CN112541203B - Electrical design method and electrical design system - Google Patents

Abstract

The invention provides an electrical design method and an electrical design system, wherein the electrical design method comprises the steps of directly obtaining project design parameters according to project requirements; selecting a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, and combining the cabinets to form a cabinet combination design scheme; generating project electrical design data according to the cabinet body combination design scheme; the accurate calculation is not required to be carried out according to each cabinet group unit of each item, and the matched control loop scheme and cabinet body scheme are directly selected according to the technical parameters of the electrical equipment, so that the control loops and cabinet groups of each electrical equipment are designed each time, the workload is reduced, and the working efficiency is improved. In addition, by reading the project electrical design data, an electrical single line diagram or/and an electrical schematic diagram is generated; therefore, the working efficiency is improved, and the operation difficulty is reduced.

Description

Electrical design method and electrical design system

Technical Field

The present invention relates to the field of electrical control design, and in particular, to an electrical design method and an electrical design system.

Background

Along with popularization of electrical drawing software such as EPLAN software, an electrical engineer is more and more convenient and quick in designing an electrical drawing, but a traditional design thought still needs to be manually drawn one by one through the EPLAN software, so that repeated work inevitably takes a great deal of time and energy, and the engineer adopts a purely manual mode to design, so that the requirement on a designer is high.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present invention is to provide an electrical design method and an electrical design system, which are used for solving the problems of large drawing workload and non-intuitive cabinet group layout of the existing electrical design.

To achieve the above and other related objects, the present invention provides an electrical design method, comprising: acquiring project design parameters; selecting a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, and combining the cabinets to form a cabinet combination design scheme; generating project electrical design data according to the cabinet body combination design scheme; and reading the project electrical design data to generate an electrical single line diagram or/and an electrical schematic diagram.

Optionally, the project design parameters include: the number of electrical devices and the technical parameters of the electrical devices.

Optionally, the electrical design method further includes: establishing a control loop library, performing digital processing on the control loop library, generating a plurality of groups of control loop schemes and storing the control loop schemes in the standard database; and establishing a cabinet body library, performing digital processing on the cabinet body library, generating a plurality of groups of cabinet body schemes and storing the cabinet body schemes in the standard database.

Optionally, the selecting a control loop scheme and a cabinet scheme in the standard database according to the project design parameters, and combining the cabinets to form a cabinet combined design scheme includes:

processing the project design parameters, and selecting the control loop scheme according to the processing result; obtaining a cabinet group planning table according to the control loop scheme and the cabinet body scheme, and generating load calculation data according to the cabinet group planning table; and forming a cabinet body combination design scheme according to the control loop scheme and the cabinet group planning table.

Optionally, the electrical design method includes: and selecting the cabinet body scheme according to the dragging of the cabinet group planning table, and selecting the control loop scheme according to the dragging of the load calculation data.

Optionally, each group of cabinet schemes comprises: cabinet scheme number, cabinet space data, cabinet interface data.

Optionally, each set of the control loop schemes includes: the control loop scheme number, the schematic diagram information of the control loop, the wiring diagram information of the control loop, the interface data of the control loop, the space data of the control loop, the index list of electric components and features.

Optionally, the generating project electrical design data according to the cabinet combination design scheme includes: matching the project design parameters, the control loop scheme and the cabinet scheme to generate project electrical design data: the project electrical design data comprise interface data of a cabinet body combination design scheme and electrical drawing information.

The invention also provides an electrical design system comprising: the information acquisition module is used for acquiring project design parameters; the processing module is used for selecting a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, combining the cabinets to form a cabinet combined design scheme, and generating project electrical design data according to the cabinet combined design scheme; and the drawing generation module is used for reading the project electrical design data and generating an electrical single line diagram or/and an electrical schematic diagram.

Optionally, the electrical design system further comprises: the standard database module is used for generating and storing a plurality of groups of control loop schemes according to the control loop library; and generating and storing a plurality of groups of control loop schemes according to the control loop library.

Optionally, the project design parameters include: the number of electrical devices and the technical parameters of the electrical devices.

Optionally, the processing module includes: the control loop processing unit is used for processing the project design parameters and selecting the control loop scheme according to the processing result; the cabinet body processing unit is used for obtaining a cabinet group planning table according to the control loop scheme and the cabinet body scheme and generating load calculation data according to the cabinet group planning table; and forming a cabinet body combination design scheme according to the control loop scheme and the cabinet group planning table.

Optionally, the cabinet scheme includes: cabinet scheme number, cabinet space data, cabinet interface data.

