park is low.

Disclosure of Invention

The invention aims to provide a logistics park order management system, which solves the technical problem of disordered management of the conventional logistics park.

In order to achieve the purpose, the logistics park order management system provided by the invention is realized by adopting the following technical scheme:

a logistics park order management system comprising:

the storage module is used for storing warehouse areas corresponding to the goods, storing the conveying distance from each warehouse area to each stock platform in the warehouse and storing conveying equipment and the conveying amount corresponding to the conveying equipment;

the order processing module is used for receiving an order and acquiring the name of stock goods, the quantity of each stock goods and vehicle information corresponding to the order, wherein the stock goods name, the quantity of each stock goods and the vehicle information are included in the order; the storage module is used for storing the stock goods, and the storage module is used for storing the stock goods; the distribution handling equipment is used for reading the corresponding handling amount of the distributed handling equipment in the storage module and calculating the handling times of the handling equipment according to the quantity of the stock goods and the handling amount of the handling equipment; the conveying distance from all the stock goods of the order to each stock platform is calculated according to the conveying times of the conveying equipment and the conveying distance from the warehouse area corresponding to the stock goods to each stock platform; the stock platform is used for selecting the stock platform with the shortest carrying distance as the delivery platform; the goods preparation completion time of the delivery platform is calculated according to the carrying distance; the system comprises a storage module, an order generation module, a delivery module, a driver module and a driver module, wherein the storage module is used for generating a delivery scheme and sending the delivery scheme to the storage module, the delivery scheme comprises stock goods corresponding to the order, the quantity of each stock goods, handling equipment and handling capacity corresponding to each stock goods, and delivery platforms and stock completion time corresponding to the order, the delivery scheme is used for sending the stock completion time and vehicle information corresponding to the order to the corresponding platform module, the driver module is used for sending the garden entry time and the delivery platform of the vehicle information corresponding to the order to the driver module, and the garden entry time and the garden exit time of the vehicle information corresponding to the order are sent to the garden entry and exit identification module.

The order processing module is configured to obtain a time required for the order to be delivered, and arrange a stock order of the order according to the time required for the order to be delivered when the delivery platform is selected repeatedly.

According to the logistics park order management system, the order processing module is used for selecting the stock platform with the second shortest carrying distance as the stock delivery platform.

In the order management system for the logistics park, the order processing module is configured to obtain a total quantity of the goods of the order and a receiving capacity of the stock platform, and select the delivery platform according to the total quantity of the goods and the receiving capacity of the stock platform.

According to the logistics park order management system, the storage module is used for storing the benchmarking platforms, and when the benchmarking platforms correspond to a plurality of warehouses for stock goods of the same order, the stock platforms with the shortest carrying distance in each warehouse are used.

According to the logistics park order management system, the order processing module is used for sequencing the delivery platforms to form a delivery sequence and sending the delivery sequence to the driver module when the same order corresponds to at least two delivery platforms.

According to the logistics park order management system, the order processing module is used for acquiring the estimated arrival time of the driver module at the park and arranging the stock order of the order according to the estimated arrival time.

In the order management system for a logistics park, the order processing module is configured to obtain the position information of the handling device, and select a handling device with a short distance from the warehouse area as an allocated handling device.

Compared with the prior art, the invention has the advantages and positive effects that: the order processing module intelligently analyzes order data, the carrying times of the carrying equipment are calculated according to the name and the quantity of the stock goods of the order, the quantity of the stock goods and the carrying quantity of the carrying equipment, the carrying distance from all the stock goods of the order to each stock platform is calculated according to the carrying times of the carrying equipment and the carrying distance from a warehouse area corresponding to the stock goods to each stock platform, and the stock platform with the shortest carrying distance is selected as an outlet platform. The order processing module sends corresponding information to the storage module, the platform module, the driver module and the garden entering and exiting identification module, and all the modules perform ordered processing according to the distribution of the order processing module. Therefore, the invention can coordinate the stock platforms of all orders, automatically distribute the orders to the optimal delivery platform, facilitate stock preparation, greatly save stock preparation time, design the most efficient delivery scheme for each order, have the highest overall operation efficiency of stock preparation and delivery in the garden and achieve the overall optimization effect. Therefore, the invention can avoid the phenomena of congestion and chaos in the park and ensure the reasonable entering and exiting of the park vehicles, the order of goods taking and the order of platform goods stock.

