Patent Publication Number: US-2020302361-A1

Title: Cart operation system and cart operation method

Description:
TECHNICAL FIELD 
     The present invention relates to a cart operation system and a cart operation method, and more precisely, to a cart operation system and a cart operation method, capable of providing, according to a cart control signal, a luminous indication of a cart operation display device arranged on each cart so that a worker who sees the luminous indication may efficiently use a proper cart. 
     BACKGROUND ART 
     Generally, a sheet metal factory processes products mainly through steps mentioned below. 
     (1) Order acceptance (delivery time, quantity, and drawings), (2) production planning (process allocation), (3) processing preparation (material preparation, metal mold preparation, programming, cart operation planning, and the like), (4) blanking (including secondary processing such as deburring), (5) bending, (6) welding (including temporary welding, jig making, and parts fixing), (7) inspection, (8) painting, (9) assembling, and (10) shipping. 
     In the processes following the above-mentioned (4), various carts are used to place and carry thereon sheet metal materials, parts, and products. 
     Depending on the scale of a processing factory, there are 50 to 100 carts that are operated according to drawings and work instruction sheets. 
     PRIOR ART DOCUMENT 
     Patent Literature 
     
         
         Patent Literature 1: Japanese Unexamined Patent Application Publication No. 2013-202667 
       
    
     SUMMARY OF THE INVENTION 
     However, cart operation in such a processing factory mentioned above has a problem that a worker must use various carts according to work instruction sheets (sort destinations), drawings, and the like as a result a work time is elongated and a work efficiency is worsened as mentioned below. 
     For example, in the above-mentioned blanking process, parts must individually be taken out of sheets stacked on a shelf and must be sorted. For this, the parts must be checked for their shapes according to work instruction sheets and drawings and then must be put on carts. This takes a time and there is a possibility of causing sort errors. 
     Also, in the bending process, a worker must look for parts processed in the preceding process. At this time, the worker may understand which blanking machine has processed the parts by seeing the work instruction sheets. However, the worker must determine which cart is an objective cart according to the drawings. This takes more time. 
     Further, in the welding (assembling) process to gather parts and join them together, a large number of parts kinds are involved to increase the number of carts, and therefore, securing a space is difficult and taking out the parts is a hard work. 
     In addition, to operate a factory as a whole, a production leveling plan achieved by simply distributing production among processing machines increases the number of carts and necessitates wide spaces for passageways and storage for partly-finished products. Also, traffic lines will overlap depending on worker&#39;s behaviors to deteriorate a work efficiency. Also, in handling an emergency at an occurrence of a rush item, merging the rush item with a presently planned work will confuse a worker who must operate carts. To cope with this, new processes starting from a material taking task must be prepared. This deteriorates production yield and efficiency. 
     The present invention is made by taking account of the above-mentioned situations and an object thereof is to provide a cart operation system and a cart operation method, capable of letting a cart operation display device arranged on each cart display a luminous indication according to a cart control signal so that a worker, by seeing the luminous indication, may efficiently use a proper cart. 
     To resolve the problem mentioned above, a feature of the present invention is that a cart operation system for operating a plurality of carts that carry materials, parts, and products to process in a processing factory installed with a plurality of processing machines comprises a cart operation display device arranged on each of the carts to display a cart operation indication for a worker and a production management device to generate a cart control signal for the worker in order to use a proper cart according to actions of the respective processing machines working on processing programs in the processing factory, wherein the production management device transmits the cart control signal to the cart operation display device, the cart operation display device displays an indication, and the worker, by seeing the indication, uses and operates a proper cart. 
     Another feature of the present invention is that the cart operation display device has a feedback device for feeding back to the production management device an operation status of the cart on which the cart operation display device is arranged. 
     Another feature of the present invention is that the feedback device of the cart operation display device has a confirmation switch arranged on the cart operation display device to inform of a completion of loading/unloading of the cart on which the cart operation display device is arranged, the confirmation switch is operated by the worker at the time of completion of loading/unloading to inform of the completion of loading/unloading from the cart operation display device to the production management device. 
