In order to make the objectives, technical solutions, and advantages of the present invention clearer, the following further describes the present invention in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, but not to limit the present invention.
The specific implementation of the present invention will be described in detail below in conjunction with specific embodiments.
Such asfigure 1Shown is a flow chart of a time period distribution system provided by an embodiment of the present invention, including: a central processing platform, which receives distribution information, reads the distribution information, and realizes intelligent analysis;
APP client, used to enter and display delivery information, and realize regular notification;
Cloud server, and central processing platform, used to record, read and update information;
Task sending platform, connected with the central processing platform, used to send distribution tasks;
Among them, the central processing platform divides the delivery time period and displays it on the APP client, and the central processing platform reads and intelligently divides the delivery information entered by the APP client.
In the embodiment of the present invention, the delivery time is divided into several time periods according to a certain time period. For example, the working time is 9:00-20:00, and the time period is divided into 9:00-9:20. A time period, 9:10-9:30 is a time period, 9:20--9:40 is a time period, and so on, the customer needs to choose which time after placing an order on the APP client Segment delivery to home. It can be distributed according to time, avoiding gathering time for distribution, reasonably allocating distribution time, arranging manpower, avoiding manpower waste, improving distribution efficiency, avoiding waste of customer waiting time, increasing customer time utilization, and improving The degree of praise from customers.
In an example of the present invention, the central processing platform is equipped with signal receiving and generating devices. The central processing platform communicates with the APP client and task sending platform through wireless communication. The wireless communication can be 4G, 5G or other wireless network connections, and the task sending platform can It is a task APP, and is installed on the mobile phone, tablet or other device of the delivery staff, so it will not be described here. Through the task APP, you can send delivery tasks and display delivery information.
As a preferred embodiment of the present invention, the time period is 20 minutes, and the upper limit of the time period distribution is set according to the regional distribution capacity, so that it can be set according to the customer's home time probability, thereby maximizing the distribution capacity.
As a preferred embodiment of the present invention, the first 10 minutes of each time period is the time for the customer to place an order. If the order is successfully placed within 10 minutes, the ordered product will be delivered to the home within this time period and reach any of the following within 10 minutes After the conditions are set, the goods ordered by the customer are automatically postponed to the next time period for delivery. Setting the time for customers to place orders is to prevent customers from placing orders at the last minute or the last few minutes of a time period. We cannot complete the delivery of goods within this time period.
As a preferred embodiment of the present invention, condition 1: Within 10 minutes of the customer’s ordering time, the customer’s order quantity does not reach the set upper limit, but the customer’s order is automatically extended to The next time period. Condition 2: Within the 10-minute customer order time, the customer's order quantity has reached the set limit. Even if the 10-minute order time is not reached, the customer's order will be automatically postponed to the next time period. Example: The first 10 minutes of the 9:00--9:20 time period is the time when the customer places an order. For customers who successfully place an order in the first 10 minutes, we will complete the delivery of the goods in the 9:00--9:20 time period. When one of the above two set conditions is met, the customer is placing an order, and the delivery time can only be selected from 9:10 to 9:30 or later for delivery. Customers can not only place orders during work hours, but they can still place orders after get off work hours. This is called the night order time period. For example, from 9:00 to 20:00 during work hours, October 11, 2020 The night order time period is from 20:01, October 11, 2020 to 8:59, October 12, 2020. Customers can only check the delivery time of October 12, 2020 or later during this time period. Delivery of goods to home in the time period. It is convenient for customers to place their favorite products 24 hours a day.
As a preferred embodiment of the present invention, the time period distribution system also includes a customer recharge system, mainly for fresh vegetables or meat and egg products, because there is no uniform measurement standard for such products.
Customer recharge system, that is: open an account for each customer to recharge, the amount of the customer's order is deducted from the account balance, when the account balance is not enough to pay the amount of the order, the customer needs to recharge before clicking to purchase the product.
As a preferred embodiment of the present invention, a printer is connected to the central processing platform, and the delivery ticket can be printed through the printer, and the delivery information is recorded on the delivery ticket, thereby making the delivery more convenient.
As a preferred embodiment of the present invention, an information two-dimensional code is provided on the delivery receipt. By scanning the information two-dimensional code, the paper information can be converted into electronic information, which is convenient for timely updating the delivery information.
An embodiment of the present invention also provides a time period distribution method, which is applied to the aforementioned time period distribution system, including:
The central processing platform divides the distribution area and displays the distribution balance;
The customer enters the delivery information through the APP client;
The central processing platform analyzes distribution information and concurrently distributes distribution tasks;
Delivery staff distribution tasks.
As a preferred embodiment of the present invention, the distribution upper limit is set according to the size and usage of the community, so as to allocate distribution personnel to mediate distribution capabilities. For different regional scales and customer usage, the distribution addresses of customers are allocated, and the distribution upper limit is set for this area, which avoids the failure of delivery due to excessive delivery orders and improves the success rate of delivery.
As a preferred embodiment of the present invention, the delivery personnel have GPS positioning during the delivery task and displayed on the APP client. According to the arrangement, the customer can understand the location of the delivery personnel, so as to make practical arrangements, so that the customer can improve the efficiency of time arrangement and improve the efficiency of time arrangement.
As a preferred embodiment of the present invention, the central processing platform enters the delivery location and analyzes the most reasonable route for delivery according to the delivery location and delivery time, thereby improving delivery efficiency and reducing the labor and workload of delivery personnel.
The foregoing embodiment of the present invention provides a time period distribution system, and based on the time period distribution system provides a time period distribution method. The distribution is performed according to the time, avoiding the gathering time for distribution, and the distribution time is reasonably allocated. Manpower arrangement avoids manpower waste, improves distribution efficiency, avoids wasting customer waiting time, increases customer time utilization, and improves customer praise.
The above descriptions are only the preferred embodiments of the present invention and are not intended to limit the present invention. Any modification, equivalent replacement and improvement made within the spirit and principle of the present invention shall be included in the protection of the present invention. Within range.