KR102484307B1 - Delivery system for reverse direct purchase - Google Patents

Abstract

The present invention relates to a reverse direct purchase system, which provides a platform for overseas delivery of domestic products in a reverse direct purchase process in which overseas consumers purchase products using a domestic online shopping mall. The reverse direct purchase system includes: a product management unit which manages stock and inventory of products; a delivery company setting unit which selects a delivery company for overseas delivery of the product delivered to a forwarding destination; a delivery date prediction unit for estimating a delivery period of the product delivered to the forwarding destination to an actual delivery address of an overseas consumer; and a web page management unit which provides order information of the overseas consumers through a web page.

Description

Delivery system for reverse direct purchase}

The present invention relates to a reverse direct purchase delivery system, and more particularly, to a reverse direct purchase delivery system that provides a platform for overseas delivery of domestic products in the reverse direct purchase process in which foreign consumers purchase products using a domestic online shopping mall. .

BACKGROUND OF THE INVENTION [0002] With the rapid development of Internet technology, various commerce systems such as Internet shopping malls have been developed and applied.

In recent years, there has been an increasing number of direct purchasers who directly purchase products by accessing not only domestic but also overseas shopping mall systems, that is, using overseas shopping mall sites.

However, there are many products that overseas shopping mall sites deliver only to their own country when making overseas direct purchases, and there are many direct purchasers who have difficulties in direct purchase due to problems such as different address systems from domestic ones, complexity of delivery process, and differences in language by country. There are an increasing number of direct purchasers who fall into embarrassing situations due to their lack of ability to cope with an emergency.

In order to solve this problem, the buyer is provided with a virtual address in an overseas country that includes the address of the shipping agent and buyer identification information, and after matching and registering the virtual address with the current address in Korea, the buyer can enter any overseas shopping mall site. There are an increasing number of delivery agency service providing systems that deliver goods purchased from the virtual address and deliver the goods delivered to the delivery agency to the current address in Korea matched to the virtual address.

In general, in a conventional delivery agency service providing system, when a product purchased by a buyer who is a member of the delivery agency service arrives, the person in charge receives/signs the arrived product, checks the waybill number written on the product box, and then the person in charge enters the waybill number into the system. Enter manually to search for the same waybill number registered in the system, check the application for the searched waybill number, and perform warehousing processing.

When warehousing is processed, the product information registered in the application and the actual product are compared to determine whether the product matches and whether the product is damaged or not, and if there is no abnormality, the actual weight and volume weight of the product are measured and weighed The shipping fee is determined according to the handwritten input of the value and notified to the member. In response, if the member pays the shipping fee, the product is shipped to the member's actual address.

However, as described above, the conventional delivery agency service providing system has a problem of consuming unnecessary time when entering and exiting by handwriting information such as tracking numbers, and the buyer who requested the delivery agency service can only roughly know the delivery agency status. There was a problem that the exact inspection contents and exact delivery status could not be known.

On the other hand, the above-mentioned background art is technical information that the inventor possessed for derivation of the present invention or acquired in the process of derivation of the present invention, and cannot necessarily be said to be known art disclosed to the general public prior to filing the present invention. .

Korea Patent Registration No. 10-1998267 Korean Patent Registration No. 10-2197846

One aspect of the present invention provides a reverse direct purchase delivery system that provides a platform for overseas delivery of domestic products in a reverse direct purchase process in which foreign consumers purchase products using a domestic online shopping mall.

The technical problem of the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

A reverse direct purchase delivery system according to an embodiment of the present invention provides a service for overseas delivery of domestic products during a reverse direct purchase process in which foreign consumers purchase products using a domestic online shopping mall.

The reverse direct purchase delivery system,

a product management unit that communicates with a storage/exit management terminal provided in a delivery agency and manages stock/exit and inventory of products delivered to the delivery agency based on scanning data received from the storage/exit management terminal;

a shipping company setting unit that selects a shipping company for overseas delivery of the product delivered to the delivery destination;

a delivery date prediction unit for estimating the delivery period of the product delivered to the delivery agency to the actual delivery address of the overseas consumer; and

It includes; a web page management unit that provides order information of overseas consumers through a web page.

The web page management unit,

Based on the login information received from the terminal accessing the web page, the terminal is classified as either a customer terminal owned by an overseas consumer or the management terminal,

If the terminal is confirmed to be a customer terminal possessed by an overseas consumer, order information including the deposit amount of the overseas consumer, product information about the ordered product, shipping information, delivery address information, delivery and payment information is displayed on the web page. control as much as possible,

If it is confirmed that the terminal is a management terminal, control to display a user tab, a service tab, a staff tab, and a settings tab on the web page;

When the user tab is selected, control to display member information for each foreign consumer who has joined the web page;

When the service tab is selected, control to display detailed information on products requiring overseas delivery on a web page based on order information received from overseas consumers;

When the setting tab is selected, control to display detailed information for each shipping company subscribed to the webpage on the webpage;

The delivery date prediction unit,

At least one intermediate delivery destination required in the process of delivering the product to the actual address of the overseas consumer by the delivery company selected by the delivery company setting unit is extracted, the average arrival date of the product arrives at the extracted intermediate delivery location is searched, and the retrieved an initial delivery period setting unit for setting an initial delivery period by summing the average arrival date for each intermediate delivery destination; and

Including a delivery period correction unit that corrects the initial delivery period by reflecting variables generated in the actual delivery process,

The delivery period correction department,

The expected location of the product is estimated at predetermined time intervals, location information is collected at predetermined time intervals from the delivery driver's terminal possessed by the delivery driver, set as actual location information of the product, and a preset criterion is established based on the estimated expected location. When it is confirmed that the actual location information does not exist within the radius, distance information between the actual location information and an intermediate delivery destination is calculated,

Based on the calculated distance information, the arrival date of the product arrives at the intermediate destination is corrected, and the arrival time of the product at the final destination is corrected based on the corrected arrival date for each intermediate destination.

