JP2012049334A - Display device for displaying contribution amount of carbon dioxide reduction in component mounting apparatus and method of the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display device for displaying a contribution amount of carbon dioxide reduction which explicitly displays the contribution amount of carbon dioxide reduction in a component mounting apparatus to promote global environmental protection.SOLUTION: A display device for displaying a contribution amount of carbon dioxide reduction comprises: a power consumption information acquisition part 110 acquiring information which indicates production capacity of a first component mounting apparatus and a second component mounting apparatus and information which indicates power consumption thereof; an environmental information acquisition part 130 acquiring a planned use period and a planned number of installation of the second component mounting apparatus, and an exhaust coefficient of carbon dioxide; an improvement amount calculation part 120 calculating an improvement amount of power consumption which is a difference between required power consumption when the first component mounting apparatus undertakes the production capacity of the second component mounting apparatus and the power consumption of the second component mounting apparatus; a contribution amount calculation part 140 calculating the contribution amount of carbon dioxide reduction by multiplying the improvement amount of power consumption by the planned use period, the planned number of installation and the exhaust coefficient of carbon dioxide; and a display part 150 displaying information which indicates the contribution amount of carbon dioxide reduction.

Description

  The present invention relates to a carbon dioxide reduction contribution amount display apparatus and method for displaying information related to the contribution amount to carbon dioxide reduction by a component mounting machine.

  In recent years, various efforts have been made to reduce carbon dioxide emissions to prevent global warming.

  For example, in Patent Document 1, carbon dioxide emission points according to a designated energy production method are given to individuals who do not have an energy saving system or power generation equipment, thereby actively reducing carbon dioxide to individuals. Techniques for contributing are disclosed.

  Further, for example, Patent Document 2 discloses a technique for notifying a user of how much energy saving is achieved for a hot water supply device in operation as information based on the amount of carbon dioxide reduction.

JP 2009-70083 A Japanese Patent No. 3744472

As mentioned above, carbon dioxide (hereinafter, "CO _2" also referred to.) Various efforts to reduce emissions is extensively, of course, also in the field of industrial products production of CO ₂ Measures are needed to reduce emissions.

For example, with respect to a component mounting line that produces a component mounting board on which components are mounted, it is required to reduce the amount of CO ₂ generated by the operation of equipment included in the component mounting line.

  Therefore, for example, as a part or all of the component mounting machines constituting the existing component mounting line or the newly installed component mounting line, it is conceivable to adopt a model with low power consumption per unit production.

  However, even if the functions and capabilities required for the component mounter to be used in the component mount line are limited to some extent, there are various types of component mounters that can be used, and it is adopted according to the model to be used. The number of units to be used and the period of use (lifetime) may be different.

Under these circumstances, conventionally, it is clear how much a component mounter contributes to CO ₂ reduction even if a component mounter of a certain model is considered to be used in the component mounting line. There is no simple index and its calculation means.

  An object of the present invention is to provide a carbon dioxide reduction contribution amount display device that promotes protection of the global environment by clearly showing the amount of contribution to the reduction of carbon dioxide by a component mounting machine in consideration of the above-described conventional problems. To do.

  In order to solve the above-described conventional problems, a carbon dioxide reduction contribution amount display device according to an aspect of the present invention includes information indicating the production capacity of the first component mounting machine and information indicating power consumption corresponding to the production capacity. A power consumption information acquisition unit that acquires information indicating the production capacity of the second component mounting machine that consumes less power per unit production than the first component mounting machine and information indicating the power consumption corresponding to the production capacity And an environment in which the second component mounter is installed and used at a predetermined location and the planned usage period and the planned number of units installed and the carbon dioxide emission coefficient at the predetermined location are acquired. Based on the information acquired by the information acquisition unit and the power consumption information acquisition unit, the necessary power consumption necessary for realizing the production capacity of the second component mounter using the first component mounter An improvement amount calculation that calculates power consumption and calculates a power consumption improvement amount that is a difference between the calculated required power consumption and the power consumption of the second component mounter acquired by the power consumption information acquisition unit And by multiplying the power consumption improvement amount calculated by the improvement amount calculation unit by the planned use period, the planned number of installed units, and the carbon dioxide emission coefficient acquired by the environmental information acquisition unit, A contribution amount calculation unit that calculates a carbon dioxide reduction contribution amount for the second component mounting machine; and a display unit that displays information indicating the carbon dioxide reduction contribution amount calculated by the contribution amount calculation unit.

  According to this configuration, for example, when it is planned to install one or more second component mounting machines in a predetermined place such as a component mounting factory, how much carbon dioxide is reduced based on the first component mounting machine. It is possible to calculate and display a quantitative index as to whether or not it can contribute.

  In other words, by making efforts to reduce carbon dioxide (for example, replacing the first component mounting machine with low energy efficiency with the second component mounting machine with high energy efficiency), efforts to reduce carbon dioxide are made. It is possible to clearly notify the numerical value or the like how much it can contribute to the reduction of carbon dioxide as compared with the case where it is not performed (for example, when the first component mounting machine is continuously used).

  Therefore, by designating the component mounting factory, which model contributes most to the reduction of carbon dioxide by causing the carbon dioxide reduction contribution amount display device of this aspect to acquire information on various models as, for example, the second component mounting machine. Can be easily informed. That is, it is possible to guide the production mode of the component mounting board in a direction that suppresses carbon dioxide, thereby promoting the protection of the global environment.

