JP2015121854A - Work plan creation device and work plan creating method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a work plan creation device capable of creating safe work plan for workers during a work period of waste disposal work.SOLUTION: A work plan creation device 1, which creates a work schedule of waste disposal work consisting of a plurality of work processes including the ones likely to influence workers in terms of contamination amount or radiation dose, comprises: an operation input part 11 capable of inputting each work process information about the plurality of work processes; a work schedule creation part 16 for creating a work schedule of the waste disposal work that combines the plurality of work processes on the basis of a plurality of pieces of work process information; and a work load calculation part 17 which, based on the created work schedule and information about influences of the work processes included in the work process information on the workers, calculates influences of work load on the workers during a work period of the waste disposal work.

Description

  The present invention relates to a work plan creation device and a work plan creation method for creating a work plan for waste treatment work.

  2. Description of the Related Art Conventionally, a scheduling device that formulates a production plan in consideration of utility usage is known (see, for example, Patent Document 1). This scheduling apparatus performs scheduling based on various types of information, and generates a Gantt chart as a production control chart from the scheduling result.

JP 2012-230461 A

  By the way, the waste treatment work is a treatment work including a dismantling work of a structure such as a chemical facility or a nuclear facility, a removal work of a structure, a conversion work of waste generated from the structure, etc. In the work process, there is a possibility that a predetermined influence may be given to the worker. Therefore, it is necessary to create a work plan for the waste treatment work in consideration of this influence. The predetermined influence is, for example, the amount of contamination during the dismantling process of the chemical facility or the dose during the dismantling process of the nuclear facility.

  Here, since the scheduling apparatus described in Patent Document 1 does not consider the influence given to the worker, the influence given to the worker in the waste disposal work may exceed a specified value.

  Then, this invention makes it a subject to provide the work plan creation apparatus and work plan creation method which can formulate a safe work plan with respect to an operator in the work period of a waste treatment work.

  The work plan creation device according to the present invention is a work plan creation device for creating a planned process chart relating to a waste treatment work, wherein the waste treatment work is configured by a plurality of work processes including work processes that affect an operator. And creating an operation input unit capable of inputting process information related to the plurality of work processes, and the planned process table of the waste treatment work combining the plurality of work processes based on the plurality of process information. In the work period of the waste treatment work, based on the planned process creation part to be created, the created planned process chart, and influence information on the influence of the work process included in the process information on the worker And a pile calculation unit for calculating the pile on the influence on the worker.

  According to this configuration, the total amount of influence can be calculated by calculating the pile in the work period of the waste treatment work by the pile calculation unit. For this reason, when the total amount of influence exceeds the specified value, it is possible to review the work process of the waste treatment work and recombine a plurality of work processes. As a result, it is possible to formulate a work plan in which the total amount of influence does not exceed the specified value during the work period of the waste treatment work, so that a safe work plan can be provided to the worker. . The waste treatment work is a treatment work including a dismantling work of a structure such as a chemical facility or a nuclear facility, a removal work of the structure, a conversion work of waste generated from the structure, and the like. Further, the structure is not limited to a chemical facility or a nuclear facility, and may be applied to any structure as long as it affects the worker. Further, the influence given to the worker includes, for example, a contamination amount or a dose.

  The plurality of work steps include a disassembly step of disassembling the structure to make waste, and a waste generation step of generating the waste by storing the waste in a storage container, the disassembly step The process information relating to the waste generation information relating to the amount of waste produced includes the waste production information relating to the production amount of the waste. And a storage unit for storing a generation amount conversion table including a first conversion table for converting the generated amount of waste into the generated amount of waste, and the generation amount conversion table stored in the storage unit. A conversion processing unit that executes a first generation conversion process for converting the generated amount of waste obtained from the waste generation information into the generated amount of waste, and the conversion processing unit includes: First The generated amount of the waste body derived by the conversion process is associated as the waste body generation information of the waste body generation process, and the pile calculation unit includes the created planned process table, the waste generation information, and It is preferable that the amount of waste generated and the amount of waste generated in the work period of the waste treatment work are calculated based on the waste generation information.