     Another feature of the present invention is that the production management device wirelessly transmits the cart control signal to the cart operation display device. 
     Another feature of the present invention is that the cart operation display device displays a processing process at which the cart is present in the processing factory. 
     Another feature of the present invention is that the cart operation display device displays an indication corresponding to the worker to let the worker find the cart to be used by the worker. 
     Another feature of the present invention is that the cart operation display device displays an indication to indicate at which of the plurality of processing machines in the processing factory the cart is present. 
     Another feature of the present invention is that the cart operation display device displays an indication corresponding to an emergency to let a worker find the cart to be used for the emergency. 
     Another feature of the present invention is that the cart operation display device displays an indication corresponding to a delivery time delay to let a worker find the cart to be used for the delivery time delay. 
     Another feature of the present invention is that the cart operation display device emits different colors or blinks to discriminate indications from one another. 
     Another feature of the present invention is that the cart operation display device has at least two light emitting parts. 
     Another feature of the present invention is that the two light emitting parts of the cart operation display device emit different colors or differently blink. 
     Another feature of the present invention is that the two light emitting parts of the cart operation display device are an upper light emitting part and a lower light emitting part. 
     Another feature of the present invention is that the upper light emitting part of the cart operation display device displays a blinking indication corresponding to the worker to let the worker to find the cart to be used by the worker and the lower light emitting part displays a process color representing a processing process at which the cart is present. 
     Another feature of the present invention is that a cart operation method for a cart operation system, which operates a plurality of carts that carry materials, parts, and products to process in a processing factory installed with a plurality of processing machines and comprises a cart operation display device arranged on each of the carts to display a cart operation indication for a worker and a production management device to generate a cart control signal for the worker in order to use a proper cart according to actions of the respective processing machines working on processing programs in the processing factory, comprises a process in which the production management device forms a cart operation plan according to the processing programs for the processing machines and a process in which the production management device transmits the cart control signal to the cart operation display device, wherein according to the cart control signal, the cart operation display device displays a luminous indication, and the worker, by seeing the luminous indication, uses and operates a proper cart. 
     Another feature of the present invention is that, when the worker operates the cart, the worker feeds back to the production management device an operation status of the cart on which the cart operation display device is arranged. 
     Another feature of the present invention is that the cart operation method further comprises a process of determining whether or not there is an emergency processing interrupt, and if it is determined that there is the emergency processing interrupt, a process of forming a cart operation plan for the emergency processing interrupt and updating an original cart operation plan by replacing it with the formed cart operation plan. 
    
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         FIG. 1  is an overall view showing a cart operation system embodied according to the present invention. 
         FIG. 2  is a schematic diagram showing a cart operation display device  15  attached to a cart  1  in the cart operation system shown in  FIG. 1 , to display a cart operation indication for a worker. 
         FIG. 3  is an explanatory diagram showing the cart  1  to which the cart operation display device  15  is attached. 
         FIG. 4  is an explanatory diagram showing emission colors of an upper light emitting part  15   a  and lower light emitting part  15   b  of the cart operation display device  15 . 
         FIG. 5  is a table showing examples of light emission states of the cart operation display device  15  with respect to various statuses (situations). 
         FIG. 6  is a table showing examples of light emission states of the cart operation display device  15  with respect to workers. 
         FIG. 7  is a table showing examples of customer&#39;s cart specifications registered as parameters. 
         FIG. 8  is a table showing examples of colors used to choose carts for customers. 
         FIG. 9  is a flowchart showing a cart operation method conducted by a production management device  5 , in which (a) is a general flowchart of the cart operation method and (b) is a detailed flowchart of step  103  of (a). 
         FIG. 10  is an explanatory diagram showing, in a cart assigning action, a displaying action for a worker carried out by the cart operation display device  15  under the control of the production management device  5 . 
