JP2004277020A - Cargo loading/unloading work instruction system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To continue carrying-in/out of warehouse work without correcting data by a host computer even when a forklift causes failure or abnormality and take in failure situation of the forklift from a fork terminal unit by the host computer to increase efficiency of forklift restoration work. <P>SOLUTION: The fork terminal unit 40 of the forklifts 20, 30 receives instruction data of work contents from the host computer 1 and displays the received instruction data of work contents. Work is performed in accordance with instruction of the display of the fork terminal unit 40. When the forklifts 20, 30 cause failure or abnormality, instruction data of work contents which are not yet handled is directly transferred to fork terminal unit 40 of another forklifts 20, 30. Another forklifts 20, 30 receiving the instruction data perform the work which is not yet handled. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a cargo handling instruction system for issuing a cargo handling instruction to a plurality of forklifts using a wireless LAN (Local Area Network).
[0002]
[Prior art]
For example, in an automatic warehouse, a cargo handling instruction is transmitted to a plurality of forklifts using a wireless LAN, and each forklift performs a loading / unloading operation based on the contents of the received cargo handling work. Instruction systems have been provided conventionally. This cargo handling work instruction system is provided in one host computer installed in the management room and each manned forklift, receives work contents from the host computers, and displays the work contents on a screen, Further, it is configured with a fork terminal as a terminal device for transmitting work results and the like.
[0003]
In this conventional cargo handling instruction system, when cargo handling data is input from a host computer to a fork terminal via a wireless device, the data is displayed on a display screen equipped on each fork terminal, and the display screen is displayed. Each operator performs each cargo handling operation on the basis of the cargo handling work data displayed in.
[0004]
When a plurality of forklifts are each performing a cargo handling operation based on the cargo handling data, one of the forklifts becomes unable to travel due to a failure or an abnormality, and there is a delay in the cargo handling operation. If this occurs, unprocessed instruction data is transferred to the host computer to request assistance from another forklift. Then, the host computer to which the unprocessed instruction data has been transferred transmits the transferred data to another forklift, and the operator of the forklift that has newly received the cargo handling data from the host computer has a failure or abnormality. Instead of a forklift, a cargo handling operation based on unprocessed instruction data is performed (for example, see Patent Document 1).
[0005]
[Patent Document 1]
JP-A-5-28174 (paragraph numbers "0043", "0045" and "0047")
[0006]
[Problems to be solved by the invention]
In such a conventional example, the host computer receives the unprocessed instruction data of the forklift in which the failure or abnormality has occurred and corrects the data in the host computer in order to transfer the received instruction data to another forklift. Become. In addition, when another operation is performed by the host computer, the operation waits, and the waiting time of the operator of the forklift is generated, so that the efficiency of the cargo handling operation is deteriorated.
[0007]
In the automatic warehouse, different types of forklifts are arranged according to the purpose of cargo handling work.For example, picking forklifts for picking work where the cab can move up and down together with forks, and only forks can be lifted and lowered It is a general pallet forklift for transferring pallets. Each of these picking forklifts and pallet forklifts is also equipped with a fork terminal, and the instruction data of the work contents for picking out and picking up from the host computer is transmitted from the fork terminal of the picking forklift and the fork terminal of the pallet forklift. Are transmitted and the work content is displayed on the screen of each fork terminal, and the operator carries out loading / unloading operations such as picking and unloading and pallet unloading according to the displayed work content.
[0008]
In this way, the picking forklift operator performs the picking operation, and the pallet forklift operator performs the pallet transfer operation.However, when performing the picking operation with the picking forklift, the picking operation on the high shelf and the quantity of the load are limited. In the case of a large picking operation, a heavy picking operation, or the like, a pallet forklift may be more efficient than a picking forklift. In addition, even when operating a pallet forklift, picking on low shelves, when the quantity of load is small, or when the load is light, which is the reverse of the previous case, the picking forklift is more efficient May be better.
[0009]
The present invention has been made in view of the above problems, and has as its object to provide a cargo handling instruction system for at least the following matters.
(1) Even if the forklift breaks down or is abnormal, it should be possible to continue loading and unloading work without correcting data on the host computer.
(2) The host computer captures the forklift failure status from the fork terminal and increases the efficiency of forklift recovery work.
(3) The use of picking forklifts and pallet forklifts can be easily changed in accordance with the situation of the work contents, thereby improving the efficiency of loading and unloading work.
