JPH05233653A - Delivery management system - Google Patents

Abstract

PURPOSE:To eliminate the useless waiting time of a vehicle, the labor and time for a loading work, the burden of a vehicle driver, etc., in a delivery place, and to realize an exact delivery management. CONSTITUTION:The delivery management system is constituted of a delivery state managing device 1, a shipment managing device 2, an on-vehicle detecting device 3, a ground detecting device 4, a GPS satellite E, etc. In the case a vehicle is running along the outside of a specific area going along a road leading to a delivery place, position information of the vehicle is detected by the on- vehicle detecting device 3 for executing a communication to the GPS satellite E, and in the case the vehicle is running in the specific area, the position information of the vehicle is detected by the ground detecting device 4. The delivery state managing device 1 calculates a delivery place arrival scheduled time or a delivery destination arrival time, etc., of each vehicle, and also, displays a schedule of each vehicle, and the shipment managing device 2 accumulates and displays order of shipment of each vehicle.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a delivery management system, and more particularly to a delivery management system for accurately delivering a vehicle.

[0002]

2. Description of the Related Art Conventionally, at a delivery base of a ready-mixed concrete manufacturing company, for example, it is not possible to predict the exact arrival time of a cargo-handling vehicle (mixer truck) at the delivery base. , Prepare a load (fresh concrete) to be loaded onto the vehicle, or predict the approximate order of arrival of the vehicles based on experience etc. by the worker at the delivery base, and load the load (fresh concrete) for several vehicles. It may be prepared in advance according to the expected arrival order. On the other hand,
The arrival time of the vehicle may be predicted based on wireless communication between the vehicle equipped with the radio and the delivery base.

[0003]

However, the above-mentioned prior art has the following problems. With the method of preparing the load when the vehicle arrives at the delivery base, the vehicle that arrives at the delivery base must wait until the preparation of the load is completed, so there is a problem that dead time occurs before departure. Occurs. In addition, in the method in which the worker predicts the approximate arrival order of the vehicles, when multiple vehicles return to the delivery base in a short time, the vehicles can wait in order, which causes dead time. Alternatively, if the vehicles do not arrive at the delivery base in the expected order of arrival, it is necessary to rearrange the loads that are arranged in advance in the order of expected arrival in the order of actual arrival, resulting in a waste of time. .. Further, in the method of wirelessly communicating between the vehicle and the delivery base, the vehicle driver needs to perform both driving and wireless communication, so that there is a problem that the driver cannot concentrate on driving and the risk increases.

The present invention is intended to solve the above-mentioned problems, and is to useless waiting time of vehicles at the delivery base, labor of loading work,
The purpose is to provide a delivery management system that eliminates the burden on the vehicle driver and realizes accurate delivery management.

[0005]

In order to achieve the above object, the present invention provides a delivery management system for managing delivery of vehicles used for cargo handling between a delivery base and a delivery destination. Based on the vehicle position information detecting means for detecting the position information of the vehicle traveling on the road between, and the current position information of the vehicle and the position information before the current detected by the vehicle position information detecting means, the average of the vehicle Calculate the speed, based on the current position information of the vehicle and the position information of the delivery base or the delivery destination, calculate the remaining distance to the delivery base or the delivery destination of the vehicle, based on the average speed and the remaining distance, A time calculating means for calculating an estimated arrival time of the vehicle to the delivery base or the delivery destination, and a guide means for guiding the estimated arrival time of the vehicle to the delivery base or the delivery destination calculated by the time calculating means. Characterized in that it.

[0006]