         FIG. 11  is an explanatory diagram showing, in a partly-finished product delivery time managing action, a displaying action for a worker carried out by the cart operation display device  15  under the control of the production management device  5 . 
         FIG. 12  is an explanatory diagram showing, in a product searching action, a displaying action for a worker carried out by the cart operation display device  15  under the control of the production management device  5 . 
         FIG. 13  is an explanatory diagram showing, in a sort navigating action, a displaying action for a worker carried out by the cart operation display device  15  under the control of the production management device  5 . 
         FIG. 14  is an explanatory diagram of a map showing locations of a plurality of carts  1  in a factory. 
     
    
    
     DESCRIPTION OF EMBODIMENTS 
     Hereunder, embodiments of the present invention will be explained with reference to the drawings. 
       FIG. 1  is an overall diagram showing a cart operation system embodied according to the present invention. 
     This cart operation system is, in a sheet metal factory or the like having a plurality of processing machines, to efficiently operate a plurality of carts  1  on which materials, products, and the like are placed and carried. As shown in  FIG. 1 , a LAN  3  arranged in the metal sheet factory is connected to a production management device  5  to manage the manufacturing of products from sheet metal materials, a database  7  to store setting information used by the production management device  5  and the like, NC devices  9  of a plurality of processing machines  8  to process sheet metal materials into products, a programming device (CAM)  11  to form processing programs for the processing machines  8 , and a transmit/receive device  13  to wirelessly transmit cart control signals formed by the production management device  5  and receive signals from the carts  1 . Each of the plurality of carts  1  is provided with a cart operation display device  15  that wirelessly receives the cart control signal from the transmit/receive device  13 , and according to the cart control signal, displays a cart operation indication for a worker. 
     The LAN  3  is also connected to a site terminal  17  arranged in the processing factory. 
     The production management device  5 , programming device  11 , site terminal  17 , and the like each are a computer having a RAM, ROM, CPU, display, and the like and achieve functions mentioned later by software stored in the ROMs. 
     According to this embodiment, the processing machines  8  include punch presses, benders, welders, and the like. 
       FIG. 2  is a schematic diagram showing the cart operation display device  15  attached to the cart  1  in the cart operation system shown in  FIG. 1 , to display a cart operation indication for a worker. 
     As shown in  FIG. 2 , the cart operation display device  15  is formed by a cylindrical mesh-type beacon elongated upward and downward and includes an upper light emitting part  15   a , a lower light emitting part  15   b , and a confirmation switch  15   c  at a top part. 
     The confirmation switch  15   c  is to inform the production management device  5  of a completion of loading/unloading of the cart  1 . A worker pushes the confirmation switch  15   c  at the time of completion of loading/unloading so that a signal indicating the completion of loading/unloading is transmitted from the cart operation display device  15  to the production management device  5 . 
     The upper light emitting part  15   a  forms a search section that emits light when a worker searches for the cart or when warning a delivery time delay. The lower light emitting part  15   b  forms a process description section to indicate the next process and the like at the time of completion of loading/unloading of the cart  1 . 
     The upper light emitting part  15   a  expresses an emergency level with the number of blinks and indicates a worker or other condition with a color. The lower light emitting part  15   b  expresses a sorting source cart or a sorting destination cart with the number of blinks and indicates a process with a color. 
     Here, the process color emitted from the lower light emitting part  15   b  indicates a processing process where the cart  1  is present in the factory. 
     An example of typical usage is to make the upper light emitting part  15   a  blink so that a worker may find a cart to use and make the lower light emitting part  15   b  emit a process color so that the worker may recognize a processing process of the cart  1 . 
     The cart operation display device  15  is driven by a battery installed therein and managed by a beacon battery management  5   e  (refer to  FIG. 10 ) to be explained later. 