  Further, in the carbon dioxide reduction contribution amount display device according to one aspect of the present invention, the power consumption information acquisition unit further includes a third component mounting machine that consumes less power per unit production amount than the second component mounting machine. The information indicating the production capacity and the information indicating the power consumption corresponding to the production capacity are acquired, and the environmental information acquisition unit further includes the third component mounting machine in the predetermined place for use. The planned usage period and the planned number of installed units of the three-component mounting machine are acquired, and the improvement amount calculating unit further uses the first component mounting machine to determine the third component from the information acquired by the power consumption information acquiring unit. The required power consumption, which is the power consumption required for realizing the production capacity of the mounting machine, is calculated, and the calculated required power consumption and the third component actual acquired by the power consumption information acquisition unit are calculated. A power consumption improvement amount that is a difference from the power consumption of the machine is calculated, and the contribution amount calculation unit further calculates the power consumption improvement amount for the third component mounting machine calculated by the improvement amount calculation unit, The third component mounting is obtained by multiplying the planned use period, the planned number of installed units, and the carbon dioxide emission coefficient at the predetermined location acquired by the environmental information acquisition unit. The carbon dioxide reduction contribution amount for the machine is calculated, and the carbon dioxide reduction contribution amount display device further contributes to the carbon dioxide reduction contribution for the third component mounting machine relative to the carbon dioxide reduction contribution amount for the second component mounting machine. A contribution amount ratio calculation unit for calculating a carbon dioxide reduction contribution amount ratio indicating a ratio of the amount; and the display unit further includes a dioxide dioxide calculated by the contribution amount ratio calculation unit. It may display information indicating the elementary CO2 reductions ratio.

  According to this configuration, for example, how much the third component mounting machine, which is the model with the lowest power consumption per unit production amount among the first to third component mounting machines, can contribute to the reduction of carbon dioxide. The ratio is calculated and displayed as a ratio to the contribution amount by the second component mounting machine.

  For example, for the third component mounting machine, which is the latest model, how much it can contribute to the reduction of carbon dioxide compared to the old second component mounting machine, the first component mounting that is the model for the base year of the carbon dioxide reduction target It can be calculated and displayed as a clear value based on the machine.

  Moreover, in the carbon dioxide reduction contribution amount display device according to one aspect of the present invention, the power consumption information acquisition unit is further installed in another place different from the predetermined place, and reduces carbon dioxide in the other place. The information indicating the production capacity of the first A component mounting machine, which is the model used in the target base year, and the information indicating the power consumption corresponding to the production capacity are acquired, and the first component mounting machine The model used in the base year of the carbon dioxide reduction target at the location, the second component mounting machine consumes less power per unit production than the first A component mounting machine, and the environmental information acquisition unit Further, when the second component mounter is installed and used in the other place, the expected use period of the second component mounter and the planned number of installation, and the carbon dioxide emission coefficient in the other place Take The improvement amount calculation unit is further necessary when realizing the production capacity of the second component mounting machine using the first A component mounting machine from the information acquired by the power consumption information acquisition unit. Calculating the required power consumption, which is power consumption, and the difference between the calculated required power consumption and the power consumption of the second component mounting machine acquired by the power consumption information acquisition unit, A power consumption improvement amount of the second component mounter with respect to the A component mounter is calculated, and the contribution amount calculation unit is further based on the first A component mounter calculated by the improvement amount calculation unit. In the amount of power consumption improvement of the second component mounting machine, the planned usage period and the planned number of installed units in the other location of the second component mounting machine acquired by the environmental information acquisition unit, and the other Before in place By multiplying by the carbon dioxide emission coefficient, a carbon dioxide reduction contribution amount for the second component mounting machine at the other location is calculated, and the carbon dioxide reduction contribution amount display device further includes the first component at the predetermined location. A determination unit configured to determine one of a large value of the carbon dioxide reduction contribution amount for the two-component mounting machine and the carbon dioxide reduction contribution amount for the second component mounting machine in the other place, and the display unit Further, information indicating the predetermined place or the other place corresponding to the one determined by the determination unit may be displayed.

  According to this configuration, for example, the second component mounter having a high energy-saving effect can be calculated by numerical calculation to determine where it is most effective for reducing carbon dioxide in a plurality of component mounting factories in different regions. It can be judged accurately. As a result, the amount of contribution to carbon dioxide reduction by introducing the second component mounting machine can be maximized.

  The carbon dioxide reduction contribution amount display device according to one aspect of the present invention includes (a) first information indicating power consumption per predetermined unit of the first component mounting machine, and (b) the first component mounting machine. Second information indicating the power consumption per unit of the second component mounting machine that consumes less power per unit production than (c) consumption per unit production than the second component mounting machine A power consumption information acquisition unit that acquires third information indicating the power consumption per predetermined unit of the third component mounting machine with low power, a value indicated in the first information, and a value indicated in the second information A contribution amount ratio calculation unit for calculating a carbon dioxide reduction contribution amount ratio indicating a ratio of a difference between the value indicated in the first information and the value indicated in the third information with respect to the difference between the difference and the contribution amount ratio calculation Ratio of contribution to carbon dioxide reduction calculated by the department And a display unit that displays.

  According to this configuration, for example, how much the third component mounting machine, which is the model with the lowest power consumption per unit production amount among the first to third component mounting machines, can contribute to the reduction of carbon dioxide. Is calculated and displayed as a ratio to the contribution amount by the second component mounting machine.

  In this aspect, a value per predetermined unit is calculated and displayed as a value indicating the ratio. For example, how much the contribution amount to carbon dioxide reduction when the third component mounting machine mounts one chip is larger than the contribution amount to carbon dioxide reduction when the second component mounting machine mounts one chip. It is clearly displayed.

  Moreover, this invention can also be implement | achieved as a method including each process by the process part which comprises the carbon dioxide reduction contribution amount display apparatus which concerns on one of the said aspects.

  Furthermore, the present invention is realized as a program for causing a computer to execute each process by the processing unit constituting the carbon dioxide reduction contribution display device according to any one of the above aspects, and a record in which the program is recorded It can also be realized as a medium. The program can be distributed via a transmission medium such as the Internet or a recording medium such as a DVD.

  According to the present invention, it is possible to clearly show the amount of contribution to the reduction of dioxide by the component mounter. Thus, for example, when a new component mounter is introduced by replacing or adding to a component mounting factory, the designer of the factory clearly clarifies which model of the component mounter can most contribute to CO2 reduction. I can know. That is, the present invention can facilitate actions for reducing carbon dioxide, and as a result, the promotion of global environmental protection is achieved.