According to the present invention, the vehicle position information detecting means appropriately detects the position information of the vehicle traveling on the road. The time calculating means calculates an average speed of the vehicle based on the current position information of the vehicle heading to the delivery base or the delivery destination detected by the vehicle position information detecting means and the position information of the vehicle before the current time, and calculates the average speed of the vehicle. The remaining distance to the vehicle's delivery base or destination is calculated based on the current position information and the position information of the delivery base or destination, and the vehicle's delivery base or destination is calculated based on the average speed and the remaining distance. Calculate the estimated time of arrival at. The guide means guides the estimated arrival time calculated by the time calculation means. As a result, it is possible to accurately grasp the estimated arrival time of the vehicle at the delivery base or the delivery destination, so that it is possible to prepare the load to be loaded on the vehicle in advance at the delivery base, and The work efficiency can be improved. Further, since the average speed of the vehicle and the remaining distance to the delivery base or the delivery destination can be accurately grasped, the operation management of the vehicle can be conducted accurately.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment in which the present invention is applied to delivery management at a delivery base (delivery station) of a ready-mixed concrete manufacturing company will be described below with reference to the drawings. FIG. 1 is a diagram of a delivery management system according to the present embodiment. The delivery management system includes a delivery status management device 1 that performs delivery management, a shipment management device 2 that performs shipment management,
It is roughly composed of an on-vehicle detection device 3 that detects vehicle position information and a ground (fixed type) detection device 4 that detects vehicle position information. In this case, as shown in FIG. 2, the delivery status management device 1 and the shipping management device 2 are installed in the delivery base K of the ready-mixed concrete manufacturing company, and the in-vehicle detection device 3 is installed in the delivery vehicle S. Further, the ground detection device 4 is installed in a specific area T along the road D leading to the delivery base K.

The configuration of the delivery management system of this embodiment will be described in detail. The delivery status management device 1 installed at the delivery base.
Is a control device 5 for controlling each unit, an input unit (keyboard) 6 for inputting various information regarding delivery management, a storage unit 7 for storing various information regarding delivery management, an output unit for displaying various information regarding delivery management ( display)
8. The transmitting / receiving vehicle-mounted detecting device 3 and the ground detecting device 4 are composed of transmitting / receiving means 9 for transmitting / receiving vehicle position information and the like.

In this case, as shown in FIG. 3, in the storage means 7 of the delivery status management device 1, vehicle identification information such as a vehicle number and the delivery destination (destination) indicating the location of the delivery destination (destination) are shown for each vehicle. Location information, delivery destination (destination) arrival planned time that indicates the planned arrival time to the delivery destination (destination), delivery destination arrival planned time that indicates the arrival planned time to the delivery point, delivery destination that indicates the estimated arrival time to the delivery destination Various types of information such as estimated time of arrival, estimated time of arrival at the delivery point that indicates the estimated time of arrival at the delivery point, extension information that indicates whether or not the vehicle has arrived, and forward / return information that indicates whether the vehicle is traveling on a forward or return route. A delivery vehicle file that stores information for each vehicle is stored. Further, the input means 6 is for inputting vehicle identification information, delivery destination, delivery destination arrival time, etc., and the shipping limit time etc. are determined based on the input data from the input means 6. Also, the output means 8
As shown in FIG. 4, a loading schedule showing the loading order at the time of shipping at the delivery base for each vehicle is displayed on the screen.

The shipping management device 2 installed at the delivery base is connected to the control device 5 of the delivery status management device 1 and ships each vehicle based on the information transferred from the delivery status management device 1. While performing management, the vehicle identification information of each vehicle, the delivery destination (destination) position information, the delivery destination (destination) arrival planned time, and the delivery place arrival planned time (see FIG. 3) are sent to the delivery status management device 1. Is becoming In this case, as shown in FIG. 5, the display section of the shipping management device 2 displays the order of shipment at the delivery base (delivery place) for each vehicle.

Further, the vehicle-mounted detection device 3 mounted on each vehicle calculates a transmission / reception means 10 for transmitting / receiving vehicle position information and the like to / from the delivery status management device 1, and a current position (position information) of the vehicle. Position information calculation means 11, GPS receiver 12 for receiving radio waves from GPS satellite E, ground detection device 4
The vehicle identification information transmission device 13 transmits the vehicle identification information to the vehicle, and detects the position information of the vehicle equipped with the vehicle-mounted detection device 3 based on the radio waves from the GPS satellite E.

The ground detection device 4 installed in a specific area along the road leading to the delivery base (delivery point) transmits / receives vehicle position information and the like to / from the delivery status management device 1. The vehicle identification information receiving device 15 receives the vehicle identification information transmitted from the vehicle-mounted detection device 3, and detects a vehicle passing through a specific area along the road leading to the delivery base. in this case,
When the vehicle is traveling outside the specific area along the road leading to the delivery base, vehicle position information is detected based on communication with GPS satellites, while when the vehicle is traveling within the specific area,
The vehicle position information detected by the ground detection device 4 is prioritized. The ground detection device 4 closest to the delivery base detects the fixed position information of the vehicle closest to the delivery base, and the ground detection device 4 farthest from the delivery base is the farthest from the delivery base. It detects the fixed position information of the vehicle.