     The cart operation display device  15  is configured to be attached to a top part of an existing cart  1   a  or  1   b  shown in (a) and (b) of  FIG. 3 . A fitting structure thereof may vary depending on the structure of the existing cart  1 . For example, for the cart  1   a  shown in  FIG. 3( a ) , a fitting tool for sandwiching an uppermost shelf  1   a   1  is arranged at a lower end of the cart operation display device  15 , and as shown in  FIG. 3( c ) , the fitting tool is used to attach the lower end part of the cart operation display device  15  to the uppermost shelf  1   a   1  of the cart  1   a . Alternatively, a magnet is arranged at the lower end of the cart operation display device  15  to attach, by magnetic force, the device  15  to the uppermost shelf  1   a   1  of the cart  1   a.    
     Emission colors of the upper light emitting part  15   a  and lower light emitting part  15   b  of the cart operation display device  15  are a plurality of kinds as shown in  FIG. 4 . 
       FIG. 3  is an explanatory diagram showing the cart  1  to which the cart operation display device  15  is attached and  FIG. 4  is an explanatory diagram showing the emission colors of the upper light emitting part  15   a  and lower light emitting part  15   b  of the cart operation display device  15 . 
     Next, setting information for the cart operation display device  15  stored in the database  7  and used by the production management device  5  will be explained. 
       FIG. 5  is a table showing examples of light emission states of the cart operation display device  15  with respect to various statuses (situations). 
     As shown in  FIG. 5 , in the case of, for example, a search to find out a cart to be used by a worker, it is set such that the search section, i.e., the upper light emitting part  15   a  of the cart operation display device  15  turns ON for 30 seconds at a fast blinking rate with a rainbow color. 
     In the examples of process colors shown in  FIG. 5  to be emitted from the lower light emitting part  15   b  of the cart operation display device  15 , a pale blue color, for example, from the lower light emitting part  15   b  indicates a step of waiting or instruction for taking at a bending machine (bender). If the lower light emitting part  15   b  is deep green, it indicates a step of waiting or instruction for taking at a welder. 
     Accordingly, when the lower light emitting part  15   b  of the cart operation display device  15  emits the process color of pale blue and when a bent item is taken out of the bending machine and the worker confirms the completion of loading with the confirmation switch  15   c , the lower light emitting part  15   b  of the cart operation display device  15  changes the process color to, for example, deep green to indicate the step of waiting for taking at the welding machine. 
       FIG. 6  is a table showing examples of light emission states of the cart operation display device  15  with respect to workers. 
     As shown in  FIG. 6 , if a worker is, for example, Amada Taro, the upper light emitting part  15   a , i.e., the search section of the cart operation display device  15  is set to emit pale blue light without blinking. 
       FIG. 7  is a table showing examples of customer&#39;s cart specifications registered as parameters. 
     As shown in  FIG. 7 , a cart with a cart number, for example, No. 1 is set to be of a type A, used for a blanking or bending process, sized as 400 mm in width, 600 mm in depth, and 200 mm in height, three in the number of stages, 1000 g/stage in weight limit, flat stacking in loading method, free in usable mode, Company N in customer designation, and electric in product/industry class. 
     To sort carts according to customers, it is possible to set colors as shown in  FIG. 8 .  FIG. 8  is a table showing examples of colors used to choose carts for customers. 
     In this case, the upper light emitting part  15   a  of the cart operation display device  15  may indicate a customer and the lower light emitting part  15   b  a process. Alternatively, the upper light emitting part  15   a  may indicate an emergency item and the lower light emitting part  15   b  a process. Also, the upper light emitting part  15   a  and lower light emitting part  15   b  may each emit a process color. 
     The tables set as mentioned above are read by the production management device  5 , which generates a cart control signal and transmits the same from the transmit/receive device  13  to the cart operation display device  15 . Based on the cart control signal, the cart operation display device  15  provides a luminous indication for a worker. 
     Next, with reference to  FIG. 9 , a cart operation method conducted by the production management device  5  will be explained. 
       FIG. 9  is a flowchart showing the cart operation method achieved by the production management device  5 , in which (a) is a general flowchart of the cart operation method and (b) is a detailed flowchart of step  103  of (a). 