Optionally, each set of the control loop schemes includes: the control loop scheme number, the schematic diagram information of the control loop, the wiring diagram information of the control loop, the interface data of the control loop, the space data of the control loop, the index list of electric components and features.

Optionally, the processing module further includes: the matching unit is used for matching the project design parameters, the control loop scheme and the cabinet scheme to generate project electrical design data: the project electrical design data comprise interface data of a cabinet body combination design scheme and electrical drawing information.

As described above, according to the electrical design method and the electrical design system provided by the invention, project design parameters are directly obtained according to project requirements; selecting a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, and combining the cabinets to form a cabinet combination design scheme; the accurate calculation is not required to be carried out according to each cabinet group unit of each item, and the matched control loop scheme and cabinet body scheme are directly selected according to the technical parameters of the electrical equipment, so that the control loops and cabinet groups of each electrical equipment are designed each time, the workload is reduced, and the working efficiency is improved. In addition, according to the cabinet body combination design scheme, project electrical design data are generated; generating an electric single line diagram or/and an electric schematic diagram by reading the project electric design data; therefore, the working efficiency is improved, and the operation difficulty is reduced.

Drawings

FIG. 1 is a flow chart of an electrical design method according to an embodiment of the invention.

Fig. 2 is a flowchart of an electrical design method according to another embodiment of the invention.

Fig. 3 is a diagram illustrating an example of a cabinet assembly design of an electrical design method of a ceiling heating furnace according to an embodiment of the present invention.

Fig. 4 is a block diagram of an electrical design system according to an embodiment of the present invention.

Fig. 5 is a schematic hardware structure of a terminal device according to an embodiment.

Fig. 6 is a schematic hardware structure of a terminal device according to another embodiment.

Description of element reference numerals

Information acquisition module 10, processing module 20, drawing generation module 30

Detailed Description

Other advantages and effects of the present invention will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present invention with reference to specific examples. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict.

1-6, The basic concepts of the present invention are illustrated by way of example only, and the components related to the present invention are not drawn according to the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complex.

Referring to fig. 1, to achieve the above and other related objects, the present invention provides an electrical design method, comprising:

S10: acquiring project design parameters;

S20: selecting a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, and combining the cabinets to form a cabinet combination design scheme;

s30: generating project electrical design data according to the cabinet body combination design scheme;

S40: and reading the project electrical design data to generate an electrical single line diagram or/and an electrical schematic diagram.

In certain embodiments, the project design parameters include: the number of electrical devices and the technical parameters of the electrical devices. It will be appreciated that the individual items may each be presented in the form of a table, with each item parameter including the number of electrical devices required for the item, the number of individual electrical devices, the technical parameters of the individual electrical devices, the number of the item name, etc. The electrical device technical parameters may include: voltage, current, power, corresponding cable specifications, electrical parameters of a control loop controlling the electrical device, etc.

Referring to fig. 2, step S100: creating a standard database according to electrical drawing design requirements, in some embodiments, the creating a standard database includes: and establishing a control loop library, performing digital processing on the control loop library, generating a plurality of groups of control loop schemes and storing the control loop schemes in the standard database. It can be understood that the technical parameters of the electrical equipment in practice have certain standard, that is, the numerical values of certain parameters in the technical parameters of the electrical equipment are not linearly changed, so that the types of control loops for controlling each electrical equipment are limited, a user can establish a control loop library of each electrical equipment according to the types of the electrical equipment commonly used in each industry, and digitize each control loop to generate different control loop schemes, thus, the design of the control loop of each electrical equipment of each item is not required every time one item is contacted, the workload is reduced, and the operation difficulty is also reduced by directly matching the parameters to select the control loops. The digitizing process may be to number various information in each control loop in the control loop library, and a string of characters representing one control loop is a control loop scheme, and the following processes related to the cabinet library may refer to the processes of the control loop library.

In some embodiments, the cabinet scheme further includes a cabinet module, where the cabinet module may be cabinet space data reflecting a size of a cabinet space, and in practice, parameters such as the cabinet module are standardized, so that, according to limited cabinet data, a cabinet library is established, and the cabinet library is digitally processed to generate multiple sets of cabinet schemes and stored in the standard database, thereby providing convenience for selecting the cabinet scheme. It will be appreciated that the cabinet modulus may be a specific number representing the length, width, height of the cabinet volume. In some embodiments, the selecting a control loop scheme and a cabinet scheme in the standard database according to the project design parameters, and combining the cabinets to form a cabinet combination design scheme includes: s102: processing the project design parameters, and selecting the control loop scheme according to the processing result; s103: obtaining a cabinet group planning table according to the control loop scheme and the cabinet body scheme; s104: and generating load calculation data according to the cabinet group planning table.