FIG. 1 is a block diagram showing a functional configuration of a carbon dioxide reduction contribution amount display device according to an embodiment of the present invention. FIG. 2 is a flowchart showing a basic processing flow of the carbon dioxide reduction contribution display device according to the embodiment of the present invention. FIG. 3 is a diagram illustrating an example of power consumption information acquired by the carbon dioxide reduction contribution display device according to the embodiment of the present invention. FIG. 4 is a diagram showing a display example of the power consumption improvement amount in the embodiment of the present invention. FIG. 5 is a diagram showing a display example of the carbon dioxide reduction contribution amount in the embodiment of the present invention. FIG. 6 is a diagram showing an example of the data configuration of the carbon dioxide emission coefficient table in the embodiment of the present invention. FIG. 7 is a diagram showing an example of the display screen when the two display screens shown in FIGS. 4 and 5 are integrated into one. FIG. 8 is a diagram showing an example of a first display screen for calculating the carbon dioxide reduction contribution ratio in the embodiment of the present invention. FIG. 9 is a diagram showing an example of a second display screen for calculating the carbon dioxide reduction contribution ratio in the embodiment of the present invention. FIG. 10 is a diagram showing a display example of the carbon dioxide reduction contribution amount ratio per predetermined unit in the embodiment of the present invention. FIG. 11 is a block diagram illustrating a functional configuration of a carbon dioxide reduction contribution amount display device having a determination unit that determines an optimal installation location of a component mounting machine. FIG. 12 is a diagram showing an example of an information input screen for determining the optimum installation location of the model to be determined in the embodiment of the present invention. FIG. 13 is a diagram showing an example of a display screen showing the determination result of the optimum installation location of the model to be determined in the embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing a functional configuration of a carbon dioxide reduction contribution amount display device according to an embodiment of the present invention.

  The carbon dioxide reduction contribution amount display device 100 according to the embodiment is based on information on the power consumption of various component mounters and the carbon dioxide emission coefficient at the place where the component mounters are to be installed. It is a device that calculates and displays the carbon dioxide reduction contribution.

  Specifically, the carbon dioxide reduction contribution amount display device 100 includes an improvement amount calculation unit 120, an environment information acquisition unit 130, a contribution amount calculation unit 140, a contribution amount ratio calculation unit 160, a display unit 150, and an input Unit 180 and storage unit 181.

  The power consumption information acquisition unit 110 is a processing unit that acquires information regarding power consumption of various component mounters. The improvement amount calculation unit 120 is a processing unit that calculates an improvement amount of power consumption. The environment information acquisition unit 130 is a processing unit that acquires information such as a planned installation location of the component mounter.

  The contribution amount calculation unit 140 is a processing unit that calculates a carbon dioxide reduction contribution amount. The contribution amount ratio calculation unit 160 is a processing unit that calculates the ratio of the carbon dioxide reduction contribution amount between different models. The display unit 150 is a display device that displays information such as the calculated carbon dioxide reduction contribution amount.

  The input unit 180 is a component that receives input of various types of information necessary for information processing in the carbon dioxide reduction contribution amount display device 100, and is realized by an input device such as a keyboard and a mouse. The input unit 180 may be realized by a network interface that receives input of various types of information from an external device via a network.

  The storage unit 181 is a storage device that can store various types of information necessary for calculating the carbon dioxide reduction contribution amount.

  The power consumption information acquisition unit 110 and the environment information acquisition unit 130 acquire necessary information from at least one of the input unit 180 and the storage unit 181.

  The carbon dioxide reduction contribution amount display device 100 is realized by, for example, a PC (personal computer) as shown in FIG. For example, when a CPU (Central Processing Unit) of a PC executes a program stored in a memory, various information stored in an HDD (Hard disk drive) is read, and various arithmetic processes are performed using the read information. Do. Thereby, processing such as calculation of a carbon dioxide reduction contribution amount is realized.

  FIG. 2 is a flowchart showing a basic processing flow of the carbon dioxide reduction contribution display device 100 according to the embodiment of the present invention.

  A basic processing flow of the carbon dioxide reduction contribution amount display device 100 in the embodiment will be described with reference to FIG.

  The power consumption information acquisition unit 110 includes information indicating the production capacity of the first component mounting machine, information indicating the power consumption corresponding to the production capacity, and power consumption per unit production less than that of the first component mounting machine. Information indicating the production capacity of the two-component mounting machine and information indicating the power consumption corresponding to the production capacity are acquired (S10).

  The environment information acquisition unit 130 is configured to use the second component mounting machine at a predetermined location for use, a planned number of units to be installed, a carbon dioxide emission coefficient at the predetermined location (hereinafter referred to as “emission factor”). (S20).

  The amount-of-improvement calculation unit 120 is a required power consumption that is a power consumption necessary for realizing the production capacity of the second component mounter using the first component mounter from the information acquired by the power consumption information acquisition unit 110. Is calculated. The improvement amount calculation unit 120 further calculates a power consumption improvement amount that is a difference between the calculated required power consumption and the power consumption of the second component mounting machine acquired by the power consumption information acquisition unit 110 (S30).

  The contribution amount calculation unit 140 multiplies the power consumption improvement amount calculated by the improvement amount calculation unit 120 by the planned use period, the planned number of installed units, and the emission factor acquired by the environment information acquisition unit 130, thereby obtaining the second component. A carbon dioxide reduction contribution amount for the mounting machine is calculated (S40).

  The display unit 150 displays information indicating the carbon dioxide reduction contribution amount calculated by the contribution amount calculation unit 140 (S50).

  Next, the basic processing flow shown in FIG. 2 will be described in detail with reference to FIGS.

  FIG. 3 is a diagram illustrating an example of power consumption information acquired by the carbon dioxide reduction contribution display device 100 according to the embodiment of the present invention.