     First, as a preparatory stage before starting a cart operation, the cart operation display device  15  is attached to each of the plurality of carts  1  in the factory. It is possible to prepare carts  1  to which the cart operation display devices  5  have already been attached. 
     Here, the cart operation display devices  15  are provided with their own numbers that correspond in a one-to-one manner to the cart numbers of the carts  1 . For example, the cart  1  with a number of 1 is provided with the cart operation display device  15  having a number of 1. 
     Properties (loadable material, quantity, and the like) of each cart  1  are stored in connection with the number of the cart  1 , and the production management device  5  refers to the properties of a given cart  1  and forms a cart operation plan explained below. 
     In step  101  of  FIG. 9( a ) , the production management device  5  forms a cart operation plan according to processing contents of each processing machine  8  (a processing program for each processing machine  8 ) in the factory. 
     Namely, the production management device  5  reads a processing program of each processing machine  8  from the programming device (CAM)  11  and forms a cart operation plan including cart assignment, delivery time management, product search, sort, and the like for each of the blanking process, bending process, welding process, and the like. 
     When forming the cart operation plan, the production management device  5  obtains the location of each cart  1 , calculates a loadable quantity of each cart  1 , and by adjusting to a processing action of each processing machine  8  instructed by the processing program, determines the operation plan for each cart  1 . Namely, the operation plan for each cart  1  is formed by finding carts  1  of a required kind according to the processing action of each processing machine  8  and by assigning to a worker an optimum one of the carts that is in the vicinity of the processing machine  8 . 
     The operation plans formed by the production management device  5  are once stored in the database  7 . 
     Next, in step  103 , in an actual processing work, a displaying operation for a worker by the cart operation display device  15  is carried out under the control of the production management device  5  according to the operation plan for the cart  1 . 
     Namely, in the actual processing work, the production management device  5  reads from the database  7  the operation plans determined in the above-mentioned step  101 , and according to the operation plans, forms a cart control signal for each cart  1 . The cart control signals are transmitted from the transmit/receive device  13  to the cart operation display devices  15 . According to the cart control signals, the cart operation display devices  15  conduct luminous indications for workers. 
     With reference to  FIG. 9( b ) , the details of the above-mentioned step  103  will be explained. 
     In step  103   a  of  FIG. 9( b ) , according to the cart control signal from the production management device  5 , the cart operation display device  15  provides a luminous indication for a worker. 
     Next, in step  103   b , the worker operates the cart according to the luminous indication of the cart operation display device  15 , and at this time, it is determined whether or not the cart operation display device  15  has sent a loading/unloading completion signal to the production management device  5  (whether or not there is a feedback). 
     Namely, for example, it is determined whether or not there is a feedback that the worker finds out, according to the luminous indication of the cart operation display device  15 , the cart  1  to use, loads the cart  1  with a material, product, or the like, and pushes the confirmation switch  15   c  of the cart operation display device  15  to send a loading completion signal to the production management device  5 . 
     Similarly, for example, it is determined whether or not there is a feedback that the worker unloads a material, product, or the like from the cart  1  used by the worker and pushes the confirmation switch  15   c  of the cart operation display device  15  to send an unloading completion signal from the cart operation display device  15  to the production management device  5 . 
     If the above-mentioned step  103   b  determines that there is a feedback, the production management device  5  confirms, based on the feedback, an operation condition of the cart  1 , in the step  103   c.    
     Namely, for example, if it is determined that there is a feedback that the worker has unloaded the material, product, or the like from the cart  1  used by the worker and has pushed the confirmation switch  15   c  of the cart operation display device  15  to send an unloading completion signal from the cart operation display device  15  to the production management device  5 , the production management device  5  confirms, according to the feedback, a vacant state of the cart  1  and shifts the cart  1  from the present process (preceding process) to the next process (following process). 