The delivery company setting unit,

Similar areas based on the delivery route of the first delivery driver's terminal owned by the first delivery driver belonging to a specific delivery company and the delivery route of the second delivery driver's terminal owned by the second delivery driver belonging to the specific delivery company In order to determine whether or not to combine shipping for multiple products made in

Coordinates are generated for each of at least three places visited by the first delivery driver terminal for product delivery, and two neighboring places among the at least three places visited by the first delivery driver terminal for product delivery are connected. At least two line segments related to the delivery route of the first delivery driver's terminal are generated by generating a line segment that is the first delivery driver's terminal, and a midpoint of the first line segment, which is any one of the two line segments related to the delivery route of the first delivery driver's terminal. And, generating a feature line segment connecting the midpoint of the first line segment and a second adjacent line segment to generate at least one first vector information indicating an angle and size of the generated feature line segment;

Coordinates are generated for each of at least three places visited by the second delivery driver terminal for product delivery, and two neighboring places among the at least three places visited by the second delivery driver terminal for product delivery are connected. At least two line segments related to the delivery route of the second delivery driver's terminal are generated by generating a line segment that is the second delivery driver's terminal, and a midpoint of a third line segment that is any one of the two line segments related to the delivery route of the second delivery driver's terminal. and generating a feature line segment connecting midpoints of the third line segment and a neighboring fourth line segment to generate at least one piece of second vector information indicating an angle and size of the generated feature line segment;

The at least one first vector information and the at least one second vector information are input to the input layer of the artificial neural network that has been learned in advance, and the first vector information and the second vector information and the second vector information are based on the result value output to the output layer of the artificial neural network. The similarity between the vector information is calculated, and when it is confirmed that the calculated similarity is equal to or higher than the preset criterion similarity, the first place the first delivery driver terminal visits for product delivery and the second delivery driver terminal perform product delivery. If it is confirmed that the distance between the first places to be visited is less than the preset reference distance, it is determined that combined delivery of the products delivered through the first delivery driver and the second delivery driver is possible, It is characterized in that a combined delivery of products delivered through the first delivery driver and the second delivery driver is requested to one of the delivery driver terminals among the two delivery driver terminals,

The delivery company setting unit,

When combined delivery is approved by the first delivery driver terminal and the second delivery driver terminal, the location information of the first delivery driver terminal and the second delivery driver terminal is collected at predetermined time intervals, and the first delivery driver terminal is the standard. When it is determined that the second delivery driver's terminal is located within a preset combined delivery radius, the first delivery driver's terminal and the second delivery driver's terminal are configured to negotiate a list of combined delivery products in real time between the first and second delivery drivers. Create an interface screen that is output in common,

Objects for each product type and delivery location to be delivered through the first delivery driver terminal are created, and objects for each product type and delivery location to be delivered are created through the second delivery driver terminal to display the interface screen. display them in different locations,

Based on the interface screen, input through at least one terminal of the first delivery driver terminal or the second delivery driver terminal so that the list of combined delivery products negotiated in real time between the first delivery driver and the second delivery driver can be shared. Based on the object manipulation signal, the first delivery driver and the second delivery driver reconstruct a list of products to be delivered.

The reverse direct purchase delivery system,

When combined delivery is approved by the first delivery driver terminal and the second delivery driver terminal, it is installed between the first delivery vehicle operated by the first delivery driver and the second delivery vehicle operated by the second delivery driver Further comprising a combined delivery guide unit for transferring the products loaded in the first delivery vehicle to the second delivery vehicle and at the same time transferring the products loaded in the second delivery vehicle to the first delivery vehicle,

The combined shipping guide unit,

a first conveyor unit installed between the first delivery vehicle and the second delivery vehicle and transporting products loaded in the first delivery vehicle to the second delivery vehicle;

a second conveyor unit installed between the first delivery vehicle and the second delivery vehicle and transporting products loaded on the second delivery vehicle to the first delivery vehicle; and

A separation prevention unit installed between the first conveyor unit and the second conveyor unit to prevent separation of goods transported through the first conveyor unit and the second conveyor unit;

The first conveyor part and the second conveyor part,

conveyor belt;

circulation rollers installed at predetermined intervals so that the conveyor belt can be circulated and rotated in a state of forming an endless track; and

A buffer unit installed between two adjacent circulating rollers to distribute the load generated in the process of transporting the product through the conveyor belt; includes,

The buffer unit,

a housing having an upper rotation shaft and a lower rotation shaft;

a cylindrical rotating unit having a central portion fastened to the upper rotating shaft, a portion of a side portion protruding from an upper portion of the housing, and rotating according to the rotating direction of the conveyor belt;

a hemispherical support portion formed at a lower portion of the rotation unit and having a concave surface formed therein;

At least two elastic support parts installed on the lower surface of the supporting part; and

A main gear fastened to a rotation shaft formed in the lower part of the housing so as to be formed in the lower part of the elastic support part; includes,

The upper rotation shaft is installed to ascend or descend along a guide groove formed on an upper portion of the housing, and the lower rotation shaft is fixedly installed to a lower portion of the housing,

A plurality of insertion holes are formed on the inside of the concave surface of the supporting portion, and a ball bearing in contact with the rotation unit is inserted into the insertion holes,

The elastic support part,

a head unit installed in close contact with the lower surface of the support and having a concave shape corresponding to the shape of the lower surface of the support;

an upper rotation unit installed under the head unit;

a support column rotatably fastened to the upper rotation unit;

an elastic member installed below the support pillar;

a lower rotation unit installed under the elastic member; and

And a sub gear fastened to the lower rotation unit and meshing with the main gear,

The buffer unit,

When the rotation unit is pressed in the process of conveying the product through the conveyor belt, the upper rotation unit and the lower rotation unit rotate in the left and right directions and distribute the load as the elastic member contracts in the vertical direction. do.