  The power consumption information illustrated in FIG. 3 is input to the carbon dioxide reduction contribution amount display device 100 via the input unit 180 and stored in the storage unit 181, for example.

  As shown in FIG. 3, the power consumption information in the present embodiment indicates the model name, the corresponding year, the production capacity, the power consumption, and the power consumption per one chip mounted for various component mounters. Contains information.

  For example, according to the power consumption information, C-05M is a component mounter produced in FY2005 (or a component mounter used for manufacturing a component mount board in FY2005), and 65 per hour. It has been shown that it has a production capacity capable of mounting 1,000 chips on a substrate.

  Moreover, it turns out that the power consumption (rated power consumption) corresponding to the said production capacity of C-05M is 3.50 kWh. Further, when the power consumption per one chip of C-05M (power consumption necessary for mounting one chip on the substrate by C-05M: 3.50 kWh / 65,000) is 100, for example, It can be seen that the power consumption per one chip of C-08M corresponding to fiscal 2008 is 87.

  For example, the power consumption information acquisition unit 110 reads information included in the power consumption information illustrated in FIG. 3 from the storage unit 181 and transmits the information to the improvement amount calculation unit 120.

  The improvement amount calculation unit 120 uses the information received from the power consumption information acquisition unit 110 to calculate the power consumption improvement amount for a certain model. The calculated power consumption improvement amount is displayed on the display unit 150, for example.

  FIG. 4 is a diagram showing a display example of the power consumption improvement amount in the embodiment of the present invention.

  For example, by operating the input unit 180 by the operator of the carbon dioxide reduction contribution amount display device 100, C-05M is selected as the model of the component mounter that is the first component mounter serving as a reference for calculating the power consumption improvement amount. Assume that C-08M is selected as the model of the component mounter that is the second component mounter to be calculated.

  In this case, the improvement amount calculation unit 120 calculates the required power consumption, which is the power consumption required when realizing the production capacity of C-08M using C-05M, and calculates the required power consumption and C A power consumption improvement amount that is a difference from the power consumption of −08M is calculated. Specifically, the improvement amount calculation unit 120 first calculates the required power consumption by the following (Equation 1).

  3.50 kWh × (110,000 / 65,000) = 5.92 kWh (Formula 1)

  Next, the improvement amount calculation unit 120 calculates the power consumption improvement amount according to the following (Equation 2) using 5.92 kWh that is the required power consumption calculated in (Equation 1).

  5.92 kWh-5.14 kWh = 0.78 kWh (Formula 2)

  As a result, as shown in FIG. 4, the power consumption improvement amount “0.78 kWh” per C-08M is displayed on the display unit 150.

  That is, the power consumption when C-05M exhibits the same production capacity as C-08M is 5.92 kWh. However, since C-08M requires 5.14 kWh, C-08M clearly shows that an improvement in power consumption of 0.78 kWh is expected in comparison with C-05M.

  After that, for example, when the button image displayed as “Next” is selected by the operator, the screen shifts to an input screen for the expected number of C-08M to be installed, etc. After necessary information is input, carbon dioxide reduction The amount of contribution is calculated and displayed.

  FIG. 5 is a diagram showing a display example of the carbon dioxide reduction contribution amount in the embodiment of the present invention.

  For example, it is assumed that “10” is input as the planned use year and “120” is input as the planned installation number by the operation of the input unit 180 by the operator. Further, it is assumed that “Region [1]” is selected as the planned installation location.

  In this case, the environment information acquisition unit 130 acquires the input planned usage years and the planned number of installed units, and the emission coefficient corresponding to “region [1]” is stored in the storage unit 181, for example. Obtained from the carbon emission factor table.

  FIG. 6 is a diagram showing an example of the data configuration of the carbon dioxide emission coefficient table in the embodiment of the present invention. “Region [1]” or the like in the table is information for identifying a category associated with each emission coefficient, such as a region name or a country name, but is a specific factory name or the like. Also good.

  As shown in FIG. 6, the emission factor for each region is recorded in the carbon dioxide emission factor table. For example, it can be seen that the emission factor corresponding to “region [1]” is “0.000410”. .

  Here, in the present embodiment, the carbon dioxide reduction contribution amount R is calculated by the following (Equation 3).

  R = Power consumption improvement x Planned years of use x Planned number of installed units x Emission factor (Formula 3)

  That is, the carbon dioxide reduction contribution amount R is an index indicating how much it can contribute to the reduction of carbon dioxide, and is an index that increases in proportion to the size of each of the four variables included in (Equation 3). is there.

  Therefore, the environment information acquisition unit 130 calculates the carbon dioxide reduction contribution amount R = 0.3838 ton (t) for C-08M by the following (Equation 4).

  R = 0.78 × 10 × 120 × 0.000410 = 0.3838t (Formula 4)

  Note that the carbon dioxide reduction contribution amount R is multiplied by, for example, the planned operating days per year of the planned usage years and the planned operating hours per day, thereby increasing the carbon dioxide corresponding to the contribution amount. A planned total amount of reduction is calculated.

  In the above example, the calculation method of the carbon dioxide reduction contribution amount in the case of introducing a specific model component mounting machine in a certain factory has been described. For example, a certain model in a country belonging to a certain region The amount of carbon dioxide reduction contribution when a plurality of component mounting machines are installed can be calculated in the same manner.

  For example, it is assumed that 3,000 units of C-08M are installed in a country belonging to the region [2], and the lifetime of C-08M is assumed to be 10 years. In other words, it is assumed that the expected number of years of use in (Formula 3) is 10, and the planned number of installed units is 3,000.

  In this case, according to (Equation 5), the carbon dioxide reduction contribution amount R = 11.3396t for C-08M when C-05M is used as a reference is calculated.

  R = 0.78 × 10 × 3000 × 0.000487 = 11.3396 t (Formula 5)

  Thus, for example, when 2005 is used as a reference, the numerical value indicates how much the 2008 product (C-08M) contributed to the reduction of carbon dioxide in the region.