     In this way, the feedback from a worker enables to quickly confirm a discrepancy between a plan and a practice at a site. Adjusting to site conditions that change every moment enables the carts that have completed preceding processes to be successively transferred to the next processes. 
     In the above-mentioned embodiment, the cart operation display device  15  is provided with only one confirmation switch  15   c , which is used to inform of loading/unloading completion. Instead, confirmation switches may separately be arranged for the loading completion and unloading completion. 
     Further, although the above-mentioned embodiment informs of the loading/unloading completion of the cart  1 , it is possible to inform only of the loading completion of the cart  1 . 
       FIG. 10  is an explanatory diagram showing a displaying action for a worker carried out by the cart operation display device  15  under the control of the production management device  5  in a cart assigning action in a blanking process, bending process, welding process, and the like. 
     In  FIGS. 10 to 13 , a process color and blink setting table input  5   a , a cart assignment  5   b , a cart loading parts management  5   c , a cart reservation  5   d , a beacon battery management  5   e , a cart location management  5   f , a cart operation mode  5   g , a beacon light control  5   h , a location map display  5   j , a process-to-process product delay management  5   k , and a rush item management  5   l  are functional blocks realized by software in the production management device  5 . 
     As shown in  FIG. 10 , in a cart assigning action, the cart loading parts management  5   c  sends, according to the cart operation mode  5   g , a cart assigning instruction to the cart assignment  5   b , which sends a cart reserving instruction to the cart reservation  5   d . Next, the cart reservation  5   d  sends a light instruction to the beacon light control  5   h . Lastly, the beacon light control  5   h  sends an emission ON instruction to the cart beacon (cart operation display device)  15 , and according to the emission ON instruction, the cart beacon (cart operation display device)  15  emits light. 
     Here, in the case of the action settings of the table shown in FIG.  5 , a search in the cart assigning action to find out a cart to be used by a worker is achieved such that the search section, i.e., the upper light emitting part  15   a  of the cart operation display device  15  of the cart  1  to be used by the worker is turned ON to emit a rainbow color at a fast blinking rate for 30 seconds. 
     Therefore, in the cart assigning action, the worker is able to quickly find out the cart  1  to use. 
     Further, in the case of the action settings of the table shown in  FIG. 6 , a worker, for example, Amada Taro in the cart assigning action is specified such that the search section, i.e., the upper light emitting part  15   a  of the cart operation display device  15  is turned ON to emit a pale blue color without blinking. 
     Accordingly, the worker Amada Taro is able to quickly find out the cart  1  of his own. 
     Also, in the case of the table shown in  FIG. 7 , a cart provided with the number of No. 1 is set to be of a type A, used for a blanking or bending process, sized as 400 mm in width, 600 mm in depth, and 200 mm in height, three in the number of stages, 1000 g/stage in weight limit, flat stacking in stacking method, free in usable mode, Company N in customer designation, and electric in product/industry class. These cart parameters are referred to in the cart assigning action by the cart loading parts management  5   c  working under the cart operation mode  5   g , so that the cart assignment  5   b  may assign a proper cart. 
     As a result, a proper cart is assignable according to the cart parameters. 
     Also, in the case of the customer settings of the table shown in  FIG. 8 , the cart search for, for example, Company A is achieved such that the cart operation display device  15  is turned ON to emit an orange color for 60 seconds. 
     As a result, a worker is able to easily find out the cart  1  of the customer. 
     Next, in a partly-finished product delivery time managing action shown in  FIG. 11 , the process-to-process product delay management  5   k  sends a light instruction to the beacon light control  5   h , the beacon light control  5   h  sends an emission ON instruction to the cart beacon (cart operation display device)  15 , and according to the emission ON instruction, the cart beacon (cart operation display device)  15  turns ON to emit light. 
       FIG. 11  is an explanatory diagram showing, in the partly-finished product delivery time managing action, a displaying action for a worker carried out by the cart operation display device  15  under the control of the production management device  5 . 
