JP2021002103A - Equipment selection system of high-voltage power receiving equipment - Google Patents

Abstract

To provide an equipment selection system of high-voltage power receiving equipment capable of automatically selecting appropriate internal equipment according to transformer capacity.SOLUTION: An equipment selection system of high-voltage power receiving equipment mounts a transformer and internal equipment that needs to be changed depending on the capacity of a transformer, in a housing. This system comprises storage means 32, calculation means 31, and output means 50. The storage means 32 comprises a housing database 33, a transformer database 34, and an internal equipment database 35. The calculation means 31 comprises transformer selection means 40 to select the transformer mounted in the housing from the transformer database 34 and internal equipment selection means 41 to automatically select the internal equipment depending on the capacity of the selected transformer from the internal equipment database 35.SELECTED DRAWING: Figure 2

Description

Cubicles is an abbreviation for cubicle-type high-voltage power receiving equipment, which is a metal housing equipped with high-voltage power receiving equipment. Since transformers and other internal equipment with fixed mounting positions can be stored as standard products inside the housing, it is easy to assemble in the factory and rearrange the internal equipment according to the customer's request. There is an advantage that there is.

High-voltage power receiving equipment is used as power receiving equipment in factories and buildings, but the capacity of the lamp transformer and power transformer required for each factory and building differs, and the volume of the transformer also fluctuates according to the transformer capacity. Therefore, a selection system has been developed that can simultaneously select the optimum housing by selecting a lamp transformer and a power transformer so that the housing can be changed immediately in response to a change in the transformer at the design stage, and has been proposed as Patent Document 1. ing.

Japanese Patent No. 5724097

However, in addition to these transformers, the main circuit breaker provided on the primary side of the transformer, the secondary switch provided on the secondary side of the transformer, and the phase advance for power factor adjustment are inside the housing of the high-voltage power receiving equipment. Various internal devices such as capacitors are provided, and these internal devices also need to be changed according to the capacity of the transformer. In the selection system of Patent Document 1, the designer must individually select the internal equipment corresponding to the capacity of the transformer, and there is a possibility that an appropriate internal equipment may not be selected.

Therefore, an object of the present invention is to provide a device selection system for high-voltage power receiving equipment that can automatically select an appropriate internal device according to the transformer capacity of the high-voltage power receiving equipment.

The present invention, which has been made to solve the above problems, is a device selection system for high-voltage power receiving equipment in which a transformer and an internal device that needs to be changed depending on the capacity of the transformer are mounted in a housing, and is a storage means and calculation. A means and an output means are provided, the storage means includes a housing database, a transformer database, and an internal device database, and the arithmetic means is a transformer selection means for selecting a transformer mounted on the housing from the transformer database. It is equipped with an internal device selection means that automatically selects an internal device according to the capacity of the selected transformer from the internal device database, and the output means displays the internal device selected by the calculation means. To do.

As for the internal device selection means, the internal device selection means selects the internal device that is classified for each transformer and stored in the internal device database, or selects the internal device required for the selected transformer by calculation from the internal device database. It is preferable that the database is used.

It is preferable that the calculation means includes a device changing means capable of changing the automatically selected internal device. Further, it is preferable that the calculation means includes a housing selection means for selecting a housing on which the selected transformer and internal devices can be mounted from the housing database. Further, each database includes weight data, and it is preferable that the calculation means include a weight calculation means for calculating the total weight of the selected housing, transformer, and internal device. Further, the housing database preferably includes a combination database showing the relationship between the combination of the mountable lamp transformer and the power transformer and the housing type.

By using the equipment selection system for the high-voltage power receiving equipment of the present invention, the internal equipment can be automatically selected according to the capacity of the transformer, so that a design error of the high-voltage power receiving equipment can be eliminated.

It is sectional drawing which shows typically the structure of the high voltage power receiving equipment. It is explanatory drawing which shows the equipment selection system of the high voltage power receiving equipment of embodiment. It is a figure which shows the contents of the combination database. It is a flowchart of the equipment selection system of the high voltage power receiving equipment of this invention. It is a figure which shows the input screen. It is a figure which shows the input screen in the state which the case model number is not input. It is a figure which shows the input screen in the state which selected the capacity of a lamp transformer and a power transformer. It is a figure which shows the input screen in the state which the internal device is automatically selected. It is a figure which shows the input screen in the state which the housing which can accommodate the selected transformer and internal equipment is automatically selected. It is a figure which shows the input screen of the state immediately after inputting the chassis model number. It is a figure which shows the input screen in the state which the lamp transformer is selected.