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

Drawings

FIG. 1 is a schematic block diagram of a specific embodiment of the present invention.

Fig. 2 is a schematic distribution diagram of a warehouse bay and a stock platform according to an embodiment of the present invention.

Fig. 3 is a functional block diagram of a warehouse cargo management system in accordance with an embodiment of the present invention.

Fig. 4 is a flow chart of a warehouse cargo management method in accordance with an embodiment of the present invention.

Fig. 5 is a schematic diagram of a warehouse handling equipment management system in accordance with an embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and the detailed description.

The embodiment provides a logistics park management system, including the logistics order management system who is located the backstage, be located the storage module in warehouse, be located the platform module of platform, be located the driver module of vehicle and be located the business turn over garden identification module of logistics park portal. The logistics order management system comprises a storage module and an order processing module. The following describes each module separately:

the storage module is used for storing warehouse areas corresponding to the goods, storing the conveying distance from each warehouse area to each stock platform in the warehouse, and storing the conveying equipment and the conveying amount corresponding to the conveying equipment.

In this embodiment, the warehouse areas corresponding to the goods are as follows:

in this embodiment, the carrying distance (unit: meter) from each warehouse bay to each stock platform in the warehouse is as follows:

in this embodiment, the stored carrying capacity of the forklift is as follows:

articles and the like	Maximum transport capacity at one time
		Refrigerator (three doors)	1
Outdoor set of air-conditioner (35kg)	8
		Indoor set of air-conditioner (10kg)	8
Kitchen ventilator (40kg)	8
		Dishwasher (48kg)	8
Running machine (40kg)	8
		Water heater (60L,30kg)	8

And the order processing module is used for receiving the order and acquiring the name of the stock goods, the quantity of each stock goods and the vehicle information (license plate number and driver carrying) corresponding to the order. Specifically, the order creation time, the volume, the order delivery time and the like can be obtained.

The specific acquisition information is shown in the following table:

the order processing module is used for reading the carrying distance from the corresponding warehouse area of the stock goods in the storage module to each stock platform; the system comprises a storage module, a distribution handling device, a control module and a control module, wherein the storage module is used for storing the quantity of the stock goods and the handling quantity of the handling device; the system comprises a conveying device, a storage area, a storage platform, a conveying platform, a storage and storage platform and a storage and transportation platform, wherein the conveying device is used for calculating the conveying distance from all the stock goods to each stock platform according to the conveying times of the conveying device and the conveying distance from the storage area corresponding to the stock goods to each stock platform; the goods preparation platform is used for selecting the goods preparation platform with the shortest carrying distance as the goods delivery platform.

Specifically, the distance from each cargo to each stock platform in the order is equal to the total number of times each cargo handling device needs to handle multiplied by the handling distance from the cargo area to the platform, i.e., the total distance all the handling devices handling the cargo need to travel. And adding the total distances of all the goods of the order to obtain the total distance of all the goods of each order to be transported to each stock platform transporting device to be driven.

Distance from single cargo to stock platform, Si ═ Math. ceil (ni/1.0) × Si; si is the carrying distance from the warehouse area where the ith type of goods is located to the platform, ni is the total number of times that the ith type of goods carrying equipment of the order needs to carry, and Math.

Total distance of an order to a platform: s (i) ═ S1+ S2+ S3+ … + Si + … + Sn.