  In this way, the carbon dioxide reduction contribution amount display device 100 according to the present embodiment shows how much contribution can be made to the reduction of carbon dioxide when it is assumed that a certain type of component mounting machine is installed at a predetermined location. It can be clearly shown as a numerical value.

  Thereby, for example, when any one of a plurality of models is installed at a predetermined location, it can be clearly determined which model can be installed to contribute to the reduction of carbon dioxide. In addition, when a specific model is installed in any of a plurality of factories, it can be clearly determined whether a component mounter of that model is installed in which factory can contribute to the reduction of carbon dioxide.

  That is, the carbon dioxide reduction contribution amount display device 100 creates an environment in which the amount of carbon dioxide emission in the production of the component mounting board can be easily suppressed, and as a result, promotion of global environment protection is achieved.

  In addition, even after the model is actually installed at the predetermined location, it is possible to clearly indicate how much (or how much) it can contribute to the reduction of carbon dioxide by numerical values.

  Further, the two display screens shown in FIGS. 4 and 5 may be integrated into one display screen as shown in FIG. 7, for example.

  Moreover, the carbon dioxide reduction contribution amount display device 100 of the present embodiment can further calculate and display the ratio of the carbon dioxide reduction contribution amount between different models.

  FIG. 8 is a diagram illustrating an example of a first display screen for calculating the carbon dioxide reduction contribution ratio.

  As shown in FIG. 8, for example, the operator selects C-05M as the model of the first component mounting machine that is a reference for calculating the carbon dioxide reduction contribution ratio, and the third component mounting machine to be calculated is selected. Assume that C-12M is selected as the model and C-08M is selected as the model of the second component mounting machine.

  In this case, for example, when the button image displayed as “Calculate power consumption improvement amount” is selected by the operator, the improvement amount calculation unit 120 performs C-05M and C-12M via the power consumption information acquisition unit 110. And the power consumption information about C-08M is acquired. The improvement amount calculation unit 120 further calculates a power consumption improvement amount for C-12M and C-08M with reference to C-05M. The specific calculation procedure is the same as the procedure exemplified in the above (Formula 1) and (Formula 2).

  As a result, as illustrated in FIG. 8, the power consumption improvement amount “1.51 kWh” for C-12M and the power consumption improvement amount “0.78 kWh” for C-08M are displayed on the display unit 150. .

After that, for example, when the button image displayed as “next” is selected by the operator, the screen transitions to an input screen for the planned installation number of C-12M and C-08M. After the necessary information is input on this input screen, for example, when a button image displayed as “Calculate CO ₂ reduction contribution ratio” is selected by the operator, the carbon dioxide reduction contribution for each of the two models. These ratios are calculated and displayed.

  FIG. 9 is a diagram illustrating an example of a second display screen for calculating the carbon dioxide reduction contribution ratio.

  As shown in FIG. 9, it is assumed that the planned usage years and the planned number of installed units are input for each of C-12M and C-08M, and information indicating these planned installation locations is input.

  In this case, the contribution amount calculation unit 140 first calculates the carbon dioxide reduction contribution amount for each of C-12M and C-08M using the above (Equation 3).

  As a result, the carbon dioxide reduction contribution amount for C-12M is calculated as “1.3001t”, and the carbon dioxide reduction contribution amount for C-08M is calculated as “0.3838t”.

  The contribution amount ratio calculation unit 160 calculates the ratio of the carbon dioxide reduction contribution amount for C-12M to the carbon dioxide reduction contribution amount for C-08M from the calculation result by the contribution amount calculation unit 140.

  As a result, “3.39” obtained from “1.3001 / 0.3838” is displayed on the display unit 150 as information indicating the ratio.

  Thereby, for example, in the case of 2005 as a reference, the carbon dioxide reduction contribution of the product (C-12M) in FY 2012 is compared with the carbon dioxide reduction contribution amount in the region of the product (C-08M) in FY 2008. A ratio indicating how large the reduction contribution amount is shown.

  In the example shown in FIG. 9, simply speaking, when the product (C-05M) in 2005 is used as a standard, the factory belonging to the region [1] is the product (C-12M) in 2012. It can be seen that it can contribute to the reduction of carbon dioxide more than 3 times the product in 2008 (C-08M).

  In addition, when C-08M has actually been introduced into the factory, it is only necessary to input the actual value in the column of at least the planned installation number and the planned installation location for C-08M.

  In the above example, the calculation method of the carbon dioxide reduction contribution ratio when considering the introduction of two types of component mounters in one factory has been explained. For example, different models may be used in different factories. The carbon dioxide reduction contribution ratio when introduced can also be obtained. That is, the ratio of the contribution amount when the model B is introduced into the factory B to the contribution amount when the model A is introduced into the factory A can be obtained.

  Also, for example, the carbon dioxide reduction contribution ratio when a plurality of a specific type of component mounting machine is installed in a country belonging to a certain region can be calculated in the same manner.

  For example, in 2008, it is assumed that 3,000 C-08Ms have been installed in countries belonging to the region [2], and the lifetime of C-08M is assumed to be 10 years. That is, it is assumed that the expected number of years of use in (Formula 3) is 10, and the planned number of installed units is 3,000.

  Further, it is assumed that 5,000 C-12Ms are scheduled to be installed in the country belonging to the region [2] in 2012, and the lifetime of C-12M is assumed to be 14 years. That is, it is assumed that the planned number of years of use in (Formula 3) is 14, and the planned number of installed units is 5,000.

  In this case, the carbon dioxide reduction contribution amount R for C-08M when C-05M is used as a reference is calculated as 11.396 t as shown in (Equation 5) above.

  Further, the carbon dioxide reduction contribution amount R for C-12M when C-05M is used as a reference is calculated as 51.476 t by the following (Formula 6).

  R = 1.51 × 14 × 5000 × 0.000487 = 51.476 t (Formula 6)

  The contribution amount ratio calculation unit 160 outputs “4.56” obtained from “51.476 / 11.396” as the calculation result as the ratio of these contribution amounts.

