JP4405633B2 - Product receipt / shipment management system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a merchandise receipt / shipment management system, for example, a merchandise receipt / shipment management system in a distribution center that delivers merchandise to a supermarket or a convenience store.
[0002]
[Prior art]
For example, in stores (retail stores) such as supermarkets and convenience stores, various products including food are delivered from a distribution center. In the distribution center, products received from the product manufacturer are distributed to each store (each delivery destination), and the distributed products are shipped to each store. At this time, a cart (cart) to which a label with a store number is affixed is used for distribution of merchandise. In general, a required number of required products are distributed to a plurality of basket cars having a predetermined store number.
[0003]
Eventually, at the designated time, the delivery company's truck arrives at the delivery center. Then, the delivery company loads the cart to be delivered on the truck while referring to the store number. At this time, the delivery company attaches the cut label removed from the label of each car to the delivery ledger it has. The store number is also written on this cut label. In this way, the delivery company confirms how many carts for each store are loaded based on the cut labels attached to the delivery ledger.
[0004]
[Problems to be solved by the invention]
As described above, in the conventional receipt / shipment management, merchandise distribution for each store is performed, and consequently, receipt / shipment management for each store is performed. However, not all carts to be delivered to the same store are delivered at the same time. When only a part of the car is shipped, receipt / shipment management for each car is not performed, so it is not possible to answer inquiries regarding the shipment of the remaining car. In addition, because we do not manage receipt / shipment by car, even if there is an unreturned car, we cannot confirm to which store the car is finally delivered and not returned. .
[0005]
Further, in conventional receipt / shipment management, a cart is automatically loaded and delivered at a specified time. Therefore, if the distribution of the product to the car is not completed by a specified time for some reason, the car that has not been distributed is delivered to each store, and so-called incomplete delivery occurs.
Furthermore, in the conventional receipt / shipment management, the delivery company is left with collation between the delivery company and the store to be delivered. Therefore, if the delivery company makes a mistake in the store number and loads a cart different from the cart to be delivered, so-called misdistribution occurs.
[0006]
The present invention has been made in view of the above-described problems. For example, a receipt / shipment management system capable of preventing incomplete delivery and incorrect delivery by performing receipt / shipment management for each car at a delivery center. The purpose is to provide.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, in the present invention, in a receipt / shipment management system for distributing and shipping a received product to each delivery destination, a plurality of IC module members are detachably attached and should be delivered to each delivery destination. Delivery carriers, distribution carriers for transferring the products to each delivery carrier in order to distribute the products with IC labels attached to the respective delivery carriers, order information for each delivery destination, Host information processing apparatus in which a database related to ordering information and management information for each delivery carrier is formed, an IC module member installed in each distribution carrier and attached to each delivery carrier, and an IC attached to each product And an information module for reading and writing information on the label, and an IC module attached to each delivery carrier The member is written with a carrier code including information on a delivery destination to which the delivery carrier should be delivered and information on identification of the delivery carrier, and an IC label attached to each product has a product code of the product and Receipt / shipment of products for each carrier for delivery using serial numbers written and IC module members attached to each carrier for delivery and IC labels attached to each product Provide a management system.
In this case, it is preferable that the information terminal has a function of wirelessly communicating with the host information processing apparatus.
[0008]
According to a preferred aspect of the present invention, prior to distribution of merchandise to each delivery carrier, order information by delivery destination is transferred from the host information processing apparatus to the information terminal, and the information terminal The product code is read from the IC label attached to each product loaded on the distribution carrier, the carrier code is read from the IC module member attached to each delivery carrier, and the read product code, carrier code, and delivery destination Based on the received order information, the quantity to be distributed to each delivery destination is presented, and the information terminal counts the quantity of goods transferred from the distribution carrier to each delivery carrier, The product code of the product distributed to the delivery carrier and the distributed quantity are written on the attached IC module member. In this case, after the final product to be distributed is distributed to each delivery carrier, the information terminal writes a shipping permission code on the IC module member attached to each delivery carrier, and finally each delivery carrier It is preferable to transfer product description data including information on the type and quantity of the loaded product to the host information processing apparatus.
[0009]
Further, according to a preferred aspect of the present invention, prior to inspection of received goods, order information for each product is transferred from the host information processing apparatus to the information terminal, and the information terminal is transferred to the distribution carrier. The product code and serial number are read from the IC label affixed to each loaded product, and based on the read product code and serial number and the ordering information for each product, the total amount of received products and the total amount of ordered products are determined. Collate.
