KR20140042257A - Mobile mediation service system of materials for industry - Google Patents

Abstract

The present invention relates to a mobile brokerage service system for industrial materials, including: a server to receive and store sale information inputted by a seller; and a terminal to enable a buyer to search the sale information inputted by the seller, to calculate and pay the required order quantity. The terminal includes: an input module for the seller to input the sale information of the industrial materials; a search module for the buyer to search the sale information by inputting search information; a display module to display the searched sale information of the sale information on the display; a calculation module for the buyer to calculate the required order quantity on the basis of the searched sale information; and a payment module for the buyer to purchase goods according to the calculated order quantity. [Reference numerals] (AA) Server; (BB) Terminal; (CC) Input module; (DD) Search module; (EE) Display module; (FF) Calculation module; (GG) Payment module

Description

Mobile mediation service system of materials for industry

The present invention includes a server for receiving and storing sales information input by a seller, and a terminal for allowing a buyer to search, calculate a required order amount, and pay the sales information input by the seller. The sales information entered by the seller is generally related to industrial materials. Specifically, the mobile mobile environment allows the buyer to search and compare the sales information according to the specifications provided by the seller in detailed conditions, and calculate the required purchase amount to pay immediately. It relates to an industrial materials brokerage service system that enables.

In one embodiment, the present invention provides a calculation program for accurate ordering of industrial materials (paper), and more specifically, a paper material with the lowest loss ratio and no error when entering basic information of a printed product to be produced. It is about a system that can be selected. In addition, it relates to a program that selects suitable materials from thousands of paper raw materials when entering a production application.

In recent years, with the activation of mobile telecommunications services, the influence of telecommunications services on business such as commodity transactions has greatly increased, and as the frequency of utilization of the online market has increased drastically compared to the past, transactions of products that were previously performed offline are gradually online. In recent years, mobile transactions are exploding due to the rapid development of portable terminals such as smartphones.

However, the increasing number of mobile transactions is mainly limited to household goods and personal items, and mobile transactions are not active for industrial materials that need to be distributed in large quantities.

In the past, the trade of industrial materials was sometimes delivered to real buyers through distributors, but it was generally delivered to end consumers through primary large wholesalers, secondary small and medium wholesalers, and retailers. There has been a problem that the cost burden is passed on to the end consumer due to an increase in storage costs.

Large real buyers had the advantage of trading directly from industrial materials companies or starting trading directly at the first large wholesaler, but small and medium-sized real buyers with low purchasing power did not enjoy these benefits and only traded through second small and medium wholesalers and retailers. Could.

In the paper industry, for example, this complex distribution structure is presented in the KIET Research Institute's Research on Competitiveness in Printing Paper.

Under this background, there is a need for a mobile mediation system using a new mobile environment that breaks away from traditional trading methods.

Industrial materials, which are traditionally prevalent in foreign and commercial transactions, especially in the paper industry, aim to contribute to securing market soundness by improving distribution structure and inducing cash settlement services. It also eliminates the asymmetry of information gathered in industrial material manufacturers, large wholesalers, etc., enables consumers to easily search for information on industrial materials that meet their desired standards, and calculate the amount of industrial materials required. The object of the present invention is to be able to make a payment immediately after such a process.

More specifically, paper raw materials were often referred to specialists (print shops, branch offices, etc.) because non-experts could not accurately calculate requirements. In the process, consumers have not been able to accurately predict costs and the price has been inflated. In addition, there are frequent printing accidents caused by the wrong choice of paper raw materials.

Accordingly, the present invention is intended to prevent damage to consumers and prevent printing accidents by allowing non-experts to predict raw material demand without error. In addition, by providing information (price, specification, basis weight, etc.) of various raw material papers according to the use, it helps consumers to make a reasonable purchase.

By accurately revealing the price information of industrial materials through mobile applications, customers can induce reasonable purchases, and not only provide price information, but also present the specifications and uses of each industrial material to provide the amount of materials needed by consumers. We present an algorithm that helps us calculate automatically.