In some embodiments, the cabinet combination design is formed according to the control loop scheme and the cabinet group planning table, and step S105 may be implemented based on a web system software design platform of a B/S architecture, that is, the cabinet combination scheme may be completed by dragging at the browser side.

It can be understood that the load calculation data includes the number of the cabinets, the model reflecting the size of the cabinets, the connection cables between the cabinets, etc., so that the user can quickly read the information related to the cabinets of one item, and the cost of the cabinets can be quickly calculated on the basis of knowing the price of the cabinets. The cabinet body of the invention can be an electrical cabinet.

It can be understood that the cabinet group planning table can be obtained according to the number of the electrical devices and the technical parameters of the electrical devices, and the control loops of the devices are different in number and parameters of the control loops, so that the types of the cabinets are different.

In certain embodiments, each set of the cabinet schemes comprises: cabinet scheme number, cabinet space data, cabinet interface data. The cabinet body scheme can also include regulator cubicle brand information, so, the user can design and select different brands, different grade type regulator cubicles to the demand of different customers, and it is convenient to change.

In certain embodiments, each set of the control loop schemes comprises: the control loop scheme number, the schematic diagram information of the control loop, the wiring diagram information of the control loop, the interface data of the control loop, the space data of the control loop, the index list of electric components and features. It will be appreciated that a feature picture may be used to represent the control loop. The interface data of the control loop may include: an external power interface, a scram interface, a PLC input/output interface, and the like. The spatial data of the control loop reflects the volume occupied by one control loop and can be a set of three-dimensional data.

It can be understood that the interface data of the cabinet body can be associated with the interface data of the control loop and the interface data of the cabinet body between the cabinet bodies, so that quick connection can be realized.

In some embodiments, the cabinet scheme further comprises a cabinet supplement instruction, so that after the cabinet is selected, a user can mark or fill in the cabinet supplement instruction for specific electrical equipment controlled by the cabinet; so as to distinguish the cabinet bodies of the electric cabinets; the control loop scheme can also comprise a control loop supplement description, and the selected control loop control electric equipment can be marked or filled in the control loop supplement description, so that the selection result can be displayed more intuitively.

In some embodiments, the project electrical design data may be presented in tabular form, without specific limitation herein.

In some embodiments, the control loop scheme further includes a selection of the type of electrical component, including branding information for the electrical component, and parameters. Thus, a user can design and select different brands and different types of electric components according to the requirements of different clients, and the electric components are convenient to change.

It can be understood that each control loop includes a plurality of electrical components, and the types of the electrical components can be a relay, a breaker, a contactor, etc., without limitation, in the actual electrical cabinet finished product, the control loops therein can be regarded as small boxes with a certain volume, the cabinet body of the electrical cabinet is regarded as a large box with a certain volume, in order to maximally utilize the space of the cabinet body, unnecessary waste is avoided, and therefore, a cabinet group planning table is required to be obtained by matching and adapting according to a plurality of groups of control loop schemes required by one project and cabinet body schemes in a standard database, and the cabinet group planning table can include a plurality of electrical cabinets with different cabinet body schemes, a plurality of control loop information matched with each electrical cabinet, and arrangement information of each electrical cabinet and electrical cabinet quality inspection.

In some embodiments, the step of "obtaining project design parameters" and the step of "selecting a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, and performing cabinet combination to form a cabinet combination design scheme" may be implemented based on web system software of a B/S architecture. Therefore, the cabinet body scheme and the control loop scheme in the cabinet group planning table can be displayed at the browser end according to the corresponding cabinet body space data and control loop space data, and a user can intuitively browse specific information of the cabinet body combination design scheme of each item. In some embodiments, the user may drag and select the cabinet body scheme according to the cabinet group planning table, drag and select the control loop scheme according to the load calculation data, so as to complete the cabinet body combination design scheme, and the operation is more convenient.