  According to this configuration, even in the case where the waste is generated from the waste in the waste generation step, the control unit executes the first generation conversion process, so that the amount of generated waste after the generation conversion In addition, it is possible to perform a pile calculation based on the amount of generated waste.

  The plurality of work steps include an intermediate generation step of generating the waste as an intermediate that is in a state before becoming the waste, and the process information related to the intermediate generation step includes the intermediate Intermediate generation information relating to the generation amount of the intermediate is included, and the generation amount conversion table includes a second conversion table for converting the generation amount of the waste into the generation amount of the intermediate, and the generation amount of the intermediate. The waste obtained from the waste generation information on the basis of the generation amount conversion table stored in the storage unit. A second generation conversion process for converting the generated amount of the intermediate into the generated amount of the intermediate, and converting the generated amount of the intermediate derived in the second generated conversion process into the generated amount of the waste Third generation conversion process The intermediate generation amount derived by the second generation conversion process is associated as the intermediate generation information of the intermediate generation step, and the waste body derived by the third generation conversion process The generated amount is associated as the waste generation information of the waste generation step, and the pile calculation unit is configured to create the planned step table, the waste generation information, the intermediate generation information, and the waste generation information. Based on the above, it is preferable to calculate a pile of the amount of waste generated, the amount of intermediate generated, and the amount of waste generated during the waste treatment work period.

  According to this configuration, in the intermediate generation process, the second generation conversion process and the third generation conversion process are executed even when the intermediate is generated from the waste and is generated from the intermediate to the waste. Thus, the pile calculation can be performed based on the generation amount of the waste after the production conversion, the generation amount of the intermediate, and the generation amount of the waste body.

  Further, the display unit further includes a pile graph creation unit that creates a pile graph from a calculation result obtained by pile calculation based on the planned process chart and the process information, and the display unit includes the created pile It is preferable that a graph and the planned process chart are displayed.

  According to this configuration, the planned process chart and the pile graph based on the planned process chart can be displayed on the display unit. For this reason, a plan process chart and a piled-up graph can be displayed in association with each other.

  In the planned process table displayed on the display unit, a period bar indicating the length of the period of each work process is displayed, and the display unit is selected by the operation input unit. Then, in the planned process chart, the selected period bar is displayed so as to be movable on each work process, and the pile graph creation unit is configured to display the pile based on the period bar after the movement. It is preferable to create a new graph.

  According to this configuration, the time of the work process can be easily changed by a simple operation of moving the period bar. In addition, it is possible to reconstruct a stacked graph based on the period bar after movement. For this reason, it is possible to easily change the work process in the waste treatment work while taking into account the pile graph.

  Moreover, in the planned process table displayed on the display unit, a period bar indicating the length of each work process is displayed, and the display unit is operated by the operation input unit with respect to the period bar. When an operation related to expansion / contraction of the work period is performed, the operated period bar is displayed in the plan process table so as to be expandable / contractible on each work process, and the stacked graph creation unit displays the period bar after expansion / contraction Based on the above, it is preferable to newly create the pile graph.

  According to this configuration, the length of the work period of the work process can be easily changed by a simple operation of expanding and contracting the period bar. It is also possible to reconstruct a pile graph based on the period bar after expansion / contraction. For this reason, it is possible to easily change the work process in the waste treatment work while taking into account the pile graph.

  Moreover, it is preferable that an excess line as an upper limit is displayed on the pile graph over the work period of the waste treatment work on the display unit.

  According to this configuration, it is possible to easily determine whether or not the calculation result of the pile calculation exceeds the excess line by displaying the excess line on the created pile graph.

  The process information includes resource information related to resources required in the work process and model information related to a process model representing the state of the resource in the work process. At least one process model of a release model, an allocation model, and a release model is prepared, and the allocation release model occupies a certain amount of the resource during a work period from the start to the end of the work process, The process model that releases the resource after the completion, and the allocation model increases the resource during a work period from the start to the end of the work process, and the work model even after the work process ends. The process model that continues to occupy the resource at the end of the process, the release model is Together with the resources working time from the start to the end of the working steps is reduced, even after completion of the working process, it is preferred that the process model to continue to occupy the resources at the end of the working process.