[0010]
Further, according to a preferred aspect of the present invention, information is read from an IC module member attached to each delivery carrier and an IC card possessed by each delivery person, and the read information is transferred to the host information processing apparatus. A gate type information terminal, and the gate type information terminal reads the carrier code from the IC card of the passing delivery person, and also reads and reads the carrier code from the IC module member attached to each passing delivery carrier. A delivery code and a carrier code transferred to the host information processing apparatus, and the host information processing apparatus, based on the delivery carrier-specific management information, The carrier code is collated, and the collation result is presented to the gate type information terminal. In this case, it is preferable that the gate type information terminal has a function of wirelessly communicating with the host information processing apparatus. Further, the gate type information terminal reads a shipping permission code from an IC module member attached to the delivery carrier in order to confirm completion of distribution to each delivery carrier, and reads the read shipping permission code into the host. It is preferable to transfer to the information processing apparatus.
[0011]
According to a preferred aspect of the present invention, the gate type information terminal reads a carrier code from an IC module member attached to a delivery carrier returned from a delivery destination, and sends the read carrier code to the host information processing apparatus. The host information processing apparatus confirms the return of the delivery carrier in response to the carrier code transferred from the gate type information terminal, and uses the confirmed return information as management information for each delivery carrier. input.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
In the present invention, an IC module member is detachably attached to each delivery carrier to be delivered to each delivery destination. Here, a carrier code including information on a delivery destination to which the delivery carrier is to be delivered and information on identification of the delivery carrier is written on the IC module member. In addition, an IC label is attached to each product to be distributed to each delivery carrier, and a product code and a serial number of the product are written on the IC label.
[0013]
Further, an information terminal having a reader / writer function is installed in the distribution carrier for transferring the goods to be distributed to each delivery carrier, and the IC module attached to each delivery carrier using this information terminal Read and write information on IC labels attached to members and each product. In addition, a host information processing apparatus is provided, and a database regarding order information for each delivery destination, order information for each product, and management information for each carrier for delivery is formed in this host information processing apparatus. In this way, according to the present invention, incoming / outgoing management of merchandise is performed for each delivery carrier via the IC module member attached to each delivery carrier and the IC label attached to each merchandise.
[0014]
Specifically, prior to distribution of goods to each carrier for delivery, order information for each delivery destination is transferred from the host information processing apparatus to the information terminal, and the received order information for each delivery destination is stored in the memory of the information terminal. Stored in the department. Next, the information terminal installed on the distribution carrier reads the product code from the IC label attached to each product loaded on the distribution carrier, and reads the carrier code from the IC module member attached to each delivery carrier. . The information terminal presents the quantity to be distributed to each delivery destination on the display unit based on the read product code and carrier code and order information for each delivery destination.
[0015]
In this way, the worker distributes a predetermined quantity of products to each delivery carrier to be delivered to each delivery destination based on the quantity information presented on the information terminal. At this time, the information terminal automatically counts the quantity of commodities transferred from the distribution carrier to each delivery carrier. Then, the information terminal writes the product code and the distributed quantity of the product distributed to the delivery carrier in the IC module member attached to each delivery carrier. Furthermore, after the final product to be distributed is distributed to each delivery carrier, the information terminal writes a shipping permission code on the IC module member attached to each delivery carrier, and is finally loaded on each delivery carrier. The product detail data including the information on the type and quantity of the product is transferred to the host information processing apparatus.
[0016]
When the distribution of the product to each delivery carrier is completed in this way, the delivery person passes through the gate type information terminal together with the delivery carrier before loading the predetermined delivery carrier on the truck. At this time, the gate type information terminal reads the carrier code from the IC card of the passing delivery person, and also reads the carrier code from the IC module member attached to each passing delivery carrier. The code is transferred to the host information processing apparatus. The host information processing apparatus collates the carrier code and the carrier code transferred from the gate type information terminal based on the management information for each carrier for delivery, and presents the collation result to the gate type information terminal.
[0017]
In addition, the gate type information terminal reads the shipping permission code from the IC module member attached to the delivery carrier in order to confirm the completion of the distribution of goods to each delivery carrier, and the read shipping permission code is used as the host information. Transfer to processing device. In this way, the host information processing apparatus confirms the delivery of the delivery carrier in response to the shipping permission code transferred from the gate type information terminal and the collation result, and manages the confirmed delivery information for each delivery carrier. Enter information. After confirming the collation result between the deliverer code and the carrier code and the presence / absence of the shipping permission code, the deliverer loads the delivery carrier on a truck and delivers it.