  From this calculation result, in simple terms, when the 2005 product (C-05M) is used as a reference, the 2012 product (C-12M) is installed in the country belonging to the region [2]. It can be seen that it can contribute to the reduction of carbon dioxide by 4.5 times or more compared with the already finished product (C-08M) in 2008.

  As described above, the carbon dioxide reduction contribution amount display device 100 according to the present embodiment shows how much contribution can be made to the reduction of carbon dioxide in a component mounting machine of a certain model. It can be clearly shown as a ratio to the contribution amount of other types of component mounting machines having a large size. This also creates an environment in which the amount of carbon dioxide emission in the production of component mounting boards can be easily suppressed, and as a result, the promotion of global environmental protection is achieved.

  Note that the two display screens shown in FIGS. 8 and 9 may be integrated into one display screen.

  Further, in FIG. 9, the carbon dioxide reduction contribution ratio corresponding to the total amount (year of use × number of used units) of each of the two models is displayed using the years of use and the number of units of the two types of component mounting machines.

  However, the carbon dioxide reduction contribution amount display device 100 of the present embodiment can also calculate and display the carbon dioxide reduction contribution amount ratio per predetermined unit.

  FIG. 10 is a diagram illustrating a display example of the carbon dioxide reduction contribution ratio per predetermined unit.

  As shown in FIG. 10, for example, the operator selects C-05M as a model for calculating the carbon dioxide reduction contribution ratio, and C-12M and C-08M as models to be calculated. Assume that is selected.

In this case, for example, when the operator selects a button image that displays “CO ₂ reduction contribution amount ratio calculation”, the contribution amount ratio calculation unit 160 uses the power consumption per one chip mounted for each of these three models ( The index is acquired from, for example, power consumption information (see FIG. 3) stored in the storage unit 181.

  The contribution amount ratio calculation unit 160 further calculates a carbon dioxide reduction contribution amount ratio Rr = 2.69 per one chip mounted according to (Equation 7) below.

  Rr = (100−65) / (100−87) = 2.69 (Formula 7)

  This calculation result clearly shows that when C-05M is used as a reference, C-12M can exert a contribution to carbon dioxide reduction of about 2.7 times that of C-08M per chip.

  As described above, the carbon dioxide reduction contribution amount display device 100 according to the present embodiment shows how much contribution can be made to the reduction of carbon dioxide in a component mounting machine of a certain model. It is a ratio with respect to the amount of contribution about the component mounting machine of the other big model, Comprising: It can show clearly as a ratio per predetermined unit. This also creates an environment in which the amount of carbon dioxide emission in the production of component mounting boards can be easily suppressed, and as a result, the promotion of global environmental protection is achieved.

  In the above example, the power consumption per chip is used as the power consumption per predetermined unit. However, the power consumption per other unit such as the power consumption per mounting line or the power consumption per substrate is calculated. It may be used to calculate the carbon dioxide reduction contribution ratio.

  As described above, the carbon dioxide reduction contribution amount display device 100 according to the present embodiment has a function of clearly showing the contribution amount to the reduction of dioxide by the component mounting machine. For this reason, it is possible to determine the most advantageous introduction destination from the viewpoint of reducing CO 2 from the introduction destination candidates of a certain type of component mounting machine.

  For example, when a component mounting machine of a certain model is introduced into any one of a plurality of factories, it can be determined to which factory the component mounting machine of the model is to be introduced. Specifically, it is possible to identify a factory that contributes most to the reduction of dioxide.

  FIG. 11 is a block diagram illustrating a functional configuration of the carbon dioxide reduction contribution amount display device 100 having a determination unit that determines an optimal installation location of the component mounter.

  The carbon dioxide reduction contribution amount display device 100 shown in FIG. 11 includes a determination unit 170 in addition to the components included in the carbon dioxide reduction contribution amount display device 100 shown in FIG.

  The determination unit 170 is a processing unit that determines, for a certain model, an installation location that maximizes the amount of contribution to CO2 reduction from a plurality of installation location candidates.

  FIG. 12 is a diagram illustrating an example of an information input screen for determining the optimum installation location of the model to be determined.

  As shown in FIG. 12, for example, the operator selects C-12M as the model to be determined, and in the installation location candidates, the area [2] as the predetermined area and the area [4] as the other area Assume that is selected.

  In addition, when the operator installs and uses the C-12M in the area [2], the planned use years “14” and the planned installation number “160” are input, and the C-12M is installed in the area [4]. Assuming that the planned use years “10” and the planned installation number “120” are input.

  In this case, for example, the power consumption information acquisition unit 110 stores information indicating the model used in the base year of the carbon dioxide reduction target in each of the region [2] and the region [4] as the input unit 180 or the storage unit 181. Get from.

  For example, if the base year of the carbon dioxide reduction target in the region [2] is 2006, the model “C-XM” that is the first component mounting machine used in the region [2] in 2006 is acquired. . Similarly, the model “C-YM”, which is the first A component mounting machine, is acquired for the region [4]. The power consumption information acquisition unit 110 further acquires power consumption information for each of C-XM and C-YM from, for example, the storage unit 181.

  Note that reference model information in which such a region and a reference model in the region are associated may be stored in the storage unit 181 in advance. In this case, the power consumption information acquisition unit 110 can acquire information indicating the reference model corresponding to the area designated by the operator by referring to the reference model information.

  Further, the power consumption information acquisition unit 110 may acquire information indicating a reference model corresponding to an area designated by the operator by searching a database via a network, for example.

  As described above, when various types of information are input to the carbon dioxide reduction contribution amount display device 100 and, for example, a button image displayed as “recommended installation location determination” is selected by the operator, as shown in FIG. Is displayed on the display unit 150.

  FIG. 13 is a diagram illustrating an example of a display screen showing the determination result of the optimum installation location of the model to be determined.