Hereinafter, embodiments of the present invention will be described. FIG. 1 is a cross-sectional view schematically showing the structure of a high-voltage power receiving facility, in which 10 is a metal housing, 11 is a lamp transformer, 12 is a power transformer, 13 is a main circuit breaker, 14 is a phase-advancing capacitor, and 15 Is a secondary switch and 16 is a ventilation fan.

The high-voltage power receiving equipment reduces the voltage of 6.6 kV high-voltage power drawn through the main circuit breaker 13 by the electric light transformer 11 and the power transformer 12, and supplies power to the load through the secondary switch 15 connected to the secondary side of the transformer. It is a facility to do.

If the load is a power load such as an induction motor, a phase delay of the current with respect to the voltage occurs when the induction motor is operated, the power factor decreases, and the voltage drop and the power loss increase. The phase-advancing capacitor 14 is inserted into the electric circuit in order to improve this phase lag, and the power factor to be improved differs depending on the capacitance of the capacitor. However, if the capacitance of the phase-advancing capacitor 14 is increased too much, the phase advances too much and the power factor also decreases. Therefore, it is necessary to select a phase-advancing capacitor 14 having an appropriate capacity according to the capacity of the transformer and the load.

The main circuit breaker 13 is a device that automatically cuts off the electric circuit when an overcurrent or a short-circuit current occurs in the electric circuit. Also, when there is a short circuit accident on the load side, it is cut off to avoid spreading to other loads. When the transformer capacity is 300 kVA or less, LBS (high voltage switch) is used, and when it exceeds 300 kVA, VCB (vacuum breaker) is used.

The secondary switch 15 cuts off the overcurrent flowing on the secondary side of the transformer. The capacity also needs to be set according to the capacity of the transformer.

The ventilation fan 16 is a facility that suppresses an increase in the internal temperature of the housing 10 due to heat generation of the lamp transformer 11, the power transformer 12, or other internal equipment. As the capacity of the transformer increases, the amount of heat generated also increases, so that the ventilation fan has a large air volume. It is necessary to use or install multiple ventilation fans. In this way, internal equipment other than the transformer needs to be selected according to the capacity of the transformer.

FIG. 2 shows an example of the equipment selection system for the high-voltage power receiving equipment of the present invention. As shown in the figure, in the example of FIG. 2, a plurality of terminals 20 are connected to the server 30 via a communication line such as the Internet. The terminal 20 is operated by a customer or an operator, and includes a display means 21 such as a display and an input means 22 such as a keyboard and a mouse. Further, the server 30 includes a calculation means 31 such as a CPU and a storage means 32 such as a hard disk. However, these device configurations are not essential requirements of the present invention, and known devices may be appropriately selected and used. Further, although an embodiment in which the system of the present invention is mounted on the server 30 will be described below, it is not always necessary to connect the terminal 20 and the server 30 via a communication line, and the system of the present invention is mounted on the terminal computer. It is also possible.

A chassis database 33, a transformer database 34, an internal device database 35, and the like are registered in the storage means 32 of the server 30. A large number of housings are registered in the housing database 33 with items such as housing model number, housing type, housing size, housing weight, and price. Further, as shown in FIG. 3, the chassis database 33 includes the combination database 36. This is a database showing the relationship between the combination of the lamp transformer 11 and the power transformer 12 that can be mounted and the housing type.

In the combination database 36 of FIG. 3, the lamp transformer is classified into those without a primary side PC (primary cutout) and those with a primary side PC, and further classified by capacity. Power transformers are also classified by capacity. Then, from the capacity of the lamp transformer and the capacity of the power transformer, the housing type for storing them is shown. For example, if the lamp transformer has a transformer capacity of 10 kVA without a primary PC and the transformer capacity of the power transformer is 50 kVA or less, a type A housing may be selected, but the transformer capacity of the power transformer should be 75 kVA. For example, it can be seen that a type B housing must be selected. As the transformer capacity increases, the transformer size also increases, so it is necessary to gradually increase the size of the housing from A type to F type.

The transformer model number, transformer type, transformer size, transformer weight, price, and the like are registered in the transformer database 34. Similarly, in the internal device database 35, for various internal devices, items according to the model number, type, size, price, weight, and internal device (in the case of the ventilation fan 16, the air volume and power consumption, etc., in the case of the secondary switch 15). The breaking capacity, rated working voltage, etc.) are registered. As the internal equipment, as shown above, the main circuit breaker 13 connected to the primary side of the transformer, the secondary switch 15 connected to the secondary side of the transformer, and the transformer for suppressing the temperature rise due to heat generation. The ventilation fan 16 is changed depending on the capacity of the transformer. The present invention is not limited to the above embodiment, and may be any internal device that is changed according to the capacity of the transformer.