Taking order A as an example, the distances from the cargo area of various goods of order A to various platforms are shown in the following table:

number of times the refrigerator needs to be carried: t 2-96/1-96

The number of times the range hood needs to be carried: t 1-40/8-5

Platform No. i.1, math.ceil (n1/1.0) s1 ═ 1635

Platform No. ii.2, math. ceil (n2/1.0) s 2-928

Platform No. iii.3, math. ceil (n3/1.0) s3 ═ 413

Platform No. 4 math. ceil (n4/1.0) s 4-378

Platform No. v.5, math.ceil (n5/1.0) s5 ═ 1303

Platform No. vi.6, math.ceil (n6/1.0) s6 ═ 1935

……

Platform No. xiv.14 math.ceil (n14/1.0) s14 ═ 4349.

Therefore, the No. 4 stock platform is selected as the delivery platform.

The order processing module is used for acquiring delivery time of the order, and when the delivery platform is selected repeatedly, arranging the stock sequence of the order according to the delivery time. For example, the first warehouse has a 14 th platform that needs to be prepared for the D order and the E order, and the 14 th platform needs to be prepared for the D order according to the earliest requirement of the order.

The order processing module is used for selecting a stock platform with the second shortest carrying distance as a stock delivery platform. And selecting a standby delivery platform when the delivery platforms are selected repeatedly and the delivery time requirements are the same. And the order A selects the platform No. 3 as a standby delivery platform.

Other orders are processed in the same manner.

The order processing module is further used for obtaining the total goods amount of the order and the accommodating capacity of the stock platform, and selecting the delivery platform according to the total goods amount and the accommodating capacity of the stock platform. When the order goods quantity is smaller and can be accommodated by one goods preparation platform and the goods taking time is not coincident, a plurality of orders can be prepared to the same goods preparation platform. The order is large in volume and can be allocated to the order only when one stock platform is used for stock.

When the same order comprises goods in a plurality of warehouses, in order to reduce the calculation amount of the system, the storage module is used for storing the benchmarking platform, and when the benchmarking platform corresponds to the plurality of warehouses for the stock goods of the same order, the stock platform with the shortest carrying distance is arranged in each warehouse. For example, if the stock of a certain order is in the first warehouse and the second warehouse, the delivery platform of the first warehouse is the first platform, the delivery platform of the second warehouse is the second platform, the first platform and the second platform are benchmarking platforms, and the order processing module is used for selecting the first platform as the order and then directly selecting the second platform as the stock platform of the order in the second warehouse.

The number of benchmarking platforms is the same as that of the warehouses, and each warehouse corresponds to one benchmarking platform.

The order processing module is used for sequencing the delivery platforms to form a delivery sequence when the same order corresponds to at least two delivery platforms, and sending the delivery sequence to the driver module. The sorting mode can be that the goods with strong pressure resistance are firstly loaded and then the goods with weak pressure resistance are loaded according to the sequence of strong pressure resistance and weak pressure resistance.

The order processing module is used for calculating the stock completion time of the delivery platform according to the carrying distance; the system comprises a warehouse module, a driver module, a delivery module, an order entry and exit module and a park entry and exit identification module, wherein the warehouse module is used for generating an exit scheme and sending the exit scheme to the warehouse module, the exit scheme comprises stock goods corresponding to an order, the quantity of each stock goods, carrying equipment and carrying capacity corresponding to each stock goods, and an exit platform and stock completion time corresponding to the order, the dock entry and exit platform of the vehicle information corresponding to the order are used for sending the stock completion time and the vehicle information corresponding to the order to the corresponding platform module, and the park entry and exit time of the vehicle information corresponding to the order is used for sending the park entry and exit identification module. The time of entering the garden is the time of finishing the stock +/-reasonable time.

The order processing module is used for acquiring the estimated arrival time of the driver module at the park and arranging the stock order of the order according to the estimated arrival time. The situation that other vehicles are influenced by the fact that the vehicles cannot arrive at the park on time due to traffic jam or other accidents outside the park can be avoided.

The order processing module is used for acquiring the position information of the carrying equipment and selecting the carrying equipment which is close to the warehouse area as the distributed carrying equipment. The moving distance and the conveying time of the conveying equipment are reduced as much as possible, and the conveying efficiency is improved.