Referring to fig. 3, an example of a cabinet combination design scheme of an electric design method of a column heating furnace according to an embodiment of the invention is shown in "=tz+lc 01.5", "=tz+lc 01.6", "=tz+lc 01.7", "=tz+drc1.01" respectively indicate 4 different cabinet schemes, the whole content of fig. 3 indicates a cabinet combination design scheme composed of four cabinet schemes, the "No. 1 soft water pump" indicates a control loop corresponding to the No. 1 soft water pump, the "standby" is a standby control loop indicating a certain control loop, the "No. 2 soft water pump", "gas main electric blind valve", "drum emergency drain valve", "soft water intake electric valve", "No. 1 combustion fan inlet valve", "No. 2 combustion fan inlet valve" etc. are respectively designations of different control loops, and will not be described herein. In addition, the different sizes of the control loops in fig. 3 represent the spatial data of the different control loops. In some embodiments, the step S106 is performed according to the cabinet combination design scheme: generating project electrical design data includes: matching the project design parameters, the control loop scheme and the cabinet scheme to generate project electrical design data: the project electrical design data comprise interface data of a cabinet body combination design scheme and electrical drawing information. Thus, S108 can be directly obtained: the cabinet body combines the interface data of design scheme, so, also provide interface data for automated design.

It will be appreciated that, for example, the generated project electrical design data may be presented in an xml file that a user may export via web system software.

In some embodiments, the reading the project electrical design data, generating an electrical single line diagram or/and an electrical principle legend, for example, includes: and creating a macro standard library and an interface program for secondary development of the EPLAN software, reading project electrical design data by calling the interface program, and generating an electrical single line diagram or/and an electrical schematic diagram according to the macro standard library. It can be understood that the EPLAN software is secondarily developed to create a macro standard library, and the macro standard library and the standard database have a certain corresponding relationship, for example, each parameter and the specific content of each parameter may be in one-to-one correspondence, or the specific corresponding relationship is not specifically limited, so that the EPLAN software identifies each parameter in the standard database through the macro standard library. The interface program is created for secondary development of the EPLAN software so as to read project electrical design data, namely an xml file, so that an electrical single line diagram or an electrical schematic diagram can be quickly and automatically generated in the EPLAN software, and meanwhile, interface information interface data can be derived to provide interface data for automatic design. In addition, the user can also adjust the generated electric single line diagram or electric schematic diagram in the EPLAN software, such as changing the model of the electric components, so that the operation is more convenient. Here, the EPLAN software is only used as a platform for displaying an electrical single line diagram and/or an electrical schematic diagram, and is not particularly limited.

Referring to fig. 4, the present invention further provides an electrical design system, including: the information acquisition module 10 is used for acquiring project design parameters; the processing module 20 is configured to select a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, perform cabinet combination to form a cabinet combination design scheme, and generate project electrical design data according to the cabinet combination design scheme; and the drawing generation module 30 is used for reading the project electrical design data and generating an electrical single line diagram or/and an electrical schematic diagram.

In certain embodiments, the electrical design system further comprises: the standard database module is used for generating and storing a plurality of groups of control loop schemes according to the control loop library; and generating and storing a plurality of groups of control loop schemes according to the control loop library.

In certain embodiments, the project design parameters include: the number of electrical devices and the technical parameters of the electrical devices.

In certain embodiments, the processing module 20 comprises: the control loop processing unit is used for processing the project design parameters and selecting the control loop scheme according to the processing result; the cabinet body processing unit is used for obtaining a cabinet group planning table according to the control loop scheme and the cabinet body scheme and generating load calculation data according to the cabinet group planning table; and forming a cabinet body combination design scheme according to the control loop scheme and the cabinet group planning table. In certain embodiments, the cabinet solution comprises: cabinet scheme number, cabinet space data, cabinet interface data.

In certain embodiments, each set of the control loop schemes comprises: the control loop scheme number, the schematic diagram information of the control loop, the wiring diagram information of the control loop, the interface data of the control loop, the space data of the control loop, the index list of electric components and features.

In certain embodiments, the processing module 20 further comprises: the matching unit is used for matching the project design parameters, the control loop scheme and the cabinet scheme to generate project electrical design data: the project electrical design data comprise interface data of a cabinet body combination design scheme and electrical drawing information.

The related embodiments and the effective effects of the electrical design system of the present invention are described with reference to the related descriptions of the electrical design method of the present invention, and are not repeated herein.

As described above, according to the electrical design method and the electrical design system provided by the invention, project design parameters are directly obtained according to project requirements; selecting a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, and combining the cabinets to form a cabinet combination design scheme; the accurate calculation is not required to be carried out according to each cabinet group unit of each item, and the matched control loop scheme and cabinet body scheme are directly selected according to the technical parameters of the electrical equipment, so that the control loops and cabinet groups of each electrical equipment are designed each time, the workload is reduced, and the working efficiency is improved. In addition, according to the cabinet body combination design scheme, project electrical design data are generated;

generating an electric single line diagram or/and an electric schematic diagram by reading the project electric design data; therefore, the working efficiency is improved, and the operation difficulty is reduced.