  As shown in FIG. 13, the improvement amount calculation unit 120 calculates and displays the power consumption improvement amount per unit of C-12M based on C-XM as the first component mounting machine as “1.62 kWh”. Is done. Further, the improvement amount calculation unit 120 calculates and displays “1.83 kWh” as the power consumption improvement amount per C-12M based on C-YM as the first A component mounting machine.

  The contribution amount calculation unit 140 uses the power consumption improvement amount, the planned years of use, the planned number of installed units, and the emission factor for each of these two regions, and contributes to the reduction of carbon dioxide for C-12M in each of the two regions. Is calculated.

  Specifically, the contribution amount calculating unit 140 calculates the carbon dioxide reduction contribution amount R [2] = 1.672t for C-12M in the region [2] by the following (Equation 8), and the following ( From Equation 9), the carbon dioxide reduction contribution amount R [4] = 1.6250t for C-12M in the region [4] is calculated.

R [2] = 1.62 × 14 × 160 × 0.000487 = 1.67272t (Formula 8)
R [4] = 1.83 × 10 × 120 × 0.000740 = 1.6250t (Formula 9)

  The determination unit 170 determines one of the large values of R [2] and R [4]. In this example, since R [2]> R [4], the determination unit 170 determines that R [2] is larger than the other, and as a result, the display unit 150 corresponds to R [2]. Information indicating the area [2] to be displayed is displayed as a recommended installation location.

  That is, when C-12M is installed in any place, the place where the amount of contribution to the reduction of carbon dioxide can be maximized is clearly shown.

  In the above example, one of the two installation locations that has a large contribution to the reduction of carbon dioxide is identified from the two possible installation locations. However, an installation location that maximizes the amount of contribution to the reduction of carbon dioxide may be identified from among three or more installation location candidates.

  There may be a plurality of models to be determined. For example, when the model A with the smallest power consumption per unit production and the second model B with the smallest power consumption per unit production are set as the determination targets, the carbon dioxide reduction contribution amount display device 100 displays these two items. While changing the combination of one model and two installation site candidates selected from a plurality of installation site candidates, the sum of contributions to the reduction of carbon dioxide for each combination is obtained. The carbon dioxide reduction contribution amount display device 100 further specifies a combination having the maximum contribution amount from these combinations.

  In this case, for example, it is possible to maximize the amount of contribution to the reduction of carbon dioxide by these two models while effectively using the latest model A and the old model B. That is, according to the carbon dioxide reduction contribution amount display device 100, a component mounting machine that is distributed as a second-hand product can be effectively used to contribute to the reduction of carbon dioxide.

  Further, in the present embodiment, the calculation of the carbon dioxide reduction contribution amount is performed by the calculation formula shown in (Formula 3).

  However, for example, when another coefficient is required for conversion from the power consumption to the amount of carbon dioxide, the other coefficient may be added to the calculation formula shown in (Expression 3).

  For example, it is assumed that a certain type of component mounter is installed in a factory belonging to the region [1], and that the factory uses half of the power used by solar power generation. In this case, the right side of (Expression 3) is further multiplied by “0.5” so that the emission coefficient in the region [1] is halved.

  In other words, even in the same area where the emission factor is the same, if the power supply situation is different at each installation location, use a factor (power supply factor) that fills these differences, so that each installation The amount of contribution to carbon dioxide reduction at the site is required accurately.

  The present invention can provide a carbon dioxide reduction contribution amount display apparatus and method for promoting the protection of the global environment by clearly showing the contribution amount to the reduction of carbon dioxide by the component mounting machine. Therefore, the present invention is useful as a device that supports the coexistence of the promotion of global environmental protection and the efficient production of component mounting boards.

DESCRIPTION OF SYMBOLS 100 Carbon dioxide reduction contribution display apparatus 110 Power consumption information acquisition part 120 Improvement amount calculation part 130 Environmental information acquisition part 140 Contribution amount calculation part 150 Display part 160 Contribution amount ratio calculation part 170 Determination part 180 Input part 181 Storage part

Claims (6)