[0018]
Eventually, each delivery carrier returns from the delivery destination by the delivery person. At this time, the gate type information terminal reads the carrier code from the IC module member attached to the delivery carrier returned from the delivery destination, and transfers the read carrier code to the host information processing apparatus. In the host information processing apparatus, the return of the delivery carrier is confirmed in response to the carrier code transferred from the gate type information terminal, and the confirmed return information is input to the management information for each delivery carrier. In this way, entry / exit management of each delivery carrier is performed.
[0019]
As described above, according to the present invention, merchandise distribution for each delivery carrier is performed, and hence receipt / shipment management for each delivery carrier is performed. Therefore, when only some of the delivery carriers to be delivered to the same delivery destination are shipped, it is possible to answer an inquiry regarding the shipment of the remaining delivery carriers. In addition, because we manage receipts and shipments by delivery carrier, even if there is an unreturned delivery carrier, confirm to which delivery destination the delivery carrier is finally delivered and not returned can do.
[0020]
Further, in the present invention, after confirming the collation result between the deliverer code and the carrier code and the presence / absence of the shipping permission code, each delivery carrier is loaded and delivered. Therefore, even if the distribution of the product to the delivery carrier is not completed for some reason, the delivery carrier that has not been distributed is not delivered to each delivery destination, and so-called incomplete delivery occurs. Can be prevented. Similarly, it is possible to prevent the occurrence of so-called misdelivery without causing the delivery person to make a mistake and loading a delivery carrier different from the delivery carrier to be delivered.
[0021]
Embodiments of the present invention will be described with reference to the accompanying drawings.
FIG. 1 is a diagram schematically showing a configuration of a delivery center to which a receipt / shipment management system according to an embodiment of the present invention is applied. FIG. 2 is a diagram for explaining arrival of goods to the distribution center and arrival inspection. FIG. 3 is a diagram schematically showing the configuration of the cage car placed in each store area of the distribution center. In the present embodiment, the present invention is applied to a distribution center that delivers various products including food products to each store (retail store) such as a supermarket and a convenience store.
[0022]
At the distribution center, as shown in FIG. 1, various products are received from the product manufacturer by the truck 1. The goods received in the truck 1 are loaded on a cart as a distribution carrier. At this time, as shown in FIG. 2, a single cart 11 is loaded with a number of products 12 of the same type. An IC label 13 is affixed to each product 12, and a product code and a serial number are written in advance on each IC label 13. The cart 11 is provided with an information terminal 14 having a reader / writer function of a relatively long communication distance (for example, about 1 m) for reading information from the IC label 13 affixed to the product 12. The information terminal 14 has a function of wirelessly communicating with the host computer 15.
[0023]
Prior to the inspection of the received goods 12, the host computer 15 transfers order information for each product (or order information for each manufacturer) to the information terminal 14 by wireless communication, and the information transferred from the host computer 15 is stored in the information terminal 14. Stored in the memory unit. In this manner, a database relating to ordering information for each product is formed in the storage unit inside the host computer 15. Next, the information terminal 14 reads the product code and serial number from the IC label 13 attached to each product 12 loaded on the carriage 11. Then, the information terminal 14 automatically checks the total quantity, that is, the incoming inspection by collating the total quantity of the received goods with the total quantity of the ordered goods based on the read product code and serial number and the order information for each product. Do.
[0024]
The goods that have been inspected in this way are distributed to each car as a delivery carrier to be delivered to each store (each delivery destination). As shown in FIG. 1, a cart storage area 2 is installed at the center of the distribution center, and various product distribution areas 3 to 5 are installed around it. Here, the first product distribution area 3 is, for example, a cold drink distribution area, the second product distribution area 4 is a kneaded product distribution area, and the third product distribution area 5 is a daily product distribution area, for example. It is. A large number of shop-specific areas 6 are formed in each product distribution area.
[0025]
As shown in FIG. 3, a plurality of basket cars 24 to be delivered to the store are placed in each store area. In addition, the basket car which became unnecessary in each store area is transferred to the basket car storage area 2. Further, when a new car is required in each store area, the required number of cars are transferred from the car car storage area 2. Further, the store name 22 and the store number (store code) 23 are posted in each store area.
[0026]
On the other hand, an IC plate 25 is detachably attached to the cage wheel 24. The IC plate 25 is a non-contact type IC module member configured by incorporating an IC module and an antenna into a plate formed of an appropriate material such as vinyl chloride. On the surface of the IC plate 25, a car car code 26 including a store number to which the car is to be delivered and a car car number is displayed. Further, the information on the car code 26 is written in advance in a memory in the IC module of the IC plate 25.