  According to this configuration, since it is possible to select an appropriate process model that represents the state of resources in the work process, it is possible to appropriately formulate a work plan for waste disposal work.

  In addition, the process information includes breakdown information by impact level regarding the breakdown by impact level in the work process, and the planned process creation unit includes a plurality of the work processes based on the plurality of process information. It is preferable to create the planned process chart of the waste treatment work combining the above, and the pile calculation unit executes the pile calculation for each degree of influence based on the created planned process chart and the process information. .

  According to this configuration, the pile calculation unit can execute the pile calculation according to the degree of influence during the work period of the waste treatment work.

  The work plan creation method of the present invention is a work plan creation method for creating a planned process chart relating to a waste treatment work, wherein the waste treatment work is constituted by a plurality of work processes including a work process affecting an operator. And a process information acquisition process for acquiring process information relating to a plurality of the work processes, and the planned process chart of the waste treatment work combining a plurality of the work processes based on the acquired plurality of process information. The work period of the waste treatment work based on the work plan creation process to be created, the created planned process chart, and the influence information on the influence of the work process included in the process information on the worker An impact calculating step of calculating a pile of the effects on the worker.

  According to this configuration, the total amount of influence can be calculated by calculating a pile of influences during the work period of the waste treatment work. For this reason, when the total amount of influence exceeds the specified value, it is possible to review the work process of the waste treatment work and recombine a plurality of work processes. As a result, it is possible to formulate a work plan in which the total amount of influence does not exceed the specified value during the work period of the waste treatment work, so that a safe work plan can be provided to the worker. .

FIG. 1 is a schematic configuration diagram of a work plan creation apparatus according to the present embodiment. FIG. 2 is an explanatory diagram of a Gantt chart screen displayed on the display unit of the work plan creation apparatus according to the present embodiment. FIG. 3 is an explanatory diagram of a process model used in the work plan creation apparatus according to the present embodiment. FIG. 4 is a flowchart regarding the schedule creation processing of the work plan creation device according to the present embodiment.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments. In addition, constituent elements in the following embodiments include those that can be easily replaced by those skilled in the art or those that are substantially the same.

  FIG. 1 is a schematic configuration diagram of a work plan creation apparatus according to the present embodiment. FIG. 2 is an explanatory diagram of a Gantt chart screen displayed on the display unit of the work plan creation apparatus according to the present embodiment. FIG. 3 is an explanatory diagram of a process model used in the work plan creation apparatus according to the present embodiment. FIG. 4 is a flowchart regarding the schedule creation processing of the work plan creation device according to the present embodiment.

  The work plan creation apparatus 1 of this embodiment is an apparatus for creating a work plan for waste disposal work. The waste treatment work is a treatment work in which work processes including a structure dismantling work, a structure removal work, a conversion work of waste generated from the structure, and the like are combined. For example, a chemical facility or a nuclear facility is applied as the structure. In this embodiment, the structure is simply described as equipment.

  Here, the waste treatment work is configured to include a plurality of work processes, and examples of the plurality of work processes include various work processes including a disassembly process, an intermediate generation process, and a waste generation process. .

  The dismantling process is an operation process that dismantles equipment and turns it into waste. The intermediate generation process is an operation process using the waste generated in the disassembly process as an intermediate. As an intermediate production | generation process, there exists a washing | cleaning process etc. which wash | clean a waste and use the wash | cleaned waste as an intermediate body, for example. The waste generation process is an operation process in which the waste generated in the disassembly process is used as a waste, or the intermediate generated in the intermediate generation process is used as a waste. In addition, as the plurality of work processes, there are a carry-in process in which products such as waste, intermediates, and wastes are carried into a predetermined area, and a carry-out process in which the products are carried out from the predetermined area.

  As shown in FIG. 1, the work plan creation device 1 creates a planned process chart relating to a work plan for waste disposal work by combining the various work processes described above. The work plan creation apparatus 1 includes an operation input unit 11, a display unit 12, a storage unit 13, and a control unit 14.