By utilizing the system according to the present invention, it is possible to meet the needs of buyers in the reality that the demand for small quantities of various kinds of industrial materials is increasing.

It solves the asymmetry of information currently gathered in industrial material manufacturers, large wholesalers, etc., makes it easy for general consumers to search the information of industrial materials that meet their desired standards, and calculates the amount of industrial materials required. After this process, it is possible to make a payment immediately.

In the case of paper material intermediary, which is an embodiment of the present invention, input basic information (horizontal and vertical length, total number of pages, number of copies, etc.) to be produced through wired / wireless communication network to calculate an optimal requirement, In particular, it fundamentally solves print accidents that may occur due to lack of understanding of paper texture.

At the same time, by eliminating the complex distribution structure of industrial materials and removing price bubbles, buyers can make economic profits, and sellers can receive payments in cash immediately, eliminating the risk of payback. can do.

1 is a block diagram illustrating a distribution structure of an existing industrial material (eg, the paper industry).
2 is a block diagram illustrating the profit structure of an existing industrial material (eg, the paper industry).
3 is a block diagram illustrating a distribution structure according to an embodiment of the present invention.
4 is a block diagram illustrating a profit structure in accordance with an embodiment of the present invention.
5 is a schematic diagram of an industrial material intermediary service according to an embodiment of the present invention.
Figure 6 is a flow chart illustrating a required purchase amount (exemplarily to requirements) calculation algorithm according to an embodiment of the present invention.
Fig. 7 is a flowchart showing an algorithm for calculating a required purchase amount (eg, label requirement) according to an embodiment of the present invention.

First, briefly described the gist of the present invention.

In the present invention, the server receives the sales information input by the seller, stores it, and provides the sales information to the buyer. The purchaser searches and compares the sales information presented by the seller through a terminal equipped with an input module, a search module, a display module, a calculation module, and a payment module. You can enter to calculate the required order quantity. When the required order quantity is calculated through the above process, the industrial materials can be immediately settled and purchased.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the industrial material intermediary service system for implementing the present invention performing the function as described above.

1 is a block diagram of an existing distribution structure. The present invention broadly relates to industrial materials, but presents a paper industry as a specific example.

Referring to FIG. 1, an industrial material manufacturer (print paper company) does not deal directly with a large consumer, but directly with a small consumer. Instead, it deals with printing paper dealers or primary large wholesalers, and has a sequential distribution structure that is distributed from primary large wholesalers to secondary small and medium wholesalers and retailers. In this case, real users are unlikely to purchase industrial materials without going through at least one intermediate distribution process, and the complexity of this distribution process is costly to real users due to the increase in transportation and storage costs.

2 shows the profit generation structure due to the current market distribution structure. The transition from the original print paper manufacturer to the first large wholesaler, the second small and medium wholesaler, the retailer, the print shop, and the publisher is insignificant and the costs are the profits of each middleman in the distribution process. From the first large wholesaler to the second small and medium-sized wholesaler, in addition to the profits of the intermediate merchants, there are risk costs, which are the costs of failing to recover the sales price.

3 illustrates a distribution structure through a mobile mediation system according to the present invention. In addition to dealing directly with large-scale buyers and first large wholesalers, printing paper companies can provide sales information on the products produced by printing paper companies using mobile intermediation system. Is passed to. In this case, the risks of intermediate profits and payouts are reduced because they are delivered directly to the consumer without going through the secondary small and medium wholesalers and retailers.

4 is a block diagram showing a profit structure according to the present invention. In the process of distribution from printing paper companies to the first large wholesalers, and from the first large wholesalers to publishers and printing shops, there is no risk of paying back sales. The industrial materials mobile intermediation system according to an embodiment of the present invention can eliminate the risk of failing to recover the payout by paying the goods through the card payment and cash payment.