Information indicating the production capacity of the first component mounting machine, information indicating the power consumption corresponding to the production capacity, and the production capacity of the second component mounting machine with less power consumption per unit production than the first component mounting machine A power consumption information acquisition unit that acquires information indicating power consumption and information indicating power consumption corresponding to the production capacity;
Environment information acquisition for acquiring the expected usage period and the planned number of installed units of the second component mounting machine when the second component mounting machine is installed and used in a predetermined location, and the carbon dioxide emission coefficient at the predetermined location And
From the information acquired by the power consumption information acquisition unit, to calculate the required power consumption that is the power consumption required when realizing the production capacity of the second component mounting machine using the first component mounting machine, And an improvement amount calculation unit that calculates a power consumption improvement amount that is a difference between the calculated required power consumption and the power consumption of the second component mounter acquired by the power consumption information acquisition unit;
By multiplying the power consumption improvement amount calculated by the improvement amount calculation unit by the planned use period, the planned number of installed units, and the carbon dioxide emission coefficient acquired by the environmental information acquisition unit, the second A contribution amount calculation unit for calculating a carbon dioxide reduction contribution amount for a component mounting machine;
A carbon dioxide reduction contribution amount display device comprising: a display unit that displays information indicating the carbon dioxide reduction contribution amount calculated by the contribution amount calculation unit. The power consumption information acquisition unit further includes information indicating the production capacity of the third component mounting machine that consumes less power per unit production than the second component mounting machine, and information indicating the power consumption corresponding to the production capacity. Acquired,
The environmental information acquisition unit further acquires a planned use period and a planned installation number of the third component mounting machine when the third component mounting machine is installed and used at the predetermined location.
The improvement amount calculation unit further uses the power consumption necessary for realizing the production capacity of the third component mounter using the first component mounter from the information acquired by the power consumption information acquisition unit. Calculate a required power consumption, and calculate a power consumption improvement amount that is a difference between the calculated required power consumption and the power consumption of the third component mounting machine acquired by the power consumption information acquisition unit. ,
The contribution amount calculation unit further relates to the power consumption improvement amount for the third component mounter calculated by the improvement amount calculation unit, and the environment information acquisition unit acquires the third component mounter for the third component mounter. By multiplying the planned use period, the planned number of installed units, and the carbon dioxide emission coefficient at the predetermined location, a carbon dioxide reduction contribution amount for the third component mounting machine is calculated,
The carbon dioxide reduction contribution amount display device further includes:
A contribution amount ratio calculating unit for calculating a carbon dioxide reduction contribution amount ratio indicating a ratio of a carbon dioxide reduction contribution amount for the third component mounting machine to a carbon dioxide reduction contribution amount for the second component mounting machine;
The carbon dioxide reduction contribution amount display device according to claim 1, wherein the display unit further displays information indicating a carbon dioxide reduction contribution amount ratio calculated by the contribution amount ratio calculation unit. The power consumption information acquisition unit is further installed in another place different from the predetermined place, and the first A component mounting machine which is a model used in the reference year of the carbon dioxide reduction target in the other place Obtaining information indicating production capacity and information indicating power consumption corresponding to the production capacity;
The first component mounting machine is a model used in the base year of the carbon dioxide reduction target in the predetermined place,
The second component mounter consumes less power per unit production than the first A component mounter,
The environmental information acquisition unit further includes a planned use period and a planned number of the second component mounter when the second component mounter is installed and used in the other location, and a dioxide dioxide in the other location. Get carbon emission factor and
The improvement amount calculation unit further requires power consumption when realizing the production capacity of the second component mounter using the first A component mounter from the information acquired by the power consumption information acquisition unit. The first A component that is the difference between the calculated required power consumption and the power consumption of the second component mounting machine acquired by the power consumption information acquisition unit Calculate the power consumption improvement amount of the second component mounting machine based on the mounting machine,
The contribution amount calculation unit is further acquired by the environment information acquisition unit in the power consumption improvement amount of the second component mounter based on the first A component mounter calculated by the improvement amount calculation unit. In addition, the second component in the other location is obtained by multiplying the planned use period and the planned number of installed units in the other location of the second component mounting machine by the carbon dioxide emission coefficient in the other location. Calculate the carbon dioxide reduction contribution amount for the mounting machine,
The carbon dioxide reduction contribution amount display device further includes a carbon dioxide reduction contribution amount for the second component mounting machine at the predetermined location, and a carbon dioxide reduction contribution amount for the second component mounting machine at the other location. A determination unit for determining one of the large values of
The carbon dioxide reduction contribution display device according to claim 1, wherein the display unit further displays information indicating the predetermined location or the other location corresponding to the one determined by the determination unit. (A) first information indicating power consumption per predetermined unit of the first component mounter; and (b) the second component mounter having less power consumption per unit production than the first component mounter. Second information indicating power consumption per predetermined unit; and (c) power consumption per predetermined unit of the third component mounting machine that consumes less power per unit production than the second component mounting machine. A power consumption information acquisition unit for acquiring third information to be shown;
Carbon dioxide reduction contribution indicating the ratio of the difference between the value indicated by the first information and the value indicated by the third information to the difference between the value indicated by the first information and the value indicated by the second information A contribution ratio calculation unit for calculating a ratio,
A carbon dioxide reduction contribution amount display device comprising: a display unit that displays the carbon dioxide reduction contribution amount ratio calculated by the contribution amount ratio calculation unit. Information indicating the production capacity of the first component mounting machine, information indicating the power consumption corresponding to the production capacity, and the production capacity of the second component mounting machine with less power consumption per unit production than the first component mounting machine Power consumption information acquisition step for acquiring information indicating power consumption and information indicating power consumption corresponding to the production capacity;
Environment information acquisition for acquiring the expected usage period and the planned number of installed units of the second component mounting machine when the second component mounting machine is installed and used in a predetermined location, and the carbon dioxide emission coefficient at the predetermined location Steps,
From the information acquired in the power consumption information acquisition step, calculate the required power consumption that is the power consumption required when realizing the production capacity of the second component mounting machine using the first component mounting machine, And an improvement amount calculation step for calculating a power consumption improvement amount that is a difference between the calculated required power consumption and the power consumption of the second component mounter acquired in the power consumption information acquisition step;
By multiplying the power consumption improvement amount calculated in the improvement amount calculation step by the planned use period, the planned number of installed units, and the carbon dioxide emission coefficient acquired in the environmental information acquisition step, the second A contribution amount calculating step for calculating a carbon dioxide reduction contribution amount for the component mounting machine;
A display step of displaying information indicating the carbon dioxide reduction contribution calculated in the contribution calculation step. Information indicating the production capacity of the first component mounting machine, information indicating the power consumption corresponding to the production capacity, and the production capacity of the second component mounting machine with less power consumption per unit production than the first component mounting machine Power consumption information acquisition step for acquiring information indicating power consumption and information indicating power consumption corresponding to the production capacity;
Environment information acquisition for acquiring the expected usage period and the planned number of installed units of the second component mounting machine when the second component mounting machine is installed and used in a predetermined location, and the carbon dioxide emission coefficient at the predetermined location Steps,
From the information acquired in the power consumption information acquisition step, calculate the required power consumption that is the power consumption required when realizing the production capacity of the second component mounting machine using the first component mounting machine, And an improvement amount calculation step for calculating a power consumption improvement amount that is a difference between the calculated required power consumption and the power consumption of the second component mounter acquired in the power consumption information acquisition step;
By multiplying the power consumption improvement amount calculated in the improvement amount calculation step by the planned use period, the planned number of installed units, and the carbon dioxide emission coefficient acquired in the environmental information acquisition step, the second A contribution amount calculating step for calculating a carbon dioxide reduction contribution amount for the component mounting machine;
A program for causing a computer to execute a display step of causing a display unit to display information indicating a carbon dioxide reduction contribution amount calculated in the contribution amount calculation step.

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