JPH07105275A - Capacity distribution setting system - Google Patents

Abstract

PURPOSE:To provide an interactive information system for making operation efficient when facilities and persons are assigned to production sections classified by plural quality groups and customer groups at the time of production planning. CONSTITUTION:A load value information graph generating means 3 and a capacity information graph generating means 4 display a bar graph of load value information and a step-formed graph of distributed capacity values by the production sections while setting the load values on the longitudinal axes and the production sections on the lateral axes. Further, a capacity difference value graph generating means 11 displays the difference between the reference value of the total of the capacities and the total of distributed capacities which is calculated by a capacity difference value calculating means 10. A graph coordinate input means 6 directly receives inputs on the load value and capacity graphs, and a capacity line information extracting means 7 and a production- section classified capacity value setting means 8 distributes and sets the capacity values according to the inputs, and also displays the load values and capacity graphs on which newly set capacity values are reflected and redisplay a recalculated capacity difference value.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a capacity allocation setting method, and in particular, a reference value for a total value of the ability such as the number of man-hours and the number of persons has been determined, and while referring to the value, allowance of excess and deficiency with the reference value The present invention relates to a capacity allocation setting method for capacity allocation according to production categories such as product types.

[0002]

2. Description of the Related Art A conventional capacity allocation setting method will be described in detail with reference to the drawings. FIG. 7 is a table for capacity distribution showing a conventional example. Conventionally, the standard value of the load value, the capacity value, and the total value of the capacity values is displayed as a numerical table on this table, and the set capacity value is input as a number while watching this.
Further, a method of inputting absolute coordinates on a graph and converting the absolute coordinate values into logical coordinates on the graph as shown in Japanese Patent Laid-Open No. 62-58379 has been applied to capacity allocation setting.

[0003]

In the conventional capacity allocation setting method based on the above-mentioned table, the relationship between the load value and the capacity value and the relationship between the capacity value and the capacity reference total value must be read from a number table, and the relationship can be visually confirmed. I could not capture the quantity relationship. In addition, even if the method of inputting absolute coordinates on a graph and converting the absolute coordinate values into logical coordinates on the graph as shown in JP-A-62-58379 is applied to capacity allocation setting, the setting is made. It was not possible to clearly indicate to the user the excess or deficiency between the specified ability value and the total ability reference value.

[0004]

A capacity distribution setting method according to a first aspect of the present invention is a load value information storage means for storing load value information which is a target of capacity distribution calculated in advance, and a product type group or a customer. Capacity value storage means for storing capacity values distributed to production areas classified by groups, load value information on the vertical axis and production classification on the horizontal axis, and load value information graph for bar graph Regarding production means and production means-based capacity value graphing means for superimposing and displaying the production classification-based capacity values as a capacity line on a bar graph in a staircase graph, the maximum value of the graph axis, the scale width and the graph display content The graph information storage means for storing the graph information, the graph coordinate input means for taking in the coordinates designated on the graph, and the ability line to be the ability distribution target are displayed on the graph by the coordinate means When the specified coordinates are specified, which capacity line on which production line axis is specified is extracted from the graph information, and the newly allocated capacity value is specified by the graph coordinate input means on the graph. When you do, calculate the setting ability value based on the specified coordinates and graph information,
The production category-specific capacity value setting means for storing in the production category-specific capacity value storage means as the capacity of the production category to which the capacity line extracted by the capacity line information extraction means, and the preset capacity standard total value Capacity reference total value storage means for storing, capacity difference value calculation means for calculating the difference between the capacity reference total value and the total capacity value stored in the production category capacity value storage means, and capacity difference value And a capability difference value graphing unit for graphing the capability difference value calculated by the calculating unit.

The capacity allocation setting method of the second invention is
The capacity line information extracted by the capacity line information extracting means and the capacity value equal to the load value of the production section to which the capacity line specified by the graph information belongs are automatically set as the set capacity value in the capacity value storage means for each production section. It is configured by including production-class-specific capacity value setting means having a function of storing.

[0006]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the capacity distribution setting system of the present invention.