And the warehousing module is used for receiving the shipment scheme, and the carrying equipment carries the goods to the shipment platform according to the shipment scheme.

As shown in fig. 3, the warehousing module further includes a warehouse cargo management system including a wireless communication sub-module, a storage module, a wireless communication main module, a control module, an information updating module, a data query module, a management terminal and an electronic fence.

And the wireless communication submodule is positioned on the goods and used for transmitting the identification information of the wireless communication submodule.

Preferably, the wireless communication sub-module is a low power consumption bluetooth module. The identification information is the MAC address of the Bluetooth module.

And the storage module is used for storing the identification information of all wireless communication sub-modules in the warehouse. Preferably, the storage module is used for storing the identification information of all wireless communication sub-modules in the warehouse and the corresponding information of the goods.

And the wireless communication main module is used for receiving the identification information of all wireless communication sub-modules in the warehouse.

And the control module is used for outputting an alarm signal when the received identification information of the wireless communication sub-module is not matched with the identification information stored in the storage module. Preferably, the control module outputs the alarm signal and simultaneously outputs the cargo information, so that managers can conveniently know the information of the lost cargo.

The control module is also used for sending the goods information to the order processing module, the order processing module can know the goods and the quantity in time, and if the quantity of the orders is larger than the storage quantity of the warehouse, the order processing module informs the warehousing module so as to replenish the goods in time.

And the information updating module is used for updating the identification information of all the wireless communication sub-modules in the warehouse stored by the storage module. And when the goods enter the warehouse or leave the warehouse, the information stored by the storage module is updated by the information updating module.

The information updating module comprises an information batch import module and an information modification module.

And the data query module is used for querying the identification information of all the wireless communication sub-modules in the warehouse, which is stored by the storage module.

And the management terminal is used for receiving the alarm signal and the cargo information.

And the electronic fence is arranged around the warehouse.

As shown in fig. 4, this embodiment further provides a warehouse cargo management method, including the following steps:

and S1, when the goods enter the warehouse, loading the wireless communication sub-module, and storing the identification information of the wireless communication sub-module and the goods information into the storage module in a corresponding way.

And S2, the wireless communication main module receives the identification information of all wireless communication sub-modules in the warehouse.

And S3, outputting an alarm signal and cargo information when the received identification information of the wireless communication sub-module is not matched with the identification information stored in the storage module.

And S4, unloading the wireless communication sub-module when the goods leave the warehouse.

And S5, deleting the identification information and the cargo information of the wireless communication sub-module from the storage module.

As shown in fig. 5, the warehouse module further includes a warehouse handling equipment management system, which includes a signal transmitting module and a signal receiving device located on the handling equipment, a signal receiving device located in the warehouse, and a control device located in the background.

And the signal transmitting module is positioned on the carrying equipment and used for transmitting the wireless signals. The signal transmitting module of the present embodiment is preferably a bluetooth low energy module.

And the signal receiving device is positioned on the carrying equipment. The goods handling equipment is used for receiving the goods delivery scheme sent by the control module and carrying goods according to the goods delivery scheme.

And the signal receiving module is used for receiving the wireless signals transmitted by the signal transmitting modules of all the conveying equipment in the warehouse. The signal receiving module of the present embodiment is preferably a bluetooth low energy module.

The control module is used for receiving the delivery scheme sent by the order processing module.

The control module is used for determining the position of the carrying equipment according to the wireless signal received by the signal receiving module and determining that the carrying equipment is in a working state or an idle state according to the relation between the position of the carrying equipment and time.

The control module is used for sending the delivery scheme to the signal receiving device on the carrying equipment in the idle state during the stock time. Wherein, the stock time is the goods taking time-goods carrying time.

In this embodiment, the control module is configured to determine a moving frequency of the transportation device according to a relationship between a position of the transportation device and time, where the moving frequency is a number of times that the transportation device moves between any two platforms, any two cargo areas, any platforms, and the cargo areas within a specific time, and when the moving frequency is greater than a set moving frequency value, the transportation device is in an operating state, and when the moving frequency is less than the set moving frequency value, the transportation device is in an idle state.