  The operation input unit 11 includes an input device such as a keyboard and a mouse or a touch panel, for example. When the operation input by the operator is performed, the operation input unit 11 outputs an input signal corresponding to the operation input to the control unit 14. For example, the operator uses the operation input unit 11 to input process information regarding each work process of the waste treatment work. The process information includes, for example, influence information related to the influence of contamination amount or dose given to the worker in the work process, and resource information related to various resources such as human resources and equipment resources in the work process. Here, the impact information includes the breakdown information by impact level regarding the breakdown by impact level in the work process. The breakdown information by impact level is, for example, a high-level breakdown of the impact level in a predetermined work process. The information is a breakdown of the impact 50%, the medium impact 30%, and the low impact 20%.

  The process information related to the dismantling process includes waste generation information related to the amount of waste generated in the dismantling process. Similarly, the process information relating to the intermediate production step includes intermediate production information relating to the amount of intermediate produced in the intermediate production step. In addition, the process information related to the waste body generation process includes waste body generation information related to the amount of waste generated in the waste body generation process. Further, as will be described in detail later, the process information includes model information related to a process model representing the state of the resource. The process information is not limited to the information described above, and may be any information as long as it is information related to the work process. For example, the process information includes process designation information for designating the work process before and after the work process. May be.

  The display unit 12 includes a display device such as a monitor or a touch panel. The display unit 12 is display-controlled by the control unit 14 and displays the created planned process chart or displays a pile graph based on the calculation result of the pile calculation described later.

  The storage unit 13 stores various programs and various data. Specifically, the storage unit 13 stores a work plan creation program for creating a planned process table relating to a work plan for waste disposal work, stores process information input in the operation input unit 11, and generates Store the object conversion table. Here, the product conversion table is a conversion of the production amount from the waste to the intermediate during the intermediate production process, a conversion of the production amount from the intermediate to the waste during the waste production process, and the waste production process. It is a table used when converting the production | generation amount from the waste in a waste to a waste body. In other words, the product conversion table includes a first conversion table that converts a generated amount of waste to a generated amount of waste, a second conversion table that converts a generated amount of waste to an generated amount of intermediate, and an intermediate And a third conversion table for converting the generated amount into the generated waste amount.

  The control unit 14 includes an integrated circuit, and executes various processes by executing a predetermined program. Specifically, the control unit 14 executes a work plan creation program, thereby creating a planned process table related to the work plan of the waste treatment work based on the process information and the product conversion table stored in the storage unit. Schedule processing to be performed, or pile calculation based on the planned process chart and process information. That is, the control unit 14 includes a planned process creation unit 16 that creates a planned process chart related to the work plan of the waste treatment work, a pile calculation part 17 that performs a pile calculation based on the planned process chart and the process information, It includes a function of a conversion processing unit 18 that executes conversion processing.

  In other words, the control unit 14 executes the schedule process by the planned process creation unit 16 to create a planned process table by appropriately combining before and after a plurality of work processes based on process information such as process designation information. . The schedule process is not limited to the process designation information, and a plurality of work processes may be appropriately combined based on other information, and the scheduling method is not particularly limited. Then, the control unit 14 performs a pile calculation of resources based on the resource information included in the process information based on a plurality of combined work processes, or a pile of influences based on the influence information included in the process information. Calculations are performed, or product piles are calculated based on the amount of products such as waste, intermediates, and waste.

  Further, the control unit 14 displays the created planned process chart on the display unit 12 or displays a pile graph as a calculation result of the pile calculation on the display unit 12. That is, the control unit 14 includes a function of a pile graph creation unit 19 that creates a pile graph from the calculation result calculated by the pile calculation unit 17.

  Next, the planned process chart G1 and the pile graph G2 displayed on the display unit 12 will be described with reference to FIG. As shown in FIG. 2, the display unit 12 of the work plan creation device 1 displays a planned process chart G1 and a pile graph G2 created by the control unit 14.

  The planned process chart G1 is a so-called Gantt chart, and displays each work process of the waste treatment work using a Gantt bar (period bar) 20. In the planned process table G1, the horizontal axis is a time axis, and the vertical axis is a list in which the respective work processes are arranged in the order of work. Specifically, the vertical axis of the planned process chart G1 is arranged in the order of work process A, work process B,. The Gantt bar 20 in the work process A is displayed over a predetermined work period, and similarly, the Gantt bars 20 in the work processes B to J are also displayed over a predetermined work period. That is, the Gantt bar 20 indicates the length of the work process period.