[0010]
[Means for Solving the Problems]
Therefore, in the cargo handling work instruction system according to the first aspect of the present invention, a host computer to which input and output work contents are input and set, and the work content instruction data are wirelessly transmitted from the host computer, and each of them is individually And a forklift that receives the instruction data of the work content at the fork terminal and performs the cargo work in accordance with the instruction data, wherein the fork terminal transmits and receives the instruction data of the work content. Means, storage means for storing the instruction data of the work content, and display means for displaying the instruction data of the work content, the instruction data of the work content from a fork terminal of one forklift to a fork terminal of another forklift. It is characterized in that it can be directly transferred.
[0011]
With such a configuration, when requesting cargo handling work to another forklift, instead of transferring to the host computer once and transferring from the host computer to the fork terminal of another forklift, the fork terminal of another forklift is Since the instruction data of the work content is directly transferred, the cargo handling work can be continued without wasting time, and the efficiency of the cargo handling work can be improved.
[0012]
In the cargo handling instruction system according to claim 2, the fork terminal includes a transfer unit configured to transfer instruction data of unprocessed work contents to a fork terminal of another forklift when the forklift has a failure or abnormality. It is characterized by having.
[0013]
With such a configuration, when a forklift breaks down or an abnormality occurs, when requesting another forklift for cargo handling work, the forklift is once transferred to the host computer, data is corrected from the host computer, and then another forklift is used. Instead of transferring to the fork terminal, the instruction data of the unprocessed work content is transferred directly to the fork terminal of another forklift, so that time is not wasted and the cargo handling work can be continued, and the efficiency of the cargo handling work Can be improved.
[0014]
The cargo handling instruction system according to the third aspect is characterized in that failure information is transferred from a fork terminal of a forklift in which a failure or abnormality has occurred to a host computer.
[0015]
By adopting such a configuration, the operator of the host computer can notify the maintenance unit of the communication and improve the efficiency of the forklift recovery operation.
[0016]
In the cargo handling operation instruction system according to claim 4, the fork terminal is provided with a fork terminal of a pallet forklift or a fork terminal of a picking forklift that is different from its own model according to whether the operation is a picking operation or a pallet operation. It is characterized by comprising a transfer means for transferring the instruction data.
[0017]
With this configuration, at the time of picking work at a high place, by transferring the instruction data of the work content from the fork terminal of the picking forklift to the fork terminal of the pallet forklift, and performing the work with the pallet forklift, The fear of the operator of the picking forklift is eliminated, and the transfer to a different type of forklift (pallet forklift) depending on the weight of the load and the number of pickings reduces the loading and unloading work, and consequently the efficiency of the loading and unloading work. Can be improved. Further, a forklift (a picking forklift or a pallet forklift) can be selected according to the work content at the discretion of the operator, and the work efficiency can be further improved.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a cargo handling instruction system for issuing a cargo handling instruction to a plurality of forklifts using, for example, a wireless LAN (Local Area Network) in an automatic warehouse. A host computer 1 is arranged in an office or a management room, and a signal transmission cable 2 connected to the host computer 1 is wired under the ceiling. A plurality of wireless repeaters 4 each having an antenna 3 are provided in the middle of the cable 2.
[0019]
In the automatic warehouse, a cargo shelf building 6 in which shelves 5 are stacked in a horizontal direction and a vertical direction is constructed, and loading and unloading of cargo is performed to and from these cargo shelf buildings 6 by a forklift. In this example, the forklift has a configuration in which a picking forklift 20 and a pallet forklift 30 are arranged. Each of the plurality of picking forklifts 20 and pallet forklifts 30 is provided with a fork terminal 40 for exchanging data with the host computer 1 via the wireless repeater 4. The fork terminals 40 provided on the picking forklift 20 and the pallet forklift 30 have the same configuration.
[0020]
FIG. 2 is a block diagram of the host computer 1. The input unit 11 includes a keyboard and a mouse, the output unit 12 includes a printer, the display unit 13 includes a display screen, and a RAM that stores instruction data and programs for work contents. And a storage unit 14 comprising a ROM and a ROM, a control unit 15 comprising a CPU for controlling the entire host computer 1, and modulating or demodulating data between the control unit 15 and transmitting a signal to / from a fork terminal 40. And a wireless modem 16 for transmitting and receiving.
[0021]
FIG. 3 is a block diagram of the fork terminal 40. The fork terminal 40 includes a display unit 41 that is a display screen, an input unit 44 such as a scanner that reads various data from a barcode such as a tag attached to a load or a pallet, and a work transmitted from the host computer 1. A storage unit 42 composed of a RAM or a ROM for storing instruction data of contents or data fetched from the input unit 44, a program, a control unit 43 composed of a CPU for controlling the whole of the fork terminal 40; A wireless modem 45 modulates or demodulates data with the host computer 1 to transmit / receive a transmission signal to / from the host computer 1, and an antenna 46 transmits / receives a radio wave.