For example, if the movement path of the transport apparatus in the time T is the platform 3-WX 108-platform 6-WX 111-platform 11 of the first warehouse, the transport apparatus moves 4 times in the time T, and the movement frequency of the transport apparatus becomes 4/T.

In order to further improve the accuracy of the moving frequency set value, the accuracy of the state judgment of the conveying equipment is improved. The system further comprises a storage module, wherein the storage module is used for storing the normal carrying time of the carrying equipment moving between any two platforms, any two cargo areas and any platform and cargo area, the control module determines the moving times according to the carrying track of the carrying equipment, and determines the moving frequency set value according to the moving times and the normal carrying time set value.

The control module reads the normal transport time T1 of the platforms 3-WX108, the normal transport time T2 of the platforms 108-6, the normal transport time T3 of the platforms 6-WX111, and the normal transport time T4 of the platforms 111-11 stored in the storage module. The moving frequency setting value is 4/(T1+ T2+ T3+ T4).

The shipment scheme of this embodiment includes that the order corresponds stock goods and the goods district that the stock goods was located, and control module is used for calculating the position of the haulage equipment of idle state and the transport distance of the goods district that the stock goods is located, and control module is used for selecting the haulage equipment that is in idle state that is nearest apart from the goods district that the stock goods is located and sending the shipment scheme. Further saving time and consumption of handling equipment.

The delivery scheme comprises the quantity of each stock and a delivery platform corresponding to the order. And the carrying equipment carries the goods and the quantity to the delivery platform according to the delivery scheme.

The present embodiment realizes the determination of the position of the handling apparatus through the following modules:

the signal receiving module comprises at least three signal receiving modules positioned at determined positions in the warehouse, and the signal receiving modules respectively acquire the signal intensity of the wireless signals transmitted by the signal transmitting module. The control module determines the distance between the signal transmitting module and the signal receiving module according to the signal strength of the wireless signals, and determines the position of the carrying equipment according to the distance and the position of the signal receiving module.

Coordinates a (x1, y1), B (x2, y2), C (x3, y3) of the three signal receiving modules are known.

The signal transmitting module transmits a wireless signal with the signal strength of rssi. The signal strength received by the three signal receiving modules is rssi1, rssi2 and rssi3 respectively. The distances between the signal transmitting module and the three signal receiving modules are respectively as follows:

d1＝10^((abs(rssi1)-A)/(10*n))

d2＝10^((abs(rssi2)-A)/(10*n))

d3＝10^((abs(rssi3)-A)/(10*n))

wherein: the A-signal transmitting module and the signal receiving module are separated by 1 meter of signal intensity and n-environment attenuation factor.

The value of A is preferably in the range of 45 to 49, and the value of n is preferably in the range of 3.25 to 4.5.

Assuming that the position of the signal transmitting module is (x, y), the position of the signal transmitting module can be obtained according to the following equation system.

(x1–x)^2+(y1-y)^2＝d1^2

(x2–x)^2+(y2-y)^2＝d2^2

(x3–x)^2+(y3-y)^2＝d3^2。

The position of the signal transmitting module is calculated in real time, and then the moving track of the signal transmitting module, namely the moving track of the carrying equipment, can be obtained.

And the platform module is used for receiving the completion time of the stock corresponding to the order and the vehicle information, displaying the order and the vehicle information at the completion time of the stock, identifying the vehicle entering the platform and judging whether the vehicle is the vehicle information. Whether the vehicle is the vehicle corresponding to the order is determined mainly by identifying the license plate and checking the license plate.

The platform module is used for acquiring the platform state and allowing the vehicle corresponding to the order to enter the platform when the platform state is the stock completion state. When the platform state is the non-finished state of stock, the vehicle is not allowed to enter the platform, and if the vehicle arrives in advance, the vehicle needs to wait in a garage.

And the driver module is used for receiving and displaying the shipment platform and the garden entering time corresponding to the order. And prompting the driver to enter the garden to the corresponding delivery platform for loading according to the time of entering the garden.