Next, each processing relating to delivery management of each vehicle by the delivery management system of the present embodiment configured as described above will be described.

<Processing Related to In-Vehicle Detection Device> (FIG. 6) The in-vehicle detection device 3 mounted on a vehicle running to a delivery base (delivery point) or a delivery destination arrives at the delivery destination or the delivery destination of the vehicle. It is determined whether or not the vehicle position detection time for estimating the time (for example, a sampling time of a predetermined interval such as 5 minutes) has been reached (step SA1), and when the sampling time has been reached, the radio wave from the GPS satellite is detected. Based on this, the current position of the vehicle is detected (step SA2). The vehicle-mounted detection device 3 determines whether or not the detected current position of the vehicle is within a specific area along the road leading to the delivery base (step SA3). If the vehicle is within the specific area, position information calculation is performed. Vehicle position information calculated by the means 11 (information A (a1, a2) including vehicle identification information a1 and position information a2)
Is transmitted from the transmitting / receiving means 10 to the transmitting / receiving means 9 of the delivery status management device 1 (step SA4). Then, the vehicle-mounted detection device 3 determines whether or not a response indicating that the vehicle information has been received is received from the delivery status management device 1 (step SA
5) If no response is received, the process of step SA4 is performed, while if a response is received, the process returns to the standby state of step SA1.

<Processing Related to Ground Detection Device> (FIG. 7) Is the ground detection device 4 installed in a specific area along the road leading to the delivery base (delivery point) a vehicle passing through the specific area? It is determined whether or not there is a passing vehicle (step SB1), and if there is a passing vehicle, vehicle position information (information A (a1, a2) including vehicle identification information a1 and position information a2) is sent from the transmission / reception means 14 to the delivery status management device 1 To the transmitting / receiving means 9 (step SB2). After this, the ground detection device 4
It is determined whether or not a response indicating that the vehicle information is received is received from the delivery status management device 1 (step SB3). If the response is not received, the process of step SB2 is performed, while if the response is received, the step is performed. Return to the standby state of SB1.

<Processing Related to Delivery Status Management Device> (FIG. 8,
(FIGS. 9 and 10) The delivery status management device 1 installed at the delivery base (delivery point) receives the vehicle position information (vehicle identification information a1 and position information a2 from the vehicle-mounted detection device 3 or the ground detection device 4). It is determined whether (a1, a2)) has been received (step SC1). When the delivery status management device 1 does not receive the vehicle position information, the delivery vehicle information (vehicle identification information, delivery destination position information, delivery destination arrival planned time, It is determined whether or not the delivery place arrival planned time) is received from the shipping management device 2 (step SC2). If the shipping vehicle information is not received, the shipping vehicle information is directly returned to the standby state of step SC1. If received, the shipping vehicle information is stored in the delivery vehicle file (see FIG. 3) corresponding to the vehicle (step SC3), and then the process returns to the standby state of step SC1.

On the other hand, the delivery status management device 1 performs step S
When the vehicle position information is received in C1, after the response indicating that the vehicle position information has been received is transmitted to the destination of the vehicle position information (the in-vehicle detection device 3 or the ground detection device 4) (step SC4), the position information received this time is It is determined whether or not the delivery destination position information indicates the position of the delivery destination, that is, whether or not the vehicle has arrived at the delivery destination (step SC5). The delivery status management device 1
If the position information this time is the delivery destination position information, it is determined whether or not the'outward path 'is set as the traveling route of the vehicle in the delivery vehicle file (see FIG. 3) corresponding to the vehicle (step SC6), If the "outgoing path" is not set, the process directly returns to the standby state of step SC1, while if the "outgoing path" is set, after changing the setting of the "outgoing path" to the "return path" (step SC7), the step Return to the standby state of SC1.