  Here, the control unit 14 displays the Gantt bar 20 in the planned process chart G1 so as to be movable on each work process. That is, when the operation input unit 11 selects and moves the control unit 14, the control unit 14 moves the Gantt bar 20 in the time axis direction on each work process based on the movement operation by the operation input unit 11. The control unit 14 changes the time of the work period of the work process by this moving operation. And the pile calculation part 17 of the control part 14 performs pile calculation again based on the Gantt bar 20 moved to the time-axis direction, and the pile graph preparation part 19 of the control part 14 carries out the pile graph G2 based on a calculation result. Update.

  Moreover, the control part 14 displays the gantt bar 20 of the plan process schedule G1 so that expansion and contraction is possible on each work process. That is, when the operation input unit 11 selects and expands and contracts the Gantt bar 20, the control unit 14 expands and contracts the Gantt bar 20 in the time axis direction on each work process based on the expansion and contraction operation by the operation input unit 11. The control part 14 is changing the length of the working period of a work process by this expansion-contraction operation. Then, the pile calculation unit 17 of the control unit 14 executes the pile calculation again based on the Gantt bar 20 expanded and contracted in the time axis direction, and the pile graph creation unit 19 of the control unit 14 performs the pile graph G2 based on the calculation result. Update.

  The pile graph G2 is a calculation result that is piled up based on the created planned process chart G1 and the process information. For example, as a pile target, the influence amount such as the contamination amount or the dose, the resource, the product, etc. Etc. Specifically, when the planned process chart G1 is created, the control unit 14 determines the work time of each work process, and therefore, every predetermined period (for example, every month, 1 Every week or every day), the piled up objects for each confirmed work process are added. At this time, the control unit 14 can calculate the pile target for each influence degree based on the breakdown information for each influence degree. For this reason, the pile graph G2 is created by arranging bar graphs to which the piled objects piled up every predetermined period are added along the time axis. At this time, the breakdown of the bar graph for each period is displayed according to the degree of influence or displayed according to the product according to the pile target.

  In addition, in the pile graph G2, an upper limit excess line L is displayed over the work period of the waste treatment work. This excess line L is displayed, for example, as a capacity line indicating the capacity limit of the facility resource when the stacking target is a resource of the facility resource, and when the stacking target is the impact amount, the limit of the impact amount is displayed. It is displayed as a limit line. For this reason, the operator of the work plan creation apparatus 1 can visually determine whether or not the stacked graph G2 exceeds the excess line L.

  Next, model information included in the process information of the work process will be described with reference to FIG. As described above, the model information is information related to a process model that represents the state of resources in the work process. As the process model, for example, an allocation release model M1, an allocation model M2, and a release model M3 are prepared.

  The allocation release model M1 is a process model that occupies a certain amount of resources during the work period from the start to the end of the work process, and releases the resources after the work process ends. In other words, the allocation release model M1 is in a state that does not occupy resources (that is, resources are zero) before the start of the work process, and is in a state that occupies a certain amount of resources during the work period. After the process is finished, the resource is not occupied (that is, the resource is zero). For example, the allocation release model M1 is set in a work process that temporarily stores a product in a storage area as an equipment resource, or is set in a work process that temporarily uses (occupies) a machine as an equipment resource. To do.

  The allocation model M2 is a process model in which resources increase during the work period from the start to the end of the work process, and continue to occupy resources at the end of the work process even after the work process ends. That is, the allocation model M2 is in a state that does not occupy resources before starting the work process (that is, a resource at the start of the work process), and is in a state where resources increase during the work period. After the completion of the work process, the resource continues to be occupied (that is, the resource at the end of the work process). The allocation model M2 is set, for example, in a carry-in process for carrying a product into a storage area as equipment resources.