According to one aspect of the present invention described above, overseas consumers can be provided with information on the delivery status of domestic products they have purchased and the predicted arrival date of the products in real time.

In addition, the delivery agency can efficiently manage the inventory and inventory of products received at the delivery agency by using the scanning information, and periodically correct the estimated delivery date based on the actual delivery location of the product and provide it to overseas consumers. Reliability of delivery service can be improved.

In addition, delivery efficiency can be improved by automatically determining whether to combine delivery of multiple products in the delivery process of reverse direct purchase products, and reclassifying delivery products through real-time negotiations among multiple delivery drivers in the case of combined delivery.

In addition, in the case of a combined delivery agreement, product damage can be minimized in the process of reclassifying delivery products.

1 is a diagram showing a schematic configuration of a reverse direct purchase delivery system according to an embodiment of the present invention.
2 to 6 are diagrams showing specific examples of web pages to which the reverse direct purchase delivery system shown in FIG. 1 is applied.
7 to 9 are diagrams showing specific examples of predicting and correcting the initial arrival time of a product.
FIG. 10 is a diagram showing a specific example of an interface screen that is commonly output between different delivery driver terminals to discuss whether or not to combine delivery.
11 to 13 are views showing a combined delivery guide unit according to an embodiment of the present invention.
14 and 15 are diagrams showing specific configurations and functions of the shock absorber unit constituting the combined delivery guide unit.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed description of the present invention which follows refers to the accompanying drawings which illustrate, by way of illustration, specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable one skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different from each other but are not necessarily mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in another embodiment without departing from the spirit and scope of the invention in connection with one embodiment. Additionally, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. Accordingly, the detailed description set forth below is not to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all equivalents as claimed by those claims. Like reference numbers in the drawings indicate the same or similar function throughout the various aspects.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

1 is a conceptual diagram showing a schematic configuration of a reverse direct purchase delivery system according to an embodiment of the present invention.

The reverse direct purchase delivery system according to the present invention can provide a comprehensive platform for overseas delivery of domestic products in the reverse direct purchase process in which foreign consumers purchase products using domestic online shopping malls.

That is, in the reverse direct purchase delivery system according to the present invention, when a foreign consumer purchases a product using a domestic online shopping mall, the delivery agency that provides the delivery agency service delivers the purchased domestic product to the address where the overseas consumer resides. It is implemented, and may be implemented, for example, in a PC or management server provided on the delivery agency side. Hereinafter, for convenience of explanation, it will be assumed that the reverse direct purchase delivery system according to the present invention is implemented in a management server provided at a delivery agency.

In addition, the software (application) for providing the delivery agency service of the reverse direct purchase delivery system 1000 according to the present invention may be pre-installed in the management server provided at the delivery agency side, and the manager installs the software installed on the user terminal ( Application) can be used to provide a reverse direct purchase delivery agency service according to the present invention, which will be described later.

Specifically, the reverse direct purchase delivery system 1000 according to an embodiment of the present invention includes a product management unit 100, a delivery company setting unit 200, a delivery date prediction unit 300, and a web page management unit 400.

The product management unit 100 communicates with a storage and warehousing management terminal provided in a delivery destination, and manages warehousing and warehousing and inventory of products delivered to the delivery destination based on scanning data received from the storage and warehousing management terminal.

The delivery agency is a place where products are primarily gathered for overseas delivery of multiple domestic products purchased by various overseas consumers, and identification information such as waybill numbers, barcodes, and QR codes attached to products A storage and retrieval management terminal (for example, a scanner) is provided.

The product management unit 100 communicates with the storage and warehousing management terminal and manages warehousing and warehousing and inventory of products delivered to a delivery destination based on scanning data received from the warehousing and warehousing management terminal.

For example, the product management unit 100 compares the scanning data received from the warehousing and warehousing management terminal with the identification information of the product included in the pre-stored delivery request data to determine whether the product requested for delivery by the overseas user has been received as a delivery agent. can do.

To this end, when an overseas user purchases a specific product from a specific domestic online shopping mall, he or she accesses a web page linked to the management server to receive delivery service for the purchased product, and goes through a normal log-in process on the accessed web page. You can enter delivery request information that includes detailed information about the purchased product (webpage address selling the product, your actual residence, etc.).

In this case, the product management unit 100 stores the product information according to the delivery request information received from the overseas user in advance, and then compares the scanning data received from the warehouse management terminal with the previously stored product information to determine whether the overseas user has requested delivery. It is possible to determine whether the product has been received at the delivery agency.

Thereafter, when the same scanning information is received from the delivery driver's terminal possessed by the delivery driver delivering the product, it may be determined that the corresponding product has been shipped from the delivery agency.

In this way, the product management unit 100 may classify and manage products received by delivery agencies by overseas users and by products.

The delivery company setting unit 200 selects a delivery company to be in charge of overseas delivery of the product delivered to the delivery destination.

In one embodiment, the delivery company setting unit 200 transmits a notification message to each delivery company informing that a specific product has been received at the delivery agency, and when receiving a delivery request message from a delivery company that wishes to deliver the product The product can be assigned to the delivery company that sent the delivery request message.

In this process, the delivery company setting unit 200 may select one delivery company through a reverse auction method when there are two or more delivery companies that have transmitted the delivery request message.

In order to select a delivery company using the reverse auction method, the delivery company setting unit 200 may allocate different numbers of bidding for each delivery company for the reverse auction.

For example, if there are three shipping companies participating in the auction, the shipping company setting unit 200 allocates 3 bids to shipping company A, 2 bids to shipping company B, and 1 bidding to shipping company C. Only the number of bids can be assigned.

Accordingly, delivery company A has a total of three bidding opportunities, delivery company B has two bidding opportunities, and delivery company C has one bidding opportunity.