On the other hand, the delivery status management device 1 executes step S
If the current location information is not the delivery destination location information in the determination of C5, the delivery vehicle file corresponding to the vehicle (see FIG. 3)
It is determined whether or not the "outward route" is set as the traveling route of the vehicle (step SC8). If the "outward route" is not set, the process directly proceeds to the determination in step SC16, while the "outward route" is set. If set, the average speed of the vehicle is calculated based on the current position information and the previous position information of the vehicle (step SC9). Further, the delivery status management device 1 calculates the remaining distance to the delivery destination of the vehicle based on the current position information and the delivery destination position information of the vehicle (step SC10), and based on the remaining distance and the average speed. The estimated arrival time of the vehicle at the delivery destination is calculated (step SC11), and based on the road information database,
The estimated arrival time of the delivery destination (destination) of the vehicle is corrected (step SC12). Further, the delivery status management device 1 calculates the delay time of the vehicle based on the corrected estimated delivery destination arrival time and the estimated delivery destination arrival time (step SC1).
3), add this delay time to the delivery schedule arrival time,
The estimated arrival time of the vehicle to the delivery point is calculated (step SC14), and the estimated delivery destination arrival time and the estimated delivery point arrival time of the delivery vehicle file corresponding to the vehicle are stored and updated (step SC15). Then, the process proceeds to step SC29.

The delivery status management device 1 is installed in a specific area along the road leading to the delivery base (delivery point) when the outward route is not set as the traveling route of the vehicle in the determination of step SC8. It is determined whether or not the ground detection device 4 is detecting a vehicle traveling in the specific area, that is, whether or not fixed position information of the vehicle is detected (step SC
16). When the ground detection device 4 has not detected the fixed position information, the delivery status management device 1 calculates the average speed of the vehicle based on the current position information and the previous position information of the vehicle (step SC17), The remaining distance to the delivery point of the vehicle is calculated based on the current position information of the vehicle and the delivery point position information (step SC18), and the arrival schedule of the vehicle to the delivery point is calculated based on the remaining distance and the average speed. The time is calculated (step SC19), the estimated arrival time of the vehicle to the delivery point is corrected based on the road information database (step SC20), and the estimated delivery time of the delivery vehicle file corresponding to the vehicle is stored. Update (step SC21). Then, the process proceeds to step SC29.

On the other hand, the delivery status management device 1 executes step S
When the fixed position information of the vehicle is detected in the determination of C16, it is determined whether the ground detection device 4 closest to the delivery point has detected the earliest fixed position information of the vehicle (step S
C22). When the ground detection device 4 does not detect the earliest fixed position information, the delivery status management device 1 calculates the estimated arrival time of the vehicle at the delivery point based on the fixed position information (step SC23), Based on the number of passing vehicles corresponding to the fixed position information, the estimated arrival time of the vehicle at the delivery point is corrected (step SC24), and the estimated delivery point arrival time of the delivery vehicle file corresponding to the vehicle is stored and updated. (Step SC25), the number of passing vehicles corresponding to the fixed position information is incremented (step SC2).
6). Then, the process proceeds to step SC29.

On the other hand, the delivery status management device 1 performs step S
When the earliest fixed position information is detected in the determination of C22, it is determined that the vehicle is a vehicle that can be shipped, the vehicle information is transferred to the shipping management device 2 (step SC27), and the vehicle is placed farthest from the delivery point. The number of passing vehicles corresponding to the rearmost fixed position information detected by the installed ground detecting device 4 is decremented (step SC28). After this, the process returns to the standby state of step SC1.

The delivery status management device 1 executes step SC15.
Alternatively, after step SC21 or step SC26 is finished, the estimated arrival time at the delivery point of the vehicle and the planned delivery point arrival time are compared (step SC29), and it is determined whether or not there is a difference of a predetermined time or more between the two times (step SC29). Step SC3
0). If there is a difference of a predetermined time or more between the two times, the delivery status management device 1 stores the fact that the vehicle will be delayed in the vehicle delivery file corresponding to the vehicle (step SC3
1) Return to the standby state of step SC1. On the other hand, when there is no difference of the predetermined time or more between the two times, the delivery status management device 1 determines whether or not the delay is already stored in the vehicle delivery file corresponding to the vehicle (step SC3).
2) If the delayed arrival is not stored, the process directly returns to the standby state of step SC1, while if the delayed arrival is stored, the delayed delivery stored in the vehicle delivery file corresponding to the vehicle is executed. After resetting the effect (Step SC
33), and returns to the standby state of step SC1.