The calculation means 31 of the server 30 is provided with a housing selection means 38, a transformer selection means 40, and an internal device selection means 41. The housing selection means 38 is a means for selecting a housing from the housing database 33, and when a housing model number is input, it only reads out the housing data of that model number. However, it is possible to calculate and select the corresponding housing from the housing type and housing size. In addition, after the transformer and internal devices have been selected, it is possible to select a housing that can store them.

The transformer selection means 40 is a means for selecting a transformer to be mounted on the housing 10 from the transformer database 34, and the relationship between the housing and the transformer is selected with reference to the combination database 36. The specific procedure will be described later.

The internal device selection means 41 has a function of automatically selecting an internal device according to the transformer capacity selected by the transformer selection means 40 from the internal device database 35. The internal devices may be classified and registered in the internal device database 35 for each transformer, and when the transformer is determined, the internal device suitable for the transformer may be automatically selected, or the internal devices may be classified for each transformer. Instead, it may be registered and the internal equipment required for the selected transformer may be selected by calculation. Here, as a method of classifying and registering internal devices for each transformer in the internal device database 35 and automatically selecting an internal device suitable for the transformer when the transformer is determined, for example, a ventilation fan 16 is selected. In this case, the maximum required air volume is set to 〇 m ³ / min in the transformer database 34, and an approximate ventilation fan is selected from the internal equipment database 35 with a maximum air volume of 〇 m ³ / min or more. On the other hand, as a method of registering the internal devices without classifying them for each transformer and selecting the internal devices required for the selected transformer by calculation, for example, when selecting the secondary switch 15, the transformer The secondary side current value is calculated from the capacity of the above by a calculation formula, and the quantity and capacity of the secondary switch corresponding to the secondary side current value derived from the internal device database 35 by calculation are calculated. As for the method of selecting the internal device, it is also possible to set whether the method of selecting from the database or the method of performing the calculation is performed depending on the internal device.

However, since it may be desired to change the automatically selected internal device to another internal device for some reason, the calculation means 31 of the server 30 includes a device changing means 42 capable of changing the automatically selected internal device. The device changing means 42 makes it possible to change the internal device selected by the pull-down operation, but the internal device that cannot be physically changed such as the capacity of the main circuit breaker 13 cannot be selected by the pull-down operation. It is preferable to do so or to issue a warning. In addition to the pull-down operation, a check box may be selected, or a device list may be displayed and selected for operation.

In addition, the calculation means 31 of the server 30 is provided with the weight calculation means 43. This is a means for calculating the total weight of the housing, transformer, and internal equipment after the selection is completed. For this purpose, weight data is registered in each database. Since the total weight of the high-voltage power receiving equipment includes the wiring weight and the fixture weight, the wiring weight and the fixture weight are calculated and added according to the combination of the selected housing, transformer, and internal device. The total weight of the high-voltage power receiving equipment is an item necessary for determining the installation location.

After all the selections are completed as described above, the output means 50 of the server 30 outputs the outline drawing, the wiring diagram, and the layout drawing, and displays them on the display means 21 of the terminal 20. The weight is also displayed on this drawing. As a result, the designer can grasp the shape, size, and weight, and can confirm whether or not the product can be installed at the planned installation location. After grasping whether it can be installed at the planned installation location, it is possible to carry out detailed design such as the position of the door, the presence or absence of packing, the quantity and material of anchor bolts, and the arrangement of internal equipment. If the price is also displayed at the same time, it can be compared with the budget amount.

FIG. 4 shows a flowchart of the equipment selection system for the high-voltage power receiving equipment of the present invention. First, in step 1, the housing model number is input. In the embodiment of FIG. 2, the input is input from the input means 22 of the terminal 20. When the designer inputs the housing model number, the housing is selected from the housing database 33. Next, when the capacity and type of the lamp transformer and the power transformer mounted on the housing are input in step 2, the transformer selection means 40 selects the corresponding transformer from the transformer database 34. The calculation means 31 determines whether or not the combination of the housing and the transformer selected at this time is permitted by referring to the combination database 36, and issues a warning if it is not permitted. If the combination of the selected housing and the transformer is appropriate, the internal device selection means 41 automatically selects the internal device according to the transformer capacity selected by the transformer selection means 40 from the internal device database 35.