Meanwhile, the delivery company setting unit 200 may compare supply prices (delivery costs) received from delivery companies using one bidding opportunity and select a delivery company offering the lowest supply price. .

In some other embodiments, the delivery company setting unit 200 may grant an additional number of bids according to conditions of the delivery company.

Additional bidding opportunities may be granted to each delivery service provider based on the evaluation score data assigned to each delivery service provider. For example, if Company C has obtained the highest evaluation score from overseas consumers and Company A has obtained the lowest evaluation score from overseas consumers, Company C is assigned 3 additional bids, and Company B is assigned an additional 3 bids. Two additional bids are allocated, and only one additional bid can be allocated to company A. In this case, if the number of bids allocated by default is added up, companies A, B, and C can each be given a total of four bidding opportunities.

In this process, the delivery company setting unit 200 assigns different weights to the number of bids according to the delivery priority items included in the delivery request information received from the overseas user.

For example, if an overseas user wants to receive a product delivered by a shipping company with an excellent evaluation score, a high weight can be assigned in the order of the evaluation score data given to each shipping company. 12 bid opportunities with 3x weighted bid opportunities, Firm B with 8 bid opportunities with 2x weighted 4 final bid opportunities, Firm B with 1x weighted 4 final bid opportunities. Four weighted bidding opportunities may be finally granted.

On the other hand, when an overseas user wants to receive a product at the lowest cost, a higher weight may be assigned in descending order of the average supply price received by each delivery company, and according to the present invention, the delivery company setting unit 200 can provide an optimized delivery service by increasing the matching probability by giving the user's preferred delivery company many auction bidding opportunities.

The delivery date prediction unit 300 estimates a period during which the product delivered to the delivery agency is delivered to the actual delivery address of the overseas consumer.

Specifically, the delivery date prediction unit 300 extracts at least one intermediate delivery destination required in the process of delivering the product to the actual address of the overseas consumer by the delivery company selected by the delivery company setting unit, and the product is delivered to the extracted intermediate delivery location. an initial delivery period setting unit that sets an initial delivery period by searching for an average arrival date and summing up the average arrival dates for each intermediate delivery destination; and a delivery period correction unit correcting the initial delivery period by reflecting variables generated in an actual delivery process.

Specific functions of the above-described delivery date predictor 300 will be described later.

The web page management unit 400 provides order information of overseas consumers through a web page.

Specifically, the webpage management unit classifies the user terminal as either a customer terminal or an administrator terminal based on login information received from a user terminal accessing the webpage.

2 is an example of a webpage screen displayed when a user terminal accessing a webpage is a customer terminal possessed by an overseas consumer.

As shown, when the web page management unit 400 confirms that the user terminal is the customer terminal, the user's deposit amount, product information about the ordered product, shipping information, delivery address information, and payment information are output on the web page. Let it be.

In addition, although not shown, the web page management unit 400 selects a product identification code (for example, a waybill number) for a product ordered by a foreign user, where the product currently being delivered is located, and the product is located in the actual location of the overseas consumer. Information on the estimated time of arrival at the delivery destination can be displayed together.

On the other hand, the web page management unit 400 controls to display a user tab, a service tab, a staff tab, and a setting tab on the web page when it is confirmed that the user terminal is an administrator terminal.

3 to 6 are examples of webpage screens displayed when a user terminal accessing a webpage is a manager terminal possessed by a manager working at a delivery agency.

First, as shown in FIG. 3 , when a user tab of a webpage is selected by an administrator, the webpage management unit 400 displays member information for each overseas consumer who has subscribed to the webpage.

In addition, as shown in FIG. 4, when the service tab is selected, the webpage management unit 400 controls detailed information on products requiring overseas delivery to be displayed on the webpage based on delivery request information received from overseas consumers. do. Detailed information on these products is received from the product management unit 100 communicating with the storage and delivery management terminal provided in the delivery agency.

And, as shown in FIG. 5, when the staff tab is selected, the web page management unit 400 displays a list of managers working at the delivery agency and information on access rights on the web page.

Finally, as shown in FIG. 6 , when the setting tab is selected, the webpage management unit 400 controls detailed information for each shipping company subscribed to the webpage to be displayed on the webpage. On this screen, the administrator can edit detailed information for each shipping company.

Accordingly, the manager of the delivery agency can manage the delivery service for the reverse direct purchase product as a whole through this web page.

In the case of using the reverse direct purchase delivery system 1000 according to the present invention, the overseas consumer enters information about the product he/she has purchased into the web page, and requests a delivery request to the management server through the web page. When this is done, the management server automatically matches the delivery company suitable for the user, calculates the fee for using the delivery agency service in consideration of the shipping cost incurred when using the matched delivery company, and displays it on the web page. When the overseas user pays the calculated fee, the management server performs a series of overseas delivery services for the product.

On the other hand, the delivery date prediction unit 300 extracts at least one intermediate delivery destination required in the process of delivering the product to the actual address of the overseas consumer by the delivery company selected by the delivery company setting unit, and the product arrives at the extracted intermediate delivery location. an initial delivery period setting unit that sets an initial delivery period by searching for an average arrival date and summing the average arrival dates for each intermediate delivery destination; and a delivery period correction unit correcting the initial delivery period by reflecting variables generated in an actual delivery process.

As shown in FIG. 7, the initial delivery period setting unit extracts intermediate delivery destinations (P1, P2, P3, P4) through which products are delivered from Korea to overseas.

The initial delivery period setting unit collects information on the average delivery period of the selected delivery company, estimates the estimated delivery time for each intermediate delivery location (P1, P2, P3, P4), and reflects the estimated average delivery time to the actual delivery address of overseas consumers. Set the initial delivery period (May 12), when the product is delivered. The web page management unit causes the initial delivery period set in this process to be displayed on the web page when an overseas user accesses the web page.