As shown in FIG. 1, the capacity distribution setting method according to the present embodiment has a load for storing load value information a, which is pre-calculated and classified according to production categories such as product types to be subjected to capacity distribution. Value information storage means 1, production category capacity value storage means 2 for storing production category capacity value information b distributed to production categories, load value information a on the vertical axis, and production category on the horizontal axis. , Load value information graphing means 3 for converting the load value graphing information c into a bar graph at the same time as obtaining the coordinates on the graph corresponding to the load value for each production category and outputting it as the load value graphing information c; The production value-by-production capacity value information b is obtained as coordinates on the graph corresponding to the capacity value by each production area, and is output as the production area-by-production capacity value graphing information d. And as a performance line Production value-specific capacity value graphing means 4 for displaying as a load value capacity value graph by superimposing it on a bar graph, and the maximum value of the graph axis of the load value capacity value graph, the scale width, and the load value graph. Information c,
Graph information storage means 5 for storing the graph information e regarding the production value-based capacity value graphing information d, and graph coordinate input means 6 for taking in the coordinate information f designated on the graph.
From the graph information e, when the worker specifies the capacity line to be capacity-allocated on the graph by the graph coordinate input means 6, which capacity line on which production division axis the specified coordinate specifies. Ability line information extracting means 7 for extracting
And when a capacity value to be newly allocated is specified by the graph coordinate input means 6 on the graph, a set production classification capacity value g is calculated based on the specified coordinate information f and the graph information e,
Production classification capacity value setting means 8 for storing in the production classification capacity value storage means 2, capacity reference total value storage means 9 for storing a preset capacity reference total value h, and Capacity difference value calculating means 10 for calculating the difference between the capacity reference total value h and the sum of the capacity value information b for each production category stored in the capacity value storage means 2 for each production category, and the capacity difference value computing means Ability difference value i calculated by 10
And a capability difference value graphing means 11 for converting the above into a capability difference value graph.

FIG. 2 is a load value capability graph showing an example of a graph display in this embodiment. B1 to B4 are bar graphs of the load value information a, B5 is a graph of the capacity value information b by production section as a capacity line in a staircase graph, and P1 is a mouse cursor for pointing coordinates. .

FIG. 3 is a capability difference value graph showing an example of a graph display in this embodiment, and corresponds to FIG.

FIG. 4 is a load value capability graph showing an example of a graph display in this embodiment. B6 to B9 are bar graphs of the load value information a, B10 are graphs of the production classification capacity value information b as a capacity line in a staircase graph, and P2 is a mouse cursor for pointing coordinates. .

FIG. 5 is a capability difference value graph showing an example of a graph display in this embodiment, and corresponds to FIG.

FIG. 6 is a flow chart showing an example of the operation.

First, the load value information graphing means 3 takes the load value information a, and the horizontal axis shows the production divisions for each product group or customer group, and the load value information for each horizontal axis is displayed as a bar graph (step S1). ), The production value-by-production capacity graph means 4 draws the production value-by-production capacity value information b on the bar graph as a capacity line in a staircase graph (step S2) and the load value capacity value graph shown in FIG. Is displayed. At this time, the maximum value of the graph axis, the scale step size, the load value graphing information c, and the graph information e related to the production-classified capacity value graphing information d are stored in the graph information storage means 5. Further, the capacity difference value calculating means 10 calculates the sum of the capacity reference total value h stored in the capacity reference total value storage means 9 and the sum of the production classification capacity value information b stored in the production classification capacity value storage means 2. The difference is calculated (step S3), the calculated capacity difference value i is graphed by the capacity difference value graphing means 11, and the capacity difference value graph shown in FIG. 3 is displayed (step S4). On the graph of FIG. 2, when the operator designates the coordinates of the ability line for which the operator wants to set the ability with the mouse cursor P1 and the setting values, the graph coordinate input means 6 designates the ability line as the ability allocation target and the new ability allocation value. The specified capacity distribution value is calculated by the production classification capacity value setting means 8, and the distribution capacity is set again in the production classification capacity value storage means 2. The load value capacity value graph is redrawn for the capacity value information b for each production category that has been reset (step S2). After that, steps S2 to S5 are repeated.