     Here, in the case of the action settings of the table shown in  FIG. 5 , if an emergency item whose delivery time is 48 hours occurs in the cart assigning action, the search section, i.e., the upper light emitting part  15   a  of the cart operation display device  15  of a cart  1  to be used by a worker is turned ON to emit a red color at a fast blinking rate. 
     Accordingly, in the cart assigning action, the worker is able to quickly recognize the cart of the emergency item and take an action for the emergency item. 
     Also, in the case of the action settings of the table shown in  FIG. 5 , if there is a one-hour process delay in the cart assigning action, the search section, i.e., the upper light emitting part  15   a  of the cart operation display device  15  of a cart  1  to be used by a worker is turned ON to emit a yellow color. 
     Accordingly, in the cart assigning action, the worker is able to quickly recognize the one-hour process delay and take an action for the process delay. 
     Next, in a product searching action shown in  FIG. 12 , a worker A issues a product search instruction. In response to the instruction, the cart loading parts management  5   c  sends a light instruction to the beacon light control  5   h , the beacon light control  5   h  sends an emission ON instruction to the cart beacon (cart operation display device)  15 , and according to the emission ON instruction, the cart beacon (cart operation display device)  15  is turned ON to emit light and send a search completion signal to the beacon light control  5   h.    
       FIG. 12  is an explanatory diagram showing, in the product searching action, the displaying action for a worker carried out by the cart operation display device  15  under the control of the production management device  5 . 
     Next, in a sort navigating action shown in  FIG. 13 , the worker A issues a sort navigation instruction. In response to the instruction, the cart loading parts management  5   c  sends a light instruction to the beacon light control  5   h , the beacon light control  5   h  sends an emission ON instruction to the cart beacon (cart operation display device)  15 , and according to the emission ON instruction, the cart beacon (cart operation display device)  15  is turned ON to emit light. 
       FIG. 13  is an explanatory diagram showing, in the sort navigating action, a displaying action for a worker carried out by the cart operation display device  15  under the control of the production management device  5 . 
     In the above-mentioned cart assigning action, partly-finished product delivery time managing action, product searching action, and sort navigating action, the cart location management  5   f  instructs the location map display  5   j  so that the NC  9  or the site terminal  17  may display a map as shown in  FIG. 14  to show locations of the carts  1 . 
     Here, the carts  1  shown on the map may be colored or blinked to clarify the characteristics of the carts  1 . 
     Then, workers are able to refer to the map showing the locations of the carts  1  and operate the carts  1 . 
     Next, returning to  FIG. 9( a ) , in step  105 , the production management device  5  determines whether or not there is an emergency processing interrupt. 
     Namely, if a worker inputs an emergency processing interrupt into the NC device  9  of the processing machine  8  or the like, the production management device  5  recognizes the emergency processing interrupt. 
     If the above-mentioned step  105  determines that there is an emergency processing interrupt, the programming device (CAM)  11  updates the processing program for the processing machine  8 , and in step  107 , the production management device  5  forms a cart operation plan taking the emergency processing interrupt into account and replaces the original cart operation plan with the newly formed one, thereby updating the cart operation plan. 
       FIG. 14  is an explanatory diagram of the map showing locations of the carts  1  in the factory. 
     According to this embodiment, in a processing factory in which a plurality of processing machines are installed, a plurality of carts to carry materials, parts, and products to process are operated by providing each cart with the cart operation display device that displays a cart operation indication for a worker and by sending a cart control signal to the cart operation display device so that the worker may use a proper cart according to the working status of each processing machine. In response to the cart control signal, the cart operation display device displays a luminous indication and the worker, by seeing the luminous indication, is able to efficiently use and operate the proper cart. 
     The present invention is not limited to the above-mentioned embodiments. The present invention can be embodied in other forms through proper modifications. 
     INDUSTRIAL APPLICABILITY 
     According to the present invention, the cart operation display device provided for each cart displays a luminous indication according to a cart control signal, and therefore, a worker, by seeing the luminous indication, is able to efficiently use and operate a proper cart.