5 is a diagram illustrating a server and a terminal according to an embodiment of the present invention. The server accepts and stores the sales information on the industrial materials provided by the seller and provides the sales information through the buyer's terminal. The terminal according to an embodiment of the present invention includes a function for allowing a buyer to search, calculate a required order amount, and pay sales information input by a seller. In detail, an input module for a seller to input industrial material sales information, a search module for a buyer to input search information to search for the sales information, a display module to display the searched information among the sales information on the terminal, and the searched sales information. It includes a calculation module for calculating the amount of orders required by the buyer and a payment module for purchasing goods according to the calculated order amount.

6 is a flowchart illustrating an algorithm for calculating a required purchase amount (from example to requirement) according to an embodiment of the present invention. First, enter the binding direction and determine whether the paper result of the material matches the paper grain of the booklet.

The binding direction input is a step of selecting the grain of paper (fiber direction of pulp, which is a raw material of paper), which will be described in detail with reference to the following figure.

<Figure 1-1>

<Figure 1-2>

The grain of paper has a long vertical grain as the fiber direction of wood as shown in <Figure 1-1> and a long horizontal grain as shown in <Figure 1-2>. The consumer selects the binding direction based on the above information.

<Figure 1-3>

In the case of 'Left' booklet, which is a book that turns from right to left, if you select 'Left' as shown in <Figure 1-3>, you can select the object with raw material of vertical grain as shown in <Figure 1-1>. It is limited.

On the contrary, in case of 'Seoncheol' booklet, which is a way of turning the book from the bottom to the top, select the 'top' menu and limit the object to raw materials with short grain as shown in <Figure 1-2>.

If the paper result of the material coincides with the paper grain of the booklet, enter the plate type information. If the paper does not match, enter the plate type information after rotating the paper. Plate information refers to a booklet specification. After determining whether there is a desired plate shape, if the desired plate shape is among the preset conditions, the corresponding plate shape is selected. If the desired plate shape does not exist, the horizontal and vertical plate shapes are directly input.

After calculating the water saving (quantity that the battery can be divided), 545 * 788 (vertical): 788 * 545 (horizontal), 625 * 880 (vertical): 880 * 625 (crosswise), 636 * 939 ( Vertical grain): 939 * 636 (horizontal grain), 788 * 1091 (vertical grain): 1091 * 788 (horizontal grain) can be derived. To prevent printing accidents, the range of products should be limited to paper with the same binding direction and paper grain. For smooth bookbinding, we select the number of squares of 2 (verse 2, 4, 8, 16, 32), etc. and through this process we select the paper with the maximum number of savings.

This selects the conditions that have the least waste of paper, and then inputs the total number of pages of the booklet to be produced. The number of pages entered at this time is converted to a multiple of 'multiplication times 2' and calculated. After entering the number of pages, enter the total number of copies.

The result is then calculated, which is calculated using the formula 'number of copies × converted into multiples of' number of copies × 2 ') of pages ÷ (number of copies × 2) ÷ 500.

After that, if there is no need to input the extra, we will print out the result immediately. If there is a need, enter it to calculate the spare and print the result.

7 is a flowchart illustrating an algorithm for calculating a required purchase amount (eg, label requirement) according to an embodiment of the present invention.

First, enter the binding direction and determine whether the paper result of the material matches the paper grain of the booklet. The binding direction input is a step of selecting the grain of paper (fiber direction of pulp, which is a raw material of paper), which will be described in detail with reference to the following figure.

<Figure 1-1>

<Figure 1-2>

The grain of paper has long vertical grains based on the fiber direction of wood as shown in <Figure 1-1>, and has long horizontal grains as shown in <Figure 1-2>. The consumer selects the binding direction based on the above information.

If the paper result of the material coincides with the paper grain of the booklet, enter the plate type information. If the paper does not match, enter the plate type information after rotating the paper. Plate information refers to a booklet specification. After determining whether there is a desired plate shape, if the desired plate shape is among the preset conditions, the corresponding plate shape is selected. If the desired plate shape does not exist, the horizontal and vertical plate shapes are directly input.