The embodiment of the application also provides equipment, which can comprise: one or more processors; and one or more machine readable media having instructions stored thereon, which when executed by the one or more processors, cause the apparatus to perform the method described in fig. 1. In practical applications, the device may be used as a terminal device or may be used as a server, and examples of the terminal device may include: smart phones, tablet computers, e-book readers, MP3 (dynamic video expert compression standard voice layer 3,Moving Picture Experts Group Audio Layer III) players, MP4 (dynamic video expert compression standard voice layer 4,Moving Picture Experts Group Audio Layer IV) players, laptop computers, car computers, desktop computers, set-top boxes, smart televisions, wearable devices, etc., embodiments of the present application are not limited to specific devices.

The embodiment of the application also provides a non-volatile readable storage medium, where one or more modules (programs) are stored, where the one or more modules are applied to a device, and the instructions (instructions) may cause the device to execute the steps included in the data processing method in fig. 4 according to the embodiment of the application.

Fig. 5 is a schematic hardware structure of a terminal device according to an embodiment of the present application. As shown, the terminal device may include: an input device 1100, a first processor 1101, an output device 1102, a first memory 1103 and at least one communication bus 1104. The communication bus 1104 is used to enable communication connections between the elements. The first memory 1103 may comprise a high-speed RAM memory or may further comprise a non-volatile memory NVM, such as at least one magnetic disk memory, and various programs may be stored in the first memory 1103 for performing various processing functions and implementing the method steps of the present embodiment.

In some embodiments, the first processor 1101 may be implemented as, for example, a central processing unit (Central Processing Unit, abbreviated as CPU), an Application Specific Integrated Circuit (ASIC), a Digital Signal Processor (DSP), a Digital Signal Processing Device (DSPD), a Programmable Logic Device (PLD), a Field Programmable Gate Array (FPGA), a controller, a microcontroller, a microprocessor, or other electronic components, and the first processor 1101 is coupled to the input device 1100 and the output device 1102 through a wired or wireless connection.

In some implementations, the input device 1100 may include a variety of input devices, and may include, for example, at least one of a user-oriented user interface, a device-oriented device interface, a programmable interface to software, a camera, and a sensor. In some embodiments, the device-oriented device interface may be a wired interface for data transmission between devices, or may be a hardware plug-in interface (e.g., USB interface, serial port, etc.) for data transmission between devices; in some implementations, the user-oriented user interface may be, for example, user-oriented control keys, a voice input device for receiving voice input, and a touch-sensitive device (e.g., a touch screen, a touch pad, etc. with touch-sensitive functionality) for a user to receive user touch input; in some embodiments, the programmable interface of the software may be, for example, an entry for a user to edit or modify a program, such as an input pin interface or an input interface of a chip; the output device 1102 may include a display, sound, or the like.

In this embodiment, the processor of the terminal device may include functions for executing each module of the speech recognition device in each device, and specific functions and technical effects may be referred to the above embodiments and are not described herein.

Fig. 6 is a schematic hardware structure of a terminal device according to an embodiment of the present application. Fig. 6 is a specific embodiment of the implementation of fig. 5. As shown, the terminal device of the present embodiment may include a second processor 1201 and a second memory 1202.

The second processor 1201 executes the computer program code stored in the second memory 1202 to implement the method described in fig. 4 in the above embodiment.

The second memory 1202 is configured to store various types of data to support operations at the terminal device. Examples of such data include instructions for any application or method operating on the terminal device, such as messages, pictures, video, etc. The second memory 1202 may include a random access memory (random access memory, abbreviated as RAM) and may also include a non-volatile memory (non-volatile memory), such as at least one disk memory.

Optionally, a second processor 1201 is provided in the processing assembly 1200. The terminal device may further include: a communication component 1203, a power component 1204, a multimedia component 1205, a voice component 1206, an input/output interface 1207, and/or a sensor component 1208. The components and the like specifically included in the terminal device are set according to actual requirements, which are not limited in this embodiment.

The processing component 1200 generally controls the overall operation of the terminal device. The processing assembly 1200 may include one or more second processors 1201 to execute instructions to perform all or part of the steps in the data processing methods described above. Further, the processing component 1200 may include one or more modules that facilitate interactions between the processing component 1200 and other components. For example, the processing component 1200 may include a multimedia module to facilitate interaction between the multimedia component 1205 and the processing component 1200.