[0027]
FIG. 4 is a diagram for explaining distribution of products loaded on the cart to each car.
In this embodiment, as shown in FIG. 4, the products 12 loaded on the carriage 11 are distributed to each car 24 to be delivered to each store. In this case, the worker moves the carriage 11 to the corresponding product distribution area according to the type of the product to be distributed. Prior to the distribution of the product 12 to each car 24, the host computer 15 transfers the order information for each store (that is, the order information for each delivery destination) to the information terminal 14 and is transferred from the host computer 15. Information is stored in the memory unit of the information terminal 14. In this manner, a database related to order information for each store is formed in the storage unit inside the host computer 15.
[0028]
Next, the information terminal 14 reads the product code from the IC label 13 affixed to each product 12 loaded on the carriage 11, and reads the cart code from the IC plate 25 attached to each cart 24. The information terminal 14 presents the quantity to be distributed to each store on the display unit of the information terminal 14 based on the read product code, basket car code, and order information for each store. Thus, based on the quantity information presented on the information terminal 14, the worker distributes a predetermined quantity of products to each car 24 to be delivered to each store.
[0029]
At this time, the information terminal 14 automatically counts the number of commodities transferred from the carriage 11 to each car 24. Then, the information terminal 14 writes the product code of the distributed product and the distributed quantity on the IC plate 25 attached to each car 24. At the same time, the information terminal 14 transfers the car code, the product code, and the quantity to the host computer 15 by wireless communication. Thus, the information terminal 14 has a reader / writer function for writing and reading information to and from the IC module of the IC plate 25.
[0030]
The host computer 15 erases the order information for each store written in advance in the order database for each store based on the information transferred from the information terminal 14 (car car code, product code, and quantity). Similarly, the information terminal 14 also erases the order information for each store.
The above-described merchandise distribution process is similarly repeated for all stores, and is similarly repeated for all types of merchandise.
[0031]
However, in the case of distribution of the final product, information indicating that the product is the final product is presented on the information terminal 14 together with the quantity to be distributed to each store. Then, the information terminal 14 writes the shipping permission code on each IC plate 25 together with the product code of the distributed product and the distributed quantity at the end of distribution of the final product to each car 24. Thus, when the distribution of the final product is completed, the list data relating to the loaded product and its quantity, that is, the product description data, is written on the IC plate 25 of each car 24. The information terminal 14 transfers the product description data to the host computer 15.
[0032]
FIG. 5 is a diagram for explaining the shipment of products to each store.
When the distribution of the product to each car to be delivered to each store is completed, each car is shipped to the corresponding store by a delivery company (delivery person). In the present embodiment, as shown in FIG. 5, the delivery company 41 passes through the gate type information terminal 42 before loading the car 24 on the truck 1. The gate type information terminal 42 reads a delivery company code from an IC card (not shown) possessed by the delivery company 41 and also reads a car car code and a shipping permission code from the IC plate 25 of the car car 24.
[0033]
The gate type information terminal 42 transfers the read delivery company code, basket car code and shipping permission code to the host computer 15 by wireless communication. Thus, the gate-type information terminal 42 has the function of a reader / writer with a relatively long communication distance (for example, about 1 m) for reading information from the IC card possessed by the delivery company 41 and the IC plate 25 of the car 24. And a function of wirelessly communicating with the host computer 15.
[0034]
The host computer 15 collates the delivery company code transferred from the gate-type information terminal 42 with the car-car code based on the management information for each car, and presents the collation result to the gate-type information terminal 42. As described above, a database related to the management information for each car is formed in the storage unit inside the host computer 15. The collation result presented to the gate-type information terminal 42 is, for example, “OK” when the delivery company does not select the wrong car, and “NO” when the wrong car is selected. "Is displayed.
[0035]
Therefore, when the delivery company 41 tries to load a truck car different from the car to be delivered to the truck 1 by mistake, the host computer 15 will alert the delivery company 41 to that effect. Occurrence is prevented in advance.
Further, since the shipping permission code is read from the IC plate 25 of the car 24 and it is confirmed that the distribution of the goods to the car 24 is completed, the so-called incomplete delivery has not occurred. To be prevented.