[0022]
Basically, the contents of the cargo handling work are input to the host computer 1, and the instruction data of the work contents are transmitted from the host computer 1 via the cable 2 and the wireless repeater 4 to the fork terminal 40 of the forklift 20 for picking, the pallet Is transmitted to the fork terminal 40 of the forklift 30 for use. The display 41 of the fork terminal 40 of each of the forklifts 20 and 30 displays the content of each operation, and the operator performs the cargo handling operation according to the display.
[0023]
FIG. 4 shows a display unit 41 of the fork terminal 40, and a loading / unloading work content display unit 50 for displaying the above-described work content is provided at the center of the screen. Below, an abnormal transfer button 51 for transferring data of the work contents to the fork terminal 40 of the other forklifts 20, 30 when the forklifts 20, 30 are abnormal, a pallet operation from the picking operation, or a picking operation from the pallet operation. And a change-time transfer button 52 for transferring the work content data to the pallet forklift 30 or the picking forklift 20. In addition, a call display unit 54 is provided to call attention when instruction data of the work content is received from another fork terminal 40. Further, when data is transferred from another fork terminal 40, a display switching button 53 is provided for switching the work content from the current work content to the entry / exit work content display section 50 for display. Note that these buttons 51 to 53 are touch switches displayed on the display screen, but may be provided separately. Further, the display switching button 53 and the call display unit 54 need not be particularly provided.
[0024]
Next, a control operation in the case where any one of the forklifts 20, 30 has a failure or an abnormality during the loading / unloading operation will be described with reference to the flowcharts of FIGS. First, as shown in step S1 of FIG. 5, the operator sets the contents of the loading and unloading work for each of the forklifts 20 and 30 on the host computer 1. This is input by the operator from the input unit 11, and the data of the work content of each of the forklifts 20 and 30 is stored in the storage unit 14 by the control unit 15. Next, as shown in step S2, the instruction data of the work content is transmitted from the host computer 1 to the fork terminals 40 of the forklifts 20 and 30 via the wireless modem 16, the cable 2 and the wireless repeater 4 of the host computer 1. .
[0025]
The fork terminals 40 of each of the forklifts 20 and 30 are received via the wireless modem 45, the instruction data of the operation content is stored in the storage unit 42, and the operation content is stored in and out of the display unit 41 of the fork terminal 40. The content is displayed on the content display section 50. Then, the operator of each of the forklifts 20, 30 starts the operation according to the instruction displayed on the display unit 41 of the fork terminal 40 (see step S3). During this work, if the forklifts 20, 30 fail or become abnormal for some reason, the process proceeds from step S4 to step S6. If no failure or abnormality occurs, normal entry / exit work is continuously performed as shown in step S5.
[0026]
When a failure or abnormality occurs in the forklifts 20, 30, the operator presses the abnormality transfer button 51 of the fork terminal 40 as shown in step S6. When the abnormal transfer button 51 is pressed, a signal is input to the control unit 43, the instruction data of the unprocessed work content is fetched from the storage unit 42, and the unprocessed instruction data is stored in the wireless modem 45. Is transferred directly to the fork terminal 40 of another forklift 20, 30 without the intervention of the host computer 1 by the control unit 43 (see step S7). At the same time, the data of the unprocessed work contents and the failure information are transferred to the host computer 1 via the wireless repeater 4. As a result, the host computer 1 recognizes that one of the forklifts 20, 30 has failed and cannot travel.
[0027]
Next, in step S8 shown in FIG. 6, the operator of another forklift 20, 30 that has received the instruction data of the unprocessed work content from the failed forklift 20, 30 performs loading / unloading of the cargo in accordance with the received instruction data. Do the work. Here, when another fork terminal 40 receives unprocessed instruction data from the fork terminal 40 of the failed forklift 20, 30 as shown in FIG. Is displayed, "there is a transfer from another fork terminal", and the operator can recognize that it is necessary to perform the work of the failed forklifts 20 and 30 in addition to the contents of his / her own work. Further, by pressing the display switching button 53, the display of the transferred work content can be switched from the display of the current work content.
[0028]
Further, as shown in step S9 in FIG. 6, since the failure information is also transmitted to the host computer 1, the operator of the host computer 1 contacts the maintenance unit by PHS, wireless communication, etc., and requests repair.