Thereafter, the delivery period correction unit corrects the initial delivery period by reflecting variables generated in the actual delivery process.

If factors such as bad weather or natural disasters occur during the overseas delivery process, delivery is delayed, and in this case, the product cannot be delivered within the initial delivery period. To this end, the delivery period correction unit corrects the initial delivery period by reflecting variables generated in the actual delivery process.

Specifically, as shown in FIG. 8, the delivery period correction unit estimates the expected location of the product at predetermined time intervals, and collects location information from the delivery driver's terminal owned by the delivery driver at predetermined time intervals to obtain actual location information of the product. set to

At this time, when setting the initial delivery period, it was estimated that the product was located between the third intermediate delivery location (LA Airport, P3) and the fourth intermediate delivery location (actual delivery, P4) on May 11, but on May 11, As a result of analyzing the actual location information of the product collected from the delivery driver's terminal, it can be analyzed that the product is actually located between the first intermediate delivery location (delivery agency, P1) and the second intermediate delivery location (Incheon Airport, P2). there is.

In this case, as shown in FIG. 9, the delivery period correction unit sequentially delays the arrival time of the product to the intermediate delivery destinations (P2, P3, P4) based on the location information of the current point of time of the collected product, so that the product is delivered to the actual destination. correct the arrival time. The web page management unit displays the corrected delivery period on the web page when an overseas user accesses the web page.

As another example, the delivery period correction unit calculates distance information between the actual location information and an intermediate delivery destination when it is confirmed that the actual location information does not exist within a predetermined reference radius (eg, 100 km) based on the estimated expected location, and the calculation It is characterized in that the arrival date of the product arrives at the intermediate delivery destination is corrected based on the obtained distance information.

For example, if the distance between the actual location of the product measured on May 11 and Incheon Airport is 50 km, the delivery period correction department estimates that the product will arrive at Incheon Airport on May 12, one day after May 11. do. In this way, the delivery period correction unit can correct the arrival time of the product at the actual delivery location by correcting and displaying the arrival time of the product according to the distance between the intermediate delivery locations.

In some other embodiments, the delivery company setting unit transmits a notification message to each delivery company informing that a specific product has been received at the delivery agency, and upon receiving a delivery request message from a delivery company that wishes to deliver the product, the delivery service setting unit sends the corresponding product to the delivery agency. In the process of allocating the delivery request message to the delivery company that sent the delivery request message, it is possible to determine whether to combine delivery of a plurality of products in a similar area.

For example, the delivery company setting unit collects the location information of the first product to be delivered by the first delivery driver and the location information of the second product to be delivered by the second delivery driver, and then collects the location information of the first product and the location of the second product. Calculate the separation distance between information.

At this time, the delivery company setting unit determines that combined delivery is possible when it is determined that the location information of the first product and the location information of the second product are separated by a preset reference distance or less.

In this case, the delivery company setting unit vectorizes the delivery route of the first delivery driver's terminal owned by the first delivery driver and the delivery route of the second delivery driver's terminal owned by the second delivery driver, and converts the vectorized feature vector to the pre-learned It is input as an input value of the artificial neural network and based on the output value of the artificial neural network, it is determined whether the first product and the second product are jointly delivered.

Specifically, the delivery company setting unit generates coordinates corresponding to the first, second, and third places that the first delivery driver terminal visits to receive the product, and connects the first and second places. A line segment 1 and a second line segment connecting the second location and the third location are generated. Similarly, the delivery company setting unit generates coordinates corresponding to the fourth, fifth, and sixth places that the second delivery driver terminal visits to receive the product, and connects the fourth and fifth places. A third line segment and a fourth line segment connecting the fifth location and the sixth location are generated.

The delivery company setting unit generates a first feature line segment connecting a midpoint of the first line segment and a midpoint of the second line segment, and generates first vector information indicating an angle and size of the first feature line segment. In addition, the delivery company setting unit creates a second feature line segment connecting the midpoint of the third line segment and the midpoint of the fourth line segment, and generates second vector information representing the angle and size of the second feature line segment.

The delivery company setting unit inputs the generated first vector information and the second vector information to the input layer of the artificial neural network that has been learned in advance, and calculates a similarity between the two vector information based on a result value output from the output layer of the artificial neural network. When the delivery company setting unit confirms that the calculated similarity is equal to or greater than the preset standard similarity, the first place (first place) visited by the first delivery driver terminal to deliver the product and the second delivery driver terminal deliver the product. If it is confirmed that the separation distance between the first place (fourth place) to be visited is equal to or less than the preset reference distance, it is determined that combined delivery of the products each delivered through the first delivery driver and the second delivery driver is possible.

If the delivery company setting unit determines that combined delivery of the products each delivered through the first delivery driver and the second delivery driver is possible, the first product is sent to any one of the first delivery driver terminal and the second delivery driver terminal. and requesting combined delivery of the second product.

As it is implemented in the combined delivery decision algorithm through such an artificial neural network, unlike the prior art in which the combined delivery between two delivery drivers located in a short distance is simply performed, considering the distance between delivery drivers and the similarity of the pattern of the delivery route together, By determining whether to combine delivery or not, more efficient combined delivery can be achieved.

In some other embodiments, the delivery company setting unit may provide an interface for real-time communication between the first delivery driver and the second delivery driver.

Specifically, the delivery company setting unit collects location information of the first delivery driver terminal and the second delivery driver terminal at a predetermined time period when the combined delivery request is approved from the first delivery driver terminal and the second delivery driver terminal. , When it is confirmed that the second delivery driver's terminal is located within a preset combined delivery radius (eg, 5 km) based on the first delivery driver's terminal, the first delivery driver and the second delivery driver discuss whether to combine delivery in real time. 1 Generates an interface screen commonly output to the delivery driver terminal and the second delivery driver terminal.