[0036]
The delivery company 41 that has confirmed the mis-delivery check and the shipping permission code loads each car 24 on the truck 1 and ships it. In the host computer 15, the management database of each car 24 is rewritten based on the shipping permission code transferred from the gate type information terminal 42 and the above collation result. That is, the state of each car 24 is switched from the entry state to the exit state, and the exit time, delivery company code, store code, etc. are input as necessary.
[0037]
FIG. 6 is a diagram for explaining confirmation of return of the shipped car.
As shown in FIG. 6, the shipped cart 24 is eventually returned to the delivery center by the truck 1 of the delivery company 41. The delivery company 41 passes through the gate type information terminal 42 together with the returned car 24. Thus, the gate-type information terminal 42 reads the delivery company code from the IC card possessed by the delivery company 41 and also reads the carriage car code from the IC plate 25 of the cage car 24 that has returned to the delivery center.
[0038]
The gate type information terminal 42 transfers the read delivery company code and basket car code to the host computer 15 by wireless communication. In the host computer 15, the return of each car 24 is confirmed based on the information transferred from the gate type information terminal 42, and the state is switched from the outgoing state to the incoming state in the management database of each car 24. In addition, a return time, a delivery company code, and the like are input to the management database of each car 24 as necessary.
[0039]
FIG. 7 is a diagram for explaining inspection at each store.
At each store, as shown in FIG. 7, it is necessary to perform inspection work before unloading the goods from the car 24 delivered by the delivery company's truck. In this case, the store clerk 61 of each store uses the portable information terminal 62 having the function of a reader / writer (the communication distance may be as short as 10 cm or less) from the IC plate 25 of each car 24. Read the product details data. Based on the read product description data, the order data written in advance in the information terminal 62 is deleted.
[0040]
As described above, in this embodiment, merchandise distribution for each car is performed, and in addition, receipt / shipment management for each car is performed. Therefore, when only some of the basket cars to be delivered to the same store are shipped, it is possible to reliably answer inquiries regarding the shipment of the remaining basket cars. In addition, because we manage receipts and shipments by car, even if there is an unreturned car, you can check to which store the car is finally delivered and not returned. .
[0041]
Moreover, in this embodiment, after confirming the collation result of a delivery person code | cord | chord and a car car code, and the presence or absence of a shipping permission code, each car is loaded and delivered. Therefore, even when the distribution of the goods to the car is not completed for some reason, the incomplete distribution of the car is not delivered to each delivery destination, thereby preventing the occurrence of so-called incomplete delivery. be able to. Similarly, it is possible to prevent the occurrence of so-called misdelivery without causing the delivery person to make a mistake and loading a car different from the car to be delivered.
[0042]
Further, in the present embodiment, the product description data is written on the IC plate of each car delivered to each store. Accordingly, the product specification data can be read from the IC plate of each car at any time, and the inspection work at each store can be performed smoothly and accurately based on the read product specification data.
Also, in this embodiment, information such as product code, serial number, and car car code is automatically read by the information terminal installed on the cart, which greatly improves workability for incoming inspection, product distribution, shipping, etc. To do.
[0043]
In the above-described embodiment, an IC plate is used as an IC module member attached to each car. However, other appropriate IC module members such as an IC label and an IC tag can be used.
In the above-described embodiment, the delivery company possesses an IC card and reads the delivery company code from the IC card. However, without being limited to the IC card, for example, a bar code or a magnetic tape can also be used.
[0044]
Furthermore, in the above-described embodiment, the cart is used as a carrier for delivery of goods to each store, but the present invention is not limited to this, and a carrier having another form can also be used.
Further, in the above-described embodiment, the present invention is applied to a distribution center that delivers various products including food products to each retail store such as a supermarket and a convenience store. However, the present invention is not limited to this, and the present invention can be applied to general merchandise receipt / shipment management.
[0045]
By the way, in the above-mentioned embodiment, although the IC label is affixed to each product, the meaning of this IC label is not interpreted narrowly, but is a broad concept including a general IC module member that can be attached to each product. is there. Therefore, for example, an aspect in which an IC tag or the like is attached to each product can be implemented within the scope of the present invention.
[0046]
【The invention's effect】
As described above, according to the present invention, a receipt / shipment management system capable of preventing incomplete delivery and incorrect delivery can be realized by performing receipt / shipment management for each car at a delivery center, for example. .
[Brief description of the drawings]
FIG. 1 is a diagram schematically showing a configuration of a delivery center to which a receipt / shipment management system according to an embodiment of the present invention is applied.
FIG. 2 is a diagram for explaining arrival of goods to a distribution center and arrival inspection.