  The release model M3 is a process model in which resources decrease during the work period from the start to the end of the work process, and continue to occupy resources at the end of the work process even after the work process ends. That is, the release model M3 is in a state that does not occupy resources before the start of the work process (that is, a resource at the start of the work process), and is in a state in which resources are reduced during the work period. After the completion of the work process, the resource continues to be occupied (that is, the resource at the end of the work process). The release model M3 is set, for example, in an unloading process for unloading a product from a storage area as equipment resources.

  Next, with reference to FIG. 4, the control operation of the work plan creation device 1 that creates the planning process table G1 and the pile graph G2 regarding the work plan of the waste treatment work will be described. The operator who operates the work plan creation device 1 first operates the operation input unit 11 to input process information when creating the planned process chart G1 related to the work plan of the waste treatment work (step S11). When the process information is input, the control unit 14 of the work plan creation apparatus 1 acquires the process information (process information acquisition process).

  Subsequently, the planned process creation unit 16 of the control unit 14 executes schedule processing based on the acquired process information, and appropriately combines before and after a plurality of work processes based on process information such as process designation information. The plan process chart G1 is created (step S12: work plan creation process).

  When the conversion processing unit 18 of the control unit 14 creates the planned process chart G1, based on the created planned process chart G1, process information, and the product conversion table stored in the storage unit 13, A generation conversion process for conversion is executed (step S13). That is, the conversion processing unit 18 of the control unit 14 uses the product conversion table to generate the amount of waste, intermediate, and waste generated when the work periods of the disassembly process, the intermediate generation process, and the waste generation process are determined. Convert. Specifically, the control unit 14 converts the generation amount of waste obtained from the waste generation information included in the process information of the dismantling process into the generation amount of waste using the product conversion table. The processing is executed, and the generated amount of the waste body derived by the first generation conversion process is associated as the waste body generation information in the waste body generation process. Moreover, the control part 14 performs the 2nd production | generation conversion process which converts into the production amount of an intermediate body using the product conversion table from the production amount of the waste obtained from the waste production information contained in the process information of a dismantling process. The intermediate generation amount derived by the second generation conversion process is associated as intermediate generation information in the intermediate generation step. Similarly, the control unit 14 converts the generation amount of the intermediate obtained from the intermediate generation information included in the process information of the intermediate generation step into the generation amount of the waste body using the product conversion table. The conversion process is executed, and the generation amount of the waste body derived by the third generation conversion process is associated with the waste body generation information in the waste body generation process.

  And the pile calculation part 17 of the control part 14 performs pile calculation based on the created plan process chart G1 and process information (step S14: influence calculation process). Specifically, when executing the pile calculation, the control unit 14 performs the pile calculation of the influence amount for each predetermined period based on the influence information included in the process information, thereby affecting the work period of the waste treatment work. Calculate the total amount. Further, when executing the pile calculation, the control unit 14 performs the pile calculation of the resources for each predetermined period based on the resource information included in the process information, so that the necessary resources in the work period of the waste treatment work are calculated. Calculate the total amount. Further, when executing the pile calculation, the control unit 14 performs the product generation for each predetermined period based on the generation amount of the products such as the wastes, intermediates, and wastes after the generation conversion processing included in the process information. The total amount of waste, intermediates, and waste during the work period of the waste treatment work is calculated by calculating a pile of the generated amount.

  Thereafter, the pile graph creation unit 19 of the control unit 14 creates a pile graph G2 by arranging bar graphs for each predetermined period along the time axis based on the calculation result of the pile calculation (step S15). Then, the control unit 14 displays the created planned process chart G1 and the stacked graph G2 on the display unit 12 (step S16).

  As described above, according to the configuration of the present embodiment, the control unit 14 can calculate the total amount of the influence amount by calculating the amount of influence during the work period of the waste treatment work. For this reason, when the total amount of the influence amount exceeds the specified value, it is possible to review the work process of the waste treatment work and recombine a plurality of work processes. This makes it possible to formulate a work plan in which the total amount of impact does not exceed the specified value during the work period of the waste treatment work, so that it is possible to provide a safe work plan for workers. it can.