[0029]
As described above, in the present embodiment, when the forklifts 20 and 30 have a failure or abnormality, the unworked data is not transferred to the host computer 1 but is transferred to another working forklift 20 or 30. Thus, it is possible to process the work of the forklifts 20 and 30 in which a failure has occurred in the transferred forklifts 20 and 30. Thereby, even if the forklifts 20 and 30 break down, the loading / unloading operation can be continued without performing data processing in the host computer 1.
[0030]
In addition, since the failure information of the forklifts 20 and 30 is transmitted to the host computer 1 at the same time, the operator of the host computer 1 can contact the maintenance unit to improve the efficiency of the recovery work of the forklifts 20 and 30. When the failure information is received by the host computer 1, the host computer 1 itself or the operator may issue an alarm indicating that the failure has occurred.
[0031]
Next, when the work displayed on the fork terminal 40 of the picking forklift 20 is performed, and the work with the picking forklift 20 currently in use is difficult, the pallet forklift 30 of a different model is determined by the operator. The control operation when the instruction data of the work content is transferred to the server will be described with reference to the flowcharts of FIGS.
[0032]
First, as shown in step S11 of FIG. 7, the contents of the unloading operation to the picking forklift 20 and the pallet forklift 30 are set by the host computer 1, and the fork of the picking forklift 20 and the pallet forklift 30 is set by the host computer 1. The contents of the picking operation and the contents of the pallet operation are transmitted to the terminal 40 (see step S12). The display 41 of the fork terminal 40 of the picking forklift 20 displays the received picking work content. The operator of the picking forklift 20 moves to the displayed (instructed) shelf 5 as shown in step S13. The picking forklift 20 is moved.
[0033]
Next, in step S14, the operator of the picking forklift 20 determines whether the picking operation is difficult. For example, based on whether picking work is performed at a high place, whether the load is large, whether the load is heavy, etc. If it is determined that leaving the warehouse is more efficient in leaving the warehouse, the process proceeds to step S18 shown in FIG. In step S18, the operator presses the change transfer button 52 of the fork terminal 40 of the picking forklift 20 so that the instruction data of the work content is transmitted to the fork terminal 40 of the pallet forklift 30 of a different model via the host computer 1. Forwarded directly.
[0034]
The operator of the pallet forklift 30 displays the transferred picking instruction data on the display unit 41 of the fork terminal 40 and moves the pallet forklift 30 to the displayed shelf 5 as shown in step S19. . Next, as shown in step S20, the designated pallet on the shelf 5 is unloaded from the pallet forklift 30, and the pallet is conveyed to a predetermined designated location to complete the operation. This operation may be performed before, during, or after the operation transmitted from the host computer 1. After this operation is completed, the operator of the pallet forklift 30 waits for the next operation instruction from the host computer 1 as shown in step S21.
[0035]
If the operator of the picking forklift 20 determines in step S14 of FIG. 7 that the picking operation is not difficult, the process proceeds to step S15, and the picking operation is performed by the picking forklift 20 as it is. Then, when the picking operation is completed by the picking forklift 20 (see step S16), the process proceeds to step S17 shown in FIG. 8, and waits for the next operation instruction from the host computer 1; If there is a work instruction, the process returns to step S13 shown in FIG. 7, and the same work procedure as described above is repeated.
[0036]
In the above description, the instruction data of the work content is directly transferred from the fork terminal 40 of the picking forklift 20 to the fork terminal 40 of the pallet forklift 30. However, the picking forklift 20 temporarily transfers the instruction data to the host computer 1. Then, the instruction data of the work content may be transmitted from the host computer 1 to the fork terminal 40 of the pallet forklift 30. However, once the data is transferred to the host computer 1, there is a waste of time, and when another operation is being performed on the host computer 1, work is to be waited. Therefore, it is preferable that the instruction data of the work content be directly transferred from the picking forklift 20 to the pallet forklift 30 without going through the host computer 1.
[0037]
Also, the case of transferring from the picking forklift 20 to the pallet forklift 30 has been described. However, when the pallet forklift 30 is operated and operated, when the position of the load is low, light and the quantity is small, Contrary to the above, when the instruction data of the work content is transferred from the fork terminal 40 of the pallet forklift 30 to the fork terminal 40 of the picking forklift 20, and the picking forklift 20 performs the loading / unloading operation, the same as above. is there.