10 is a diagram showing a specific example of an interface screen commonly output to a first delivery driver terminal and a second delivery driver terminal.

As shown, the delivery company setting unit creates objects for each type of product and delivery location to be delivered through the first delivery driver terminal, and each type of product and delivery location to be delivered through the second delivery driver terminal. Create objects for and place them in different locations on the interface screen so that they can be displayed.

The delivery company setting unit re-determines the list of products to be delivered by the first delivery driver and the second delivery driver based on an object manipulation signal on the interface screen input through at least one of the first delivery driver terminal and the second delivery driver terminal. It is characterized by doing.

That is, the delivery company setting unit may share at least one of the first delivery driver terminal and the second delivery driver terminal so that the combined delivery product list negotiated between the first delivery driver and the second delivery driver in real time can be shared based on the interface screen. The first delivery driver and the second delivery driver reconstruct a list of products to be delivered based on the object manipulation signal input through the terminal of the first delivery driver and the second delivery driver.

For example, when an object created in the second delivery driver terminal side is moved to the first delivery driver terminal side, the delivery company setting unit initially determines that a specific product to be delivered through the second delivery driver is the first delivery driver. It is characterized by enabling delivery through and updating the delivery route reflecting the delivery schedule for this product.

Accordingly, the delivery company setting unit can improve delivery efficiency by allowing delivery products to be reclassified through real-time negotiations between two delivery drivers for which combined delivery has been agreed upon.

During delivery according to a pre-set delivery schedule, if another delivery driver is found to be located within a short distance as a specific customer requests additional product delivery, product delivery is further enhanced by dynamically determining the first shipper of the product based on agreement between delivery drivers. to make it happen efficiently.

In this process, if the number of products to be delivered after reassignment is greater than the number of originally reassigned products to be delivered, the delivery company setting unit can minimize the phenomenon of avoidance of delivery by paying additional incentives according to the number of products in excess. there is.

In some other embodiments, the reverse direct purchase delivery system according to the present invention may further include a combined delivery guide.

11 and 12 are views showing a schematic configuration of a combined delivery guide unit.

When combined delivery is approved by the first delivery driver terminal and the second delivery driver terminal, the combined delivery guide unit 500 operates the first delivery vehicle c1 operated by the first delivery driver and the vehicle operated by the second delivery driver. It is installed between the second delivery vehicles (c2) to transfer the products loaded in the first delivery vehicle to the second delivery vehicle, and at the same time transfer the products loaded in the second delivery vehicle to the first delivery vehicle. transport

To this end, the combined delivery guide unit 500 includes a first conveyor unit 510, a second conveyor unit 520, and a departure prevention unit 530.

The first conveyor unit 510 is installed between the first delivery vehicle c1 and the second delivery vehicle c2, and transfers the products loaded in the first delivery vehicle toward the second delivery vehicle.

The second conveyor unit 520 is installed between the first delivery vehicle and the second delivery vehicle, and transports products loaded in the second delivery vehicle toward the first delivery vehicle.

The separation prevention unit 530 is installed between the first conveyor unit 510 and the second conveyor unit 520 to prevent the departure of goods transported through the first conveyor unit and the second conveyor unit.

That is, the separation prevention unit 530 prevents the product being transported through the first conveyor unit 510 from being separated from the second conveyor unit by forming a barrier between the first conveyor unit 510 and the second conveyor unit 520. It performs a function of preventing or preventing products being transported through the second conveyor unit 520 from escaping to the first conveyor unit 510 .

FIG. 13 is a diagram showing specific configurations of the first conveyor unit 510 and the second conveyor unit 520 described above.

Since the configurations of the first conveyor unit 510 and the second conveyor unit 520 are the same, only the configuration of one conveyor unit will be described below in order to omit overlapping descriptions.

As shown, the first conveyor unit (or the second conveyor unit) is composed of a conveyor belt 511, a plurality of circulation rollers 512, and a plurality of buffer units 513.

The conveyor belt 511 is a belt-shaped member that circulates and rotates in a state of forming an endless track.

The circulation rollers 512 are installed at predetermined intervals so that the conveyor belt can be circulated and rotated in a state of forming an endless track. At least one of the plurality of circulation rollers may be connected to a motor and receive a driving force from the motor to rotate the conveyor belt 511 .

The buffer unit 513 may be installed between two adjacent circulating rollers to distribute a load generated in the process of transporting a product through the conveyor belt.

14 is a diagram showing a specific configuration of such a buffer unit 513.

As shown, the shock absorber unit includes a housing 710, a rotating unit 720, a supporting part 730, at least two elastic support parts 750 and a main gear 740.

The housing 710 is a member that accommodates components constituting the shock absorber unit 513 therein and protects the components constituting the shock absorber 513 from external impact.

An upper rotation shaft 711 is formed on the upper part of the inner wall of the housing 710, and a lower rotation shaft 712 is formed on the lower part of the inner wall. The upper rotary shaft is inserted into the guide groove 713 so as to ascend or descend along the guide groove 713 formed on the upper part of the housing, and the lower rotary shaft is fixedly installed to the lower part of the housing.

The rotating unit 720 is a cylindrical member having a central portion fastened to the upper rotating shaft 711 so that a portion of the side portion protrudes from the upper portion of the housing and rotates according to the rotating direction of the conveyor belt. That is, the rotation unit 720 assists circulation of the conveyor belt by the circulation roller 512 by rotating according to the rotation direction of the conveyor belt.

The supporting portion 730 is formed below the rotation unit and is a hemispherical member having a concave surface formed therein. A plurality of insertion holes (not shown) are formed on the inside of the concave surface of the circulation roller 512, and a ball bearing 740 in contact with the rotation unit 720 is inserted into the insertion holes. Accordingly, the supporting portion 730 supports the rotation unit 720 and at the same time allows the rotation unit 720 to rotate smoothly through the ball bearing 740 .