That is, according to the above-described embodiment, it is possible to accurately grasp the estimated arrival time of the vehicle to the delivery base (delivery point) or the delivery destination, so that the load to be loaded onto the vehicle at the delivery base in advance. Therefore, it is possible to improve the work efficiency of delivery. Further, since the average speed of the vehicle and the remaining distance to the delivery base or the delivery destination can be accurately grasped, the operation management of the vehicle can be conducted accurately. Due to this, as in the conventional case, when the load is prepared when the vehicle arrives at the delivery base, there is a problem that a waiting time occurs before departure, or when the worker predicts the approximate arrival order of the vehicle As in the case of waiting time due to waiting for vehicles, wasteful trouble of rearranging loads when the expected arrival order is out of order, and wireless communication between vehicles and delivery bases As described above, it is possible to solve the problem that the vehicle driver cannot concentrate on driving.

In the above-mentioned embodiment, an example in which the present invention is applied to the delivery management between the delivery base and the delivery destination of the ready-mixed concrete manufacturing company is given. For example, oil handling between the oil tank station and the gas station It is also possible to apply to other delivery management, such as delivery management related to.

[0025]

As described above, according to the present invention, the following effects can be obtained. Since the estimated arrival time of the vehicle to the delivery base or destination can be accurately grasped, it is possible to prepare the load to be loaded on the vehicle in advance at the delivery base, and to improve the work efficiency related to delivery. Can be improved. Also,
Since the average speed of the vehicle and the remaining distance to the delivery base or the delivery destination can be accurately grasped, the operation management of the vehicle can be conducted accurately. Due to the above, as in the conventional case, when the load is prepared when the vehicle arrives at the delivery base, there is a problem that a waiting time occurs before departure, or when the worker predicts the approximate arrival order of the vehicle As in the case of waiting time due to waiting of vehicles, wasteful rearrangement of loads when the expected arrival order is out of order, and wireless communication between vehicles and delivery bases. It is possible to solve the problem that the driver cannot concentrate on driving.

[Brief description of drawings]

FIG. 1 is a block diagram of a delivery management system according to an embodiment of the present invention.

FIG. 2 is a plan view showing the positional relationship between the delivery base, the vehicle-mounted detection device, and the ground detection device of this embodiment.

FIG. 3 is a conceptual diagram of various kinds of stored information according to the present embodiment.

FIG. 4 is a diagram showing a display example of a loading schedule of the present embodiment.

FIG. 5 is a diagram showing a display example of a shipping order according to the present embodiment.

FIG. 6 is a flowchart of a process related to the vehicle-mounted detection device according to the present embodiment.

FIG. 7 is a flowchart of a process related to the ground detection device according to the present embodiment.

FIG. 8 is a flowchart of a process according to the delivery status management device of this embodiment.

FIG. 9 is a flowchart of a process according to the delivery status management device of this embodiment.

FIG. 10 is a flowchart of a process according to the delivery status management device of this embodiment.

[Explanation of symbols]

 1 Delivery status management device (time calculation means, guide means) 2 Shipping management device 3 In-vehicle detection device (vehicle position information detection means) 4 Ground detection device (vehicle position information detection means)

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hiroshi Yamada 1-3-6 Fujimi, Kawasaki-ku, Kawasaki-shi, Kanagawa Tokiko Co., Ltd. (72) Koita Sugimoto 1-6-3 Fujimi, Kawasaki-ku, Kanagawa Issue Tokiko Co., Ltd.

Claims (1)

[Claims] 1. A delivery management system for managing delivery of vehicles used for cargo handling between a delivery base and a delivery destination, the vehicle detecting position information of a vehicle traveling on a road between the delivery base and the delivery destination. An average speed of the vehicle is calculated based on the position information detecting means, the current position information of the vehicle detected by the vehicle position information detecting means and the position information before the current time, and the current position information of the vehicle and the delivery base or Based on the location information of the delivery destination, the remaining distance to the delivery base of the vehicle or the delivery destination is calculated, and the estimated arrival time of the vehicle to the delivery base or the delivery destination is calculated based on the average speed and the remaining distance. A delivery management system comprising: a time calculation means; and a guide means for guiding the estimated arrival time of the vehicle to the delivery base or destination calculated by the time calculation means.