FIG. 3 is a diagram schematically showing a configuration of a cage car placed in each store area of a distribution center.
FIG. 4 is a diagram for explaining distribution of products loaded on a cart to each car.
FIG. 5 is a diagram illustrating shipment of products to each store.
FIG. 6 is a diagram for explaining confirmation of return of the shipped car.
FIG. 7 is a diagram for explaining inspection at each store.
[Explanation of symbols]
1 track
2 Basket car storage
3-5 Various product distribution areas
6 Each store area
11 carts
12 products
13 IC label
14 Information terminal
15 Host computer
24 car
25 IC plate
42 Gate type information terminal

Claims (9)

In a receipt / shipment management system that distributes and ships incoming goods to each delivery destination,
A plurality of delivery carriers to which IC module members are detachably attached and to be delivered to each delivery destination;
A distribution carrier for transferring the product to each delivery carrier in order to distribute the product with the IC label affixed to each delivery carrier;
A host information processing apparatus in which a database of order information by delivery destination, order information by product, and management information by carrier for delivery is formed;
An information terminal for reading and writing information on an IC module member installed on each distribution carrier and attached to each delivery carrier and an IC label affixed to each product;
On the IC module member attached to each delivery carrier, a carrier code including information relating to a delivery destination to which the delivery carrier is to be delivered and information relating to identification of the delivery carrier is written.
On the IC label attached to each product, the product code and serial number of the product are written,
A receipt / shipment management system that performs receipt / shipment management of products for each delivery carrier via an IC module member attached to each delivery carrier and an IC label attached to each product. The receipt / shipment management system according to claim 1, wherein the information terminal has a function of wirelessly communicating with the host information processing apparatus. Prior to distribution of goods to each carrier for delivery, order information for each delivery destination is transferred from the host information processing apparatus to the information terminal,
The information terminal reads a product code from an IC label attached to each product loaded on the distribution carrier, reads a carrier code from an IC module member attached to each delivery carrier, and reads the read product code and carrier Present the quantity to be distributed to each delivery destination based on the code and the order information by delivery destination,
The information terminal counts the quantity of products transferred from the distribution carrier to each delivery carrier, and supplies the product code of the product distributed to the delivery carrier to an IC module member attached to each delivery carrier. The receipt / shipment management system according to claim 1 or 2, wherein the distributed quantity is written. After the final product to be distributed is distributed to each delivery carrier, the information terminal writes a shipping permission code on an IC module member attached to each delivery carrier and is finally loaded on each delivery carrier. 4. The receipt / shipment management system according to claim 3, wherein product description data including information on the type and quantity of the product is transferred to the host information processing apparatus. Prior to inspection of the received product, order information for each product is transferred from the host information processing apparatus to the information terminal,
The information terminal reads a product code and a serial number from an IC label affixed to each product loaded on the distribution carrier, and receives the product based on the read product code and serial number and the order information for each product. The receipt / shipment management system according to any one of claims 1 to 4, wherein the total amount of the merchandise is collated with the total amount of the ordered merchandise. A gate type information terminal for reading information from an IC module member attached to each delivery carrier and an IC card possessed by each delivery person, and transferring the read information to the host information processing apparatus;
The gate type information terminal reads the delivery code from the IC card of the passing delivery person, reads the carrier code from the IC module member attached to each passing delivery carrier, and reads the read delivery person code and carrier code. Transfer to the host information processing device,
The host information processing apparatus collates the carrier code transferred from the gate type information terminal with the carrier code based on the management information for each carrier for delivery, and sends the collation result to the gate type information terminal. The receipt / shipment management system according to any one of claims 1 to 5, wherein the receipt / shipment management system is provided. The receipt / shipment management system according to claim 6, wherein the gate-type information terminal has a function of wirelessly communicating with the host information processing apparatus. The gate type information terminal reads a shipping permission code from an IC module member attached to the delivery carrier in order to confirm completion of distribution to each delivery carrier, and uses the read shipping permission code as the host information processing. 8. The receipt / shipment management system according to claim 6, wherein the receipt / shipment management system is transferred to a device. The gate type information terminal reads a carrier code from an IC module member attached to a delivery carrier returned from a delivery destination, transfers the read carrier code to the host information processing apparatus,
The host information processing apparatus confirms the return of the delivery carrier in response to the carrier code transferred from the gate type information terminal, and inputs the confirmed return information into the management information for each delivery carrier. The receipt / shipment management system according to any one of claims 6 to 8.

Images