The elastic support part 750 is installed on the lower surface of the support part 730 to disperse the load generated in the process of conveying the product through the conveyor part. At least two elastic support units 750 may be provided to support one side and the other side of the supporting unit 730, respectively. A detailed configuration of the elastic support unit 750 will be described later.

The main gear 760 is formed in the lower part of the elastic support part, and is a toothed wheel-shaped member fastened to the lower rotary shaft 712 formed in the lower part of the housing so as to be formed in the lower part of the elastic support part.

The main gear 760 is in contact with the conveyor belt 511, rotates according to the rotation direction of the conveyor belt 511, and engages with a sub gear 756 to be described later to support the rotating unit 720 and the elastic support 750. .

On the other hand, the elastic support part 750 is composed of a head unit 751, an upper rotation unit 752, a support pillar 753, an elastic member 754, a lower rotation unit 755, and a sub gear 756.

The head unit 751 is installed on the lower surface of the supporting part and has a concave shape corresponding to the convex surface of the lower surface of the supporting part so as to be in close contact with the lower surface of the supporting part.

One end of the upper rotation unit 752 is installed below the head unit and the other end is connected to a support pillar 753 to be described later. When a load is applied from above in the process of transporting a product, the upper rotation unit 752 is rotated in the left and right directions, which are horizontal to the ground, thereby primarily distributing the load.

The support pillar 753 is a member in the shape of a cylinder or square pillar that is rotatably fastened to the upper rotation unit, and an elastic member 754 is installed at the lower portion.

The elastic member 754 may be installed below the support pillar to secondarily distribute the load transmitted to the support pillar.

The lower rotation unit 755 is installed under the elastic member, and a sub-gear 756 to be described later is engaged to distribute a load to be transmitted to the sub-gear 756 in third order.

The sub gear 756 is a gear-shaped member that is engaged with the main gear by being fastened to the lower rotation unit. The sub gear 756 rotates in a predetermined direction (clockwise or counterclockwise) as the main gear 760 rotates, thereby assisting the main gear 760 to continuously rotate and at the same time contacting the lower part of the conveyor belt. The elastic support part 750, the supporting part 730, and the rotation unit 720 can be supported from the main gear 760.

As shown in FIG. 15, in the buffer unit having such a configuration, when the rotation unit is pressed due to the weight of the product in the process of transporting the product through the conveyor belt, the upper rotation unit and the lower rotation unit move in the left and right directions. It is characterized in that the load is multi-distributed as the elastic member contracts in the vertical direction at the same time as it rotates.

Accordingly, the combined delivery guide unit 500 according to the present invention has an effect of providing a reliable delivery service by minimizing damage to products in the process of reclassifying products for combined delivery.

Such a technique for providing a reverse direct purchase delivery system may be implemented as an application or implemented in the form of program instructions that can be executed through various computer components and recorded on a computer-readable recording medium. The computer readable recording medium may include program instructions, data files, data structures, etc. alone or in combination.

Program instructions recorded on the computer-readable recording medium may be those specially designed and configured for the present invention, or those known and usable to those skilled in the art of computer software.

Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tapes, optical recording media such as CD-ROMs and DVDs, and magneto-optical media such as floptical disks. media), and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like.

Examples of program instructions include high-level language codes that can be executed by a computer using an interpreter or the like as well as machine language codes such as those produced by a compiler. The hardware device may be configured to act as one or more software modules to perform processing according to the present invention and vice versa.

Although the above has been described with reference to embodiments, it will be understood that those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention described in the claims below. You will be able to.

1000: Reverse direct purchase system
100: product management department
200: delivery company setting unit
300: delivery date prediction unit
400: web page management unit

Claims (4)