  Moreover, according to the structure of a present Example, even if it is a case where it is a case where it produces | generates from a waste to a waste body in a waste body production | generation process, after a production | generation conversion, the control part 14 performs a 1st production | generation conversion process. Stacking calculation can be performed based on the amount of waste generated and the amount of waste generated.

  Further, according to the configuration of the present embodiment, even in the case where the intermediate is generated from the waste to the intermediate and is generated from the intermediate to the waste, the control unit 14 performs the second generation conversion process. By executing the third generation conversion process, it is possible to perform a pile calculation based on the generation amount of the waste after the generation conversion, the generation amount of the intermediate, and the generation amount of the waste body.

  Moreover, according to the structure of a present Example, the plan process table G1 and the pile graph G2 based on the plan process table G1 can be displayed on the display part 12. FIG. For this reason, the plan process chart G1 and the pile graph G2 can be displayed in association with each other.

  Moreover, according to the structure of a present Example, the time of a work process can be changed easily by simple operation of moving the Gantt bar 20. FIG. Further, since the control unit 14 can reconstruct the pile graph G2 based on the moved Gantt bar 20, it is possible to easily change the work process in the waste disposal operation while considering the pile graph G2. It becomes.

  Moreover, according to the structure of a present Example, the length of the working period of a work process can be easily changed by simple operation of expanding / contracting the Gantt bar 20. Moreover, since the control part 14 can reconstruct the pile graph G2 based on the Gantt bar 20 after expansion / contraction, it is possible to easily change the work process in the waste disposal operation while considering the pile graph G2. It becomes.

  Further, according to the configuration of the present embodiment, since the upper limit excess line L can be displayed over the work period of the waste disposal work on the pile graph G2, the calculation result of the pile calculation shows the excess line L. It is possible for the operator to easily determine whether or not the number is exceeded.

  In addition, according to the configuration of the present embodiment, the process model such as the allocation release model M1, the allocation model M2, and the release model M3 can be appropriately selected according to the work process. Can be formulated appropriately.

  Further, according to the configuration of the present embodiment, since the breakdown information according to the degree of influence is included in the process information, the control unit 14 can execute the pile calculation according to the degree of influence during the work period of the waste treatment work.

  In this embodiment, the structure can be applied to a chemical facility or a nuclear facility, but is not limited to a chemical facility or a nuclear facility, and is applicable to any structure that affects workers. May be. In this case, the influence given to the worker is, for example, a contamination amount or a dose. Further, when the structure is a chemical facility, a neutralizing agent may be added to a waste solution as waste to form an intermediate, and the intermediate may be stored in a sealed container to constitute the waste.

DESCRIPTION OF SYMBOLS 1 Work plan creation apparatus 11 Operation input part 12 Display part 13 Storage part 14 Control part 16 Planning process creation part 17 Stack calculation part 18 Conversion processing part 19 Stacking graph creation part 20 Gantt bar M1 Allocation release model M2 Allocation model M3 Release model G1 Plan Schedule G2 Stacked graph L Excess line

Claims (10)