On the other hand, if the designer does not know the housing model number or does not enter the housing model number because the appropriate housing is unknown, the transformer capacity is input in step 6, and the transformer selection means 40 is used from the transformer database 34. Select the corresponding transformer. Next, in step 7, the internal device selection means 41 automatically selects the internal device according to the transformer capacity selected by the transformer selection means 40 from the internal device database 35. Next, the housing selection means 38 automatically selects a housing suitable for accommodating the selected transformer and internal devices from the housing database 33. Also at this time, the combination database 36 is referred to.

After the housing, transformer, and internal equipment are selected in this way, the internal equipment is changed in step 4 if necessary, and if the housing needs to be changed accordingly, the appropriate housing is changed in step 5. The body is automatically selected. After that, the output means 50 outputs a drawing, and the shape and weight of the high-voltage power receiving equipment are displayed on the terminal 20.

Next, a specific example of the input screen will be described.
FIG. 5 shows a state in which the housing model number and the capacities of the lamp transformer and the power transformer are input on the input screen. Based on these inputs, the internal device selection means automatically selects and displays internal devices such as phase-advancing capacitors, main circuit breakers, lamp transformer switches, power transformer switches, and ventilation fans. If you are satisfied with this content, click the OK button to complete the design.

FIG. 6 shows a state in which the housing model number is not input. In this state, the capacities of the lamp transformer and the power transformer can be freely selected by pull-down input. FIG. 7 shows a state in which the capacities of the lamp transformer and the power transformer are selected. When the transformer capacity is selected in this way, the internal equipment is automatically selected and displayed as shown in FIG. After that, the housing that can accommodate the selected transformer and internal equipment is automatically selected and displayed as shown in FIG. If you are satisfied with this content, click the OK button to complete the design.

FIG. 10 shows a state immediately after the housing model number is input. As shown in FIG. 6, the transformer can be freely selected without inputting the housing model number, but in FIG. 10, the selection of the lamp transformer is limited to 10 to 30 kVA. When the lamp transformer is selected, the selection of the power transformer is limited to 20 to 30 kVA as shown in FIG. If you are dissatisfied with this limitation, re-enter the chassis model number, or select the capacity of the lamp transformer and power transformer without entering the chassis model number as shown in Fig. 6, and then automatically configure the chassis. It should be selected.

In either case, once the capacities of the lamp transformer and power transformer are determined, the internal equipment is automatically selected, so the appropriate internal equipment is automatically selected according to the transformer capacity, regardless of the skill of the designer. Can be selected for.

10 Housing 11 Electric light transformer 12 Power transformer 13 Main circuit breaker 14 Phase-advancing capacitor 15 Secondary switch 16 Ventilation fan 20 Terminal 21 Display means 22 Input means 30 Server 31 Computational means 32 Storage means 33 Housing database 34 Transformer database 35 Internal equipment Database 36 Combination database 38 Housing selection means 40 Transformer selection means 41 Internal device selection means 42 Device change means 43 Weight calculation means 50 Output means

Claims (6)

It is a device selection system for high-voltage power receiving equipment equipped with a transformer and internal devices that need to be changed depending on the capacity of the transformer in the housing.
It is provided with a storage means, a calculation means, and an output means.
The storage means includes a chassis database, a trans database, and an internal device database.
The calculation means includes a transformer selection means for selecting the transformer mounted on the housing from the transformer database and an internal device selection means for automatically selecting the internal device according to the capacity of the selected transformer from the internal device database.
The output means is a device selection system for high-voltage power receiving equipment, which is characterized by displaying the internal devices selected by the calculation means. The internal device selection means is characterized in that the internal devices classified for each transformer and stored in the internal device database are selected, or the internal devices required for the selected transformer are selected by calculation from the internal device database. The device selection system for high-voltage power receiving equipment according to claim 1. The device selection system for high-voltage power receiving equipment according to claim 2, wherein the calculation means includes a device changing means capable of changing an automatically selected internal device. The high-voltage power receiving equipment according to any one of claims 1 to 3, wherein the calculation means includes a housing selection means for selecting a housing on which a selected transformer and internal devices can be mounted from a housing database. Equipment selection system. The high voltage according to any one of claims 1 to 4, wherein each database includes weight data, and the calculation means includes a weight calculation means for calculating the total weight of the selected housing, transformer, and internal device. Equipment selection system for power receiving equipment. The high-voltage power receiving equipment according to any one of claims 1 to 5, wherein the housing database includes a combination database of a combination of a lamp transformer and a power transformer that can be mounted and a combination database showing the relationship with the housing type. Equipment selection system.