After calculating the water saving (quantity that the battery can be divided), 545 * 788 (vertical): 788 * 545 (horizontal), 625 * 880 (vertical): 880 * 625 (crosswise), 636 * 939 ( Vertical grain): 939 * 636 (horizontal grain), 788 * 1091 (vertical grain): 1091 * 788 (horizontal grain) can be derived. Through this process, the paper of maximum water saving is selected.

Then enter the type, basis weight, and total number of pages that will be used to calculate the size of the book (the side of the cover when the book is opened). After entering the paper type and basis weight. The thickness of each type of paper input to the server (unit: μm (micrometer)), the number of sheets (pages ÷ 2), and the size of the book are calculated. The book wings (folded in part of the book's cover) are entered directly.

 In this case, it is determined whether the waste paper ratio (loss ratio) is the smallest, and if it is not the least condition, it returns to the water saving calculation.

If you find the condition that has the least loss ratio, you will enter the number of copies and calculate the result. The resulting value = the number of copies produced ÷ the number of copies ÷ 500.

After that, if there is no need to input the extra, we will print out the result immediately. If there is a need, enter it to calculate the spare and print the result.

In addition to the above-described embodiment, the step of calculating the required amount of industrial materials, and online ordering, payment may also be included.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

Claims (10)

A server for receiving and storing sales information input by a seller;
It includes a terminal that allows the buyer to search, the required order volume, and pay the sales information entered by the seller;
The terminal comprises:
An input module for the seller to input industrial material sales information;
A search module for searching for the sales information by a buyer inputting search information;
A display module for displaying the searched sale information of the sale information on a terminal;
A calculation module for calculating a purchase order required by the buyer based on the retrieved sales information; And
Industrial equipment brokerage service system comprising a; payment module for purchasing goods according to the calculated amount of orders by the buyer.
The method of claim 1,
Selling information input by the seller to the server is selling information about paper,
In the search module of the terminal, the purchase information searchable by the buyer using the terminal includes a manufacturer, paper type, color, basis weight, and specification.
The sales information displayed on the terminal by the display module includes a predetermined price and a discount rate by the seller.
The method according to claim 1 and 2,
The search module is an industrial materials brokerage service system, characterized in that in addition to the sales information displayed on the terminal to search for goods with similar conditions to the search conditions according to the buyer's selection.
4. The method according to any one of claims 2 to 3,
Industrial material brokerage service system comprising a binding direction, plate type, number of pages, number of production, extra amount as information for calculating the amount of order required in the calculation module, and calculating the required amount of order using the information.
4. The method according to any one of claims 2 to 3,
Information for calculating the amount of order required in the calculation module, including the binding direction, plate shape, the width of the side of the cover, the width of the cover blades, the number of copies, the extra amount of industry, characterized in that for calculating the required order amount using the information Material brokerage service system.
A first step in which the seller inputs industrial material sales information;
A second step of a purchaser searching for the sale information by inputting search information into a terminal;
A third step of displaying, on the terminal, the sale information found in the sale information;
A fourth step of calculating a purchase order required by the buyer based on the retrieved sales information; And
And a fifth step of purchasing goods by the buyer according to the calculated order quantity.
The method according to claim 6,
The sales information input by the seller in the first step is sales information about paper,
The sales information searchable by the buyer in the second step using the terminal includes the manufacturer, paper type, color, basis weight, specifications,
The sales information displayed on the terminal in the third step includes a price and a discount rate preset by the seller.
The method according to claim 6 and 7,
And a sixth step of searching for a product having a condition similar to a search condition according to a purchaser's selection, in addition to the sales information displayed on the terminal in the second step.
The method according to any one of claims 7 to 8,
Industrial material broker service method comprising the binding direction, plate type, number of pages, the number of production, the extra amount as the information for calculating the amount of order required in the fourth step, and calculates the required order amount using the information.
The method according to any one of claims 7 to 8,
Information for calculating the order quantity required in the fourth step includes the binding direction, plate shape, the width of the side of the cover, the width of the cover wing, the number of production, the extra amount, characterized in that for calculating the required order quantity using the information Industrial materials brokerage service method.

Images