[0038]
As described above, in the present embodiment, at the time of picking work at a high place, the instruction data of the work content is transferred from the fork terminal 40 of the picking forklift 20 to the fork terminal 40 of the pallet forklift 30, and the work is performed by the pallet forklift 30. Is performed, the fear of the operator of the picking forklift 20 is eliminated, and the transfer to a different type of forklift (the pallet forklift 30) depending on the weight of the load and the number of pickings reduces the loading / unloading work, and as a result, Thus, it is possible to improve the efficiency of the loading and unloading work. In addition, a forklift (forklift 20 for picking or forklift 30 for pallets) can be selected according to the work contents at the discretion of the operator, and the work efficiency can be further improved.
[0039]
【The invention's effect】
According to the cargo handling instruction system according to claim 1 of the present invention, when a cargo handling work is requested to another forklift, it is transferred to the host computer once, and then transferred from the host computer to the fork terminal of another forklift. In addition, since the instruction data of the work content is directly transferred to the fork terminal of another forklift, it is possible to continue the cargo handling work without wasting time, and to improve the efficiency of the cargo handling work.
[0040]
According to the cargo handling work instruction system according to the second aspect, when a forklift breaks down or an abnormality occurs and another forklift is requested to carry out cargo handling, the data is temporarily transferred to the host computer and the data is corrected from the host computer. Is not transferred to the fork terminal of another forklift, but the instruction data of the unprocessed work content is directly transferred to the fork terminal of another forklift. And the efficiency of cargo handling work can be improved.
[0041]
According to the cargo handling instruction system according to the third aspect, the failure information is transferred from the forklift of the forklift in which the failure or abnormality has occurred to the host computer, so that the operator of the host computer notifies the maintenance unit. And the efficiency of the forklift recovery operation can be improved.
[0042]
According to the cargo handling instruction system according to the fourth aspect, at the time of picking work at a high place, the instruction data of the work content is transferred from the fork terminal of the picking forklift to the fork terminal of the pallet forklift, and the picking operation is performed by the pallet forklift. By performing the operation, the fear of the operator of the picking forklift is eliminated, and by transferring the load to a different type of forklift (pallet forklift) according to the weight of the load and the number of pickings, the loading / unloading operation is reduced, and as a result, In addition, the efficiency of loading and unloading work can be improved. In addition, a forklift (a picking forklift or a pallet forklift) can be selected according to the work content at the discretion of the operator, and the work efficiency can be further improved.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram of a cargo handling instruction system according to an embodiment of the present invention.
FIG. 2 is a block diagram of a host computer according to the embodiment of the present invention.
FIG. 3 is a block diagram of a fork terminal of the forklift according to the embodiment of the present invention.
FIG. 4 is a diagram illustrating a configuration example of a display screen of a display unit of the fork terminal according to the embodiment of the present invention.
FIG. 5 is a flowchart in the case where a work content is transferred to another forklift in the case where the forklift fails in the embodiment of the present invention.
FIG. 6 is a flowchart in the case where a work content is transferred to another forklift in the case where the forklift fails in the embodiment of the present invention.
FIG. 7 is a flowchart in the case where work contents are transferred to forklifts of different models according to the embodiment of the present invention.
FIG. 8 is a flowchart in the case where work contents are transferred to forklifts of different models according to the embodiment of the present invention.
FIG. 9 is a flowchart in the case of transferring work contents to forklifts of different models according to the embodiment of the present invention.
[Explanation of symbols]
1 Host computer
16 wireless modem
20 Picking forklift
30 Forklift for pallets
40 fork terminal
41 Display
42 storage unit
45 wireless modem
51 Error transfer button
52 Change transfer button

Claims (4)

A host computer to which input / output work contents are input and set; and the host computer transmits the work content instruction data by radio, receives individual work content instruction data by a fork terminal, and receives the instruction data. In a cargo handling instruction system comprising a plurality of forklifts that perform cargo handling according to
The fork terminal includes communication means for transmitting and receiving the work content instruction data, storage means for storing the work content instruction data, and display means for displaying the work content instruction data,
A cargo handling work instruction system, wherein instruction data of work contents can be directly transferred from a fork terminal of one forklift to a fork terminal of another forklift. 2. The cargo handling apparatus according to claim 1, wherein the fork terminal includes a transfer unit for transferring instruction data of unprocessed work content to a fork terminal of another forklift when the forklift has a failure or abnormality. Work instruction system. 3. The cargo handling instruction system according to claim 2, wherein failure information is transferred from a forklift terminal of the forklift in which a failure or abnormality has occurred to a host computer. The fork terminal includes a transfer unit that transfers instruction data of work contents to a fork terminal of a pallet forklift or a fork terminal of a picking forklift that is different from its own model according to the picking operation or the pallet operation. 2. The cargo handling instruction system according to claim 1, wherein:

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