In the reverse direct purchase delivery system that provides overseas delivery service for domestic products in the reverse direct purchase process in which foreign consumers purchase products using domestic online shopping malls,
The reverse direct purchase delivery system,
a product management unit that communicates with a storage/exit management terminal provided in a delivery agency and manages stock/exit and inventory of products delivered to the delivery agency based on scanning data received from the storage/exit management terminal;
a shipping company setting unit that selects a shipping company for overseas delivery of the product delivered to the delivery destination;
a delivery date prediction unit for estimating the delivery period of the product delivered to the delivery agency to the actual delivery address of the overseas consumer; and
Including; a web page management unit that provides order information of overseas consumers through a web page;
The web page management unit,
Based on the login information received from the terminal accessing the web page, the terminal is classified as either a customer terminal owned by an overseas consumer or the management terminal,
If the terminal is confirmed to be a customer terminal possessed by an overseas consumer, order information including the deposit amount of the overseas consumer, product information about the ordered product, shipping information, delivery address information, delivery and payment information is displayed on the web page. control as much as possible,
If it is confirmed that the terminal is a management terminal, control to display a user tab, a service tab, a staff tab, and a settings tab on the web page;
When the user tab is selected, control to display member information for each foreign consumer who has joined the web page;
When the service tab is selected, control to display detailed information on products requiring overseas delivery on a web page based on order information received from overseas consumers;
When the setting tab is selected, control to display detailed information for each shipping company subscribed to the webpage on the webpage;
The delivery date prediction unit,
At least one intermediate delivery destination required in the process of delivering the product to the actual address of the overseas consumer by the delivery company selected by the delivery company setting unit is extracted, the average arrival date of the product arrives at the extracted intermediate delivery location is searched, and the retrieved an initial delivery period setting unit for setting an initial delivery period by summing the average arrival date for each intermediate delivery destination; and
Including a delivery period correction unit that corrects the initial delivery period by reflecting variables generated in the actual delivery process,
The delivery company setting unit,
Similar areas based on the delivery route of the first delivery driver's terminal owned by the first delivery driver belonging to a specific delivery company and the delivery route of the second delivery driver's terminal owned by the second delivery driver belonging to the specific delivery company In order to determine whether or not to combine shipping for multiple products made in
The first delivery driver terminal generates coordinates for each of at least three actual addresses visited by the first delivery driver terminal to deliver products to the actual address of the overseas consumer, and at least three locations visited by the first delivery driver terminal to deliver products. At least two line segments related to the delivery route of the first delivery driver terminal are generated by generating a line segment connecting two neighboring addresses among the actual addresses of the place, and at least two line segments related to the delivery route of the first delivery driver terminal are generated. A feature line segment connecting a midpoint of a first line segment, which is one of the line segments, and a midpoint of a second line segment adjacent to the first line segment is generated, and first vector information indicating the angle and size of the generated feature line segment is obtained. create at least one
The second delivery driver terminal generates coordinates for each of at least three actual addresses visited by the second delivery driver terminal to deliver products to the actual address of the overseas consumer, and at least three locations visited by the second delivery driver terminal to deliver products. At least two line segments related to the delivery route of the second delivery driver terminal are generated by generating a line segment connecting two neighboring addresses among the actual addresses of the place, and at least two line segments related to the delivery route of the second delivery driver terminal are generated. Second vector information indicating the angle and size of the generated feature line segment is generated by generating a feature line segment connecting a midpoint of a third line segment, which is any one of the line segments, and a midpoint of a fourth line segment adjacent to the third line segment. create at least one
A first condition in which a separation distance between a first place visited by the first delivery driver terminal for product delivery and a first place visited by the second delivery driver terminal for product delivery is equal to or less than a preset reference distance;
The at least one first vector information and the at least one second vector information are input to the input layer of the artificial neural network that has been learned in advance, and the first vector information and the second vector information and the second vector information are based on the result value output to the output layer of the artificial neural network. If the similarity between vector information is calculated and it is confirmed that the calculated similarity satisfies all the second conditions that are equal to or greater than the preset reference similarity,
When it is determined that combined delivery of products delivered through the first delivery driver and the second delivery driver is possible, the first delivery driver and the second delivery driver's terminal are sent to either one of the first delivery driver's terminal and the second delivery driver's terminal. It is characterized in that the combined delivery of the products delivered through the delivery driver is requested,
The delivery company setting unit,
When combined delivery is approved by the first delivery driver terminal and the second delivery driver terminal, the location information of the first delivery driver terminal and the second delivery driver terminal is collected at predetermined time intervals, and the first delivery driver terminal is the standard. When it is determined that the second delivery driver's terminal is located within a preset combined delivery radius, the first delivery driver's terminal and the second delivery driver's terminal are configured to negotiate a list of combined delivery products in real time between the first and second delivery drivers. Create an interface screen that is output in common,
Objects for each product type and delivery location to be delivered through the first delivery driver terminal are created, and objects for each product type and delivery location to be delivered are created through the second delivery driver terminal to display the interface screen. display them in different locations,
Based on the interface screen, input through at least one terminal of the first delivery driver terminal or the second delivery driver terminal so that the list of combined delivery products negotiated in real time between the first delivery driver and the second delivery driver can be shared. Based on the object manipulation signal, the first delivery driver and the second delivery driver reconstruct a list of products to be delivered,
The reverse direct purchase delivery system,
When combined delivery is approved by the first delivery driver terminal and the second delivery driver terminal, it is installed between the first delivery vehicle operated by the first delivery driver and the second delivery vehicle operated by the second delivery driver Further comprising a combined delivery guide unit for transferring the products loaded in the first delivery vehicle to the second delivery vehicle and at the same time transferring the products loaded in the second delivery vehicle to the first delivery vehicle,
The combined shipping guide unit,
a first conveyor unit installed between the first delivery vehicle and the second delivery vehicle and transporting products loaded in the first delivery vehicle to the second delivery vehicle;
a second conveyor unit installed between the first delivery vehicle and the second delivery vehicle and transporting products loaded on the second delivery vehicle to the first delivery vehicle; and
A separation prevention unit installed between the first conveyor unit and the second conveyor unit to prevent separation of goods transported through the first conveyor unit and the second conveyor unit;
The first conveyor part and the second conveyor part,
conveyor belt;
circulation rollers installed at predetermined intervals so that the conveyor belt can be circulated and rotated in a state of forming an endless track; and
A buffer unit installed between two adjacent circulating rollers to distribute the load generated in the process of transporting the product through the conveyor belt; includes,
The buffer unit,
a housing having an upper rotation shaft and a lower rotation shaft;
a cylindrical rotating unit having a central portion fastened to the upper rotating shaft, a portion of a side portion protruding from an upper portion of the housing, and rotating according to the rotating direction of the conveyor belt;
a hemispherical support portion formed at a lower portion of the rotation unit and having a concave surface formed therein;
At least two elastic support parts installed on the lower surface of the supporting part; and
A main gear fastened to a rotation shaft formed in the lower part of the housing so as to be formed in the lower part of the elastic support part; includes,
The upper rotation shaft is installed to ascend or descend along a guide groove formed on an upper portion of the housing, and the lower rotation shaft is fixedly installed to a lower portion of the housing,
A plurality of insertion holes are formed on the inside of the concave surface of the supporting portion, and a ball bearing in contact with the rotating unit is inserted into the insertion holes,
The elastic support part,
a head unit closely attached to the lower surface of the support and having a concave shape corresponding to the shape of the lower surface of the support;
an upper rotation unit installed under the head unit;
a support column rotatably fastened to the upper rotation unit;
an elastic member installed below the support pillar;
a lower rotation unit installed under the elastic member; and
And a sub gear fastened to the lower rotation unit and meshing with the main gear,
The buffer unit,
When the rotation unit is pressed in the process of conveying the product through the conveyor belt, the upper rotation unit and the lower rotation unit rotate in the left and right directions, and the elastic member is contracted in the vertical direction to distribute the load. Reverse direct purchase delivery system.
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