And the park access identification module is used for receiving the park access time of the vehicle information corresponding to the order, identifying the vehicle information and allowing the vehicle corresponding to the vehicle information to enter the park when the vehicle information accords with the park access time.

The in-out park identification module is used for recording the time of entering the park of the vehicle, receiving the delivery platform corresponding to the order, displaying the delivery platform corresponding to the order and the vehicle information, and guiding the driver to arrive at the corresponding delivery platform.

The dock module is used for recording the time that the vehicle enters and leaves the dock and sending the time to the park access identification module, and the park access identification module is used for sending urging information of leaving the park to the driver module when the vehicle leaves the last dock within the set time and does not leave the park, so that traffic jam is avoided, and normal operation of the park is ensured.

The embodiment can perform performance assessment on the vehicle through the time of the vehicle entering and leaving the park.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (8)

1. A logistics park order management system, the system comprising:

the storage module is used for storing warehouse areas corresponding to the goods, storing the conveying distance from each warehouse area to each stock platform in the warehouse and storing conveying equipment and the conveying amount corresponding to the conveying equipment;

the order processing module is used for receiving an order and acquiring the name of stock goods, the quantity of each stock goods and vehicle information corresponding to the order, wherein the stock goods name, the quantity of each stock goods and the vehicle information are included in the order; the storage module is used for storing the stock goods, and the storage module is used for storing the stock goods; the distribution handling equipment is used for reading the corresponding handling amount of the distributed handling equipment in the storage module and calculating the handling times of the handling equipment according to the quantity of the stock goods and the handling amount of the handling equipment; the conveying distance from all the stock goods of the order to each stock platform is calculated according to the conveying times of the conveying equipment and the conveying distance from the warehouse area corresponding to the stock goods to each stock platform; the stock platform is used for selecting the stock platform with the shortest carrying distance as the delivery platform; the goods preparation completion time of the delivery platform is calculated according to the carrying distance; the system comprises a storage module, an order generation module, a delivery module, a driver module and a driver module, wherein the storage module is used for generating a delivery scheme and sending the delivery scheme to the storage module, the delivery scheme comprises stock goods corresponding to the order, the quantity of each stock goods, handling equipment and handling capacity corresponding to each stock goods, and delivery platforms and stock completion time corresponding to the order, the delivery scheme is used for sending the stock completion time and vehicle information corresponding to the order to the corresponding platform module, the driver module is used for sending the garden entry time and the delivery platform of the vehicle information corresponding to the order to the driver module, and the garden entry time and the garden exit time of the vehicle information corresponding to the order are sent to the garden entry and exit identification module.

2. The order management system of claim 1, wherein the order processing module is configured to obtain a time required for the order to be delivered, and when the delivery platform is selected repeatedly, arrange a stock order of the order according to the time required for the order to be delivered.

3. The order management system of a logistics park of claim 1 or 2 wherein the order processing module is configured to select a stock platform with the second shortest transport distance as a stock delivery platform.

4. The order management system of claim 1, wherein the order processing module is configured to obtain a total quantity of the orders and a capacity of the stock platform, and select a delivery platform according to the total quantity of the orders and the capacity of the stock platform.

5. The logistics park order management system of claim 1 wherein the storage module is configured to store a benchmarking platform, and the benchmarking platform is a stock platform with the shortest transport distance in each warehouse when the plurality of warehouses correspond to stock items of the same order.

6. The logistics park order management system of claim 1 or 5, the order processing module being configured to sequence the shipping platforms to form a shipping order and send the shipping order to the driver module when the same order corresponds to at least two shipping platforms.

7. The logistics park order management system of claim 1 wherein the order processing module is configured to obtain a projected arrival time of the driver module at the park and to arrange the order according to the projected arrival time.

8. The order management system of claim 1, wherein the order processing module is configured to obtain location information of the handling device, and select a handling device that is located closer to the warehouse area as the assigned handling device.

Images