While looking at the load value capacity graph, the worker
Perform capacity allocation setting work. For example, in FIG. 2, the fact that the capacity of the product group C is insufficient compared to the actual load value is read in a graph, and the performance line B5 corresponding to the product group C is designated by the graph coordinate input means 6 on this graph. Then, raise this to the desired ability value and reset the allocation. By this operation, the load value capacity graph of FIG. 2 is shown in FIG.
3, the difference between the new production classification-based capacity value information b and the capacity reference total value h is recalculated, and the capacity difference value graph of FIG. 3 is redrawn as shown in FIG. Repeat the above operation to set the desired ability distribution. During the adjustment, there may be insufficient conversion between the total of the set capacity values and the total capacity reference value, and as a result of the adjustment, the set capacity value, the sum of the set capacity values, and the total capacity reference value are obtained.

[0016]

As described above, the capacity distribution setting method of the present invention displays load value information and distribution capacity values in the form of a graph, and the total value of capacity values set in real time and the standard of the total capacity value. By displaying the difference with the value in a graph, you can visually grasp these relationships, and you can directly specify the new setting ability value on the graph, so you can visually set the ability value distribution with a simple operation. effective.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a capacity distribution setting system of the present invention.

FIG. 2 is a load value capability value graph displayed in the present embodiment.

FIG. 3 is a graph of a capacity difference value displayed in the present embodiment.

FIG. 4 is a load value capability value graph displayed in this embodiment.

FIG. 5 is a graph of a capacity difference value to be displayed in this embodiment.

FIG. 6 is a flowchart showing an example of an operation in the capacity distribution setting method of the present embodiment.

FIG. 7 is a table for conventional capacity allocation.

[Explanation of symbols]

1 load value information storage means 2 production classification capacity value storage means 3 load value information graphing means 4 production classification capacity value graphing means 5 graph information storage means 6 graph coordinate input means 7 performance line information extraction means 8 production classification Ability value setting means 9 Ability reference total value storage means 10 Ability difference value calculating means 11 Ability difference value graphing means a Load value information b Ability value information for each production category c A load value graphical information d A capability value graphical information for each production category e Graph information f Coordinate information g Set production category capacity value h Capacity standard sum value i Capacity difference value j Capacity line information B1, B2, B3, B4, B6, B7, B8, B9
Load value bar graph B5, B10 Performance line P1, P2 Mouse cursor

Claims (2)

[Claims] 1. A load value information storage unit for storing load value information which is a target of capacity distribution calculated in advance, and a capacity value distributed to production divisions distinguished by product type groups and customer groups. Capacity value storage means for each production category, load value information on the vertical axis, production category on the horizontal axis, load value information graphing means for making a bar graph,
Production value capacity value graphing means for superimposing and displaying the capacity value according to production capacity on the bar graph as a capacity line in a staircase graph, and graph information regarding the maximum value of the graph axis, the graduation width and the graph display content Which stores the graph information storage means, the graph coordinate input means for taking in the coordinates specified on the graph, and the capacity line to be the capacity distribution target when the specified coordinates are specified on the graph by the graph coordinate input means. Capacity line information extraction means for extracting from the graph information which capacity line on the production division axis is specified, and the specified coordinates and the graph when the newly allocated capacity value is specified by the graph coordinate input means on the graph. The set capacity value is calculated based on the information, and the production area is defined as the capacity of the production section to which the capacity line extracted by the capacity line information extraction means belongs. Production category-specific capacity value setting means for storing in another capacity value storage means, capacity reference total value storage means for storing a preset capacity reference total value, the capacity reference total value and the production A capacity difference value calculating means for calculating a difference from the total capacity value stored in the classification capacity value storing means, and a capacity difference value for graphing the capacity difference value calculated by the capacity difference value calculating means. A capacity distribution setting method comprising: a graphing means. 2. The capacity line information extracted by the capacity line information extracting means and a capacity value equal to the load value of the production division to which the capacity line designated from the graph information belongs are automatically set as the capacity values. 2. The capacity allocation setting method according to claim 1, further comprising the production classification-specific capacity value setting means having a function of storing in the production classification-specific capacity value storage means.