In a work plan creation device that creates a planning schedule for waste disposal work,
The waste treatment work is composed of a plurality of work processes including a work process that affects an operator,
An operation input unit capable of inputting process information on a plurality of the work processes, and
Based on a plurality of the process information, a planned process creation unit that creates the planned process chart of the waste treatment work combining a plurality of the work processes,
The influence on the worker in the work period of the waste disposal work based on the created planned process table and the influence information on the influence on the worker of the work process included in the process information A work plan creation device comprising: a pile calculation unit for calculating piles. The plurality of work steps include a dismantling step for disassembling the structure to be waste, and a waste generating step for generating the waste by storing the waste in a storage container,
The process information related to the disassembly process includes waste generation information related to the amount of waste generated, and the process information related to the waste generation process includes waste generation information related to the amount of waste generated. Included,
A storage unit for storing a generation amount conversion table including a first conversion table for converting the generation amount of the waste into the generation amount of the waste;
Conversion that executes a first generation conversion process for converting the generated amount of waste obtained from the waste generation information into the generated amount of waste based on the generated amount conversion table stored in the storage unit A processing unit,
The conversion processing unit associates the generation amount of the waste body derived by the first generation conversion process as the waste body generation information of the waste body generation step,
The pile calculation unit is configured to generate the waste amount and the waste body during a work period of the waste treatment work based on the created planning process table, the waste generation information, and the waste body generation information. The work plan creation device according to claim 1, wherein the amount is piled up. The plurality of work steps include an intermediate production step for producing the waste as an intermediate that is in a state before becoming the waste,
The process information relating to the intermediate production step includes intermediate production information relating to the production amount of the intermediate,
The generation amount conversion table includes a second conversion table for converting the generated amount of waste into the generated amount of the intermediate, and a third conversion table for converting the generated amount of intermediate into the generated amount of the waste. Including
The conversion processing unit
Based on the generation amount conversion table stored in the storage unit, execute a second generation conversion process for converting from the generation amount of the waste obtained from the waste generation information to the generation amount of the intermediate, Performing a third generation conversion process for converting from the generated amount of the intermediate derived in the second generation conversion process to the generated amount of the waste;
The intermediate generation amount derived by the second generation conversion process is associated with the intermediate generation information in the intermediate generation step, and the waste generation amount derived by the third generation conversion process is , As the waste generation information of the waste generation step,
The pile calculation unit is configured to generate the amount of the waste in the work period of the waste treatment work based on the created planning process table, the waste generation information, the intermediate generation information, and the waste generation information. The work plan creation device according to claim 2, wherein the production amount of the intermediate and the production amount of the waste body are calculated. A display unit;
A pile graph creation unit that creates a pile graph from a calculation result that is piled up based on the planned process table and the process information;
4. The work plan creation device according to claim 1, wherein the pile graph and the planned process chart that are created are displayed on the display unit. 5. In the planned process table displayed on the display unit, a period bar indicating the length of the period of each work process is displayed,
When the period bar is selected and operated by the operation input unit, the display unit displays the period bar that has been selected and operated so as to be movable on each work process in the planned process chart.
The work plan creation device according to claim 4, wherein the pile graph creation unit newly creates the pile graph based on the period bar after movement. In the planned process table displayed on the display unit, a period bar indicating the length of the period of each work process is displayed,
When an operation related to expansion / contraction of a work period by the operation input unit is performed on the period bar, the display unit can expand / contract the operated period bar on each work process in the planned process table. Display
The work plan creation device according to claim 4 or 5, wherein the pile graph creation unit newly creates the pile graph based on the period bar after expansion and contraction.   7. The display unit according to claim 4, wherein an upper limit excess line is displayed in the pile graph over a work period of the waste treatment work. 8. Work plan creation device. The process information includes resource information related to resources required in the work process, and model information related to a process model representing the state of the resource in the work process,
As the process model, at least one process model of an allocation release model, an allocation model, and a release model is prepared,
The allocation release model is the process model that occupies a certain amount of the resource during a work period from the start to the end of the work process, and releases the resource after the work process ends.
The allocation model is a process model in which the resource increases during a work period from the start to the end of the work process, and continues to occupy the resource at the end of the work process even after the work process ends. Yes,
The release model is a process model in which the resource is reduced during a work period from the start to the end of the work process, and continues to occupy the resource at the end of the work process even after the work process is finished. The work plan creation device according to claim 1, wherein the work plan creation device is provided. The process information includes breakdown information by impact level regarding the breakdown by impact level in the work process,
The planned process creation unit creates the planned process chart of the waste treatment work combining a plurality of the work processes based on a plurality of the process information,
The work plan according to any one of claims 1 to 8, wherein the pile calculation unit executes pile calculation for each degree of influence based on the created planned process chart and the process information. Creation device. In the work plan creation method to create a planning schedule for waste disposal work,
The waste treatment work is composed of a plurality of work processes including a work process that affects an operator,
A process information acquisition process for acquiring process information on a plurality of the work processes;
Based on the plurality of acquired process information, a work plan creation process for creating the planned process table of the waste treatment work combining a plurality of the work processes;
The influence on the worker in the work period of the waste disposal work based on the created planned process table and the influence information on the influence on the worker of the work process included in the process information A work plan creation method comprising: an influence calculation step of calculating a pile of objects.

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