The power supply component 1204 provides power to the various components of the terminal device. Power supply components 1204 can include a power management system, one or more power supplies, and other components associated with generating, managing, and distributing power for terminal devices.

The multimedia component 1205 includes a display screen that provides an output interface between the terminal device and the user. In some embodiments, the display screen may include a Liquid Crystal Display (LCD) and a Touch Panel (TP). If the display screen includes a touch panel, the display screen may be implemented as a touch screen to receive input signals from a user. The touch panel includes one or more touch sensors to sense touches, swipes, and gestures on the touch panel. The touch sensor may sense not only the boundary of a touch or slide action, but also the duration and pressure associated with the touch or slide operation.

The voice component 1206 is configured to output and/or input voice signals. For example, the voice component 1206 includes a Microphone (MIC) configured to receive external voice signals when the terminal device is in an operational mode, such as a voice recognition mode. The received voice signals may be further stored in the second memory 1202 or transmitted via the communication component 1203. In some embodiments, the voice component 1206 further includes a speaker for outputting voice signals.

The input/output interface 1207 provides an interface between the processing assembly 1200 and peripheral interface modules, which may be click wheels, buttons, and the like. These buttons may include, but are not limited to: volume button, start button and lock button.

The sensor assembly 1208 includes one or more sensors for providing status assessment of various aspects for the terminal device. For example, the sensor assembly 1208 may detect an on/off state of the terminal device, a relative positioning of the assembly, and the presence or absence of user contact with the terminal device. The sensor assembly 1208 may include a proximity sensor configured to detect the presence of nearby objects in the absence of any physical contact, including detecting the distance between the user and the terminal device. In some embodiments, the sensor assembly 1208 may also include a camera or the like.

The communication component 1203 is configured to facilitate communication between the terminal device and other devices in a wired or wireless manner. The terminal device may access a wireless network based on a communication standard, such as WiFi,2G or 3G, or a combination thereof. In one embodiment, the terminal device may include a SIM card slot therein for inserting a SIM card, so that the terminal device may log into a GPRS network and establish communication with a server via the internet.

From the above, the communication component 1203, the voice component 1206, the input/output interface 1207, and the sensor component 1208 in the embodiment of fig. 6 can be implemented as input devices in the embodiment of fig. 5.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (13)

1. An electrical design method, comprising:

Acquiring project design parameters;

selecting a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, and combining the cabinets to form a cabinet combination design scheme;

The control loop library is established, a plurality of groups of control loop schemes are generated according to the control loop library, and the control loop schemes are stored in the standard database; the cabinet body library is established, a plurality of groups of cabinet body schemes are generated according to the cabinet body library and stored in the standard database;

Processing the project design parameters, and selecting the control loop scheme according to the processing result; obtaining a cabinet group planning table according to the control loop scheme; forming a cabinet combination design scheme according to the control loop scheme and the cabinet group planning table;

generating project electrical design data according to the cabinet body combination design scheme;

and reading the project electrical design data to generate an electrical single line diagram or/and an electrical schematic diagram.

2. The electrical design method of claim 1, wherein the project design parameters include: the number of electrical devices and the technical parameters of the electrical devices.

3. The electrical design method according to claim 1, comprising:

Generating load calculation data according to the cabinet group planning table; selecting the cabinet scheme by dragging according to the cabinet group planning table; and selecting the control loop scheme through dragging according to the load calculation data.

4. The electrical design method of claim 1, wherein each set of cabinet options comprises: cabinet scheme number, cabinet space data, cabinet interface data.

5. The electrical design method of claim 4, wherein each set of the control loop schemes comprises: the control loop scheme number, the schematic diagram information of the control loop, the wiring diagram information of the control loop, the interface data of the control loop, the space data of the control loop, the index list of electric components and features.

6. The electrical design method of claim 5, wherein generating project electrical design data from the cabinet combination design comprises: matching the project design parameters, the control loop scheme and the cabinet scheme to generate project electrical design data: the project electrical design data comprise interface data of a cabinet body combination design scheme and electrical drawing information.

7. An electrical design system, comprising:

The information acquisition module is used for acquiring project design parameters;

the standard database module is used for generating and storing a plurality of groups of control loop schemes according to the control loop library; generating and storing a plurality of groups of control loop schemes according to the control loop library;

The processing module is used for selecting a control loop scheme and a cabinet scheme in a standard database according to the project design parameters, combining the cabinets to form a cabinet combined design scheme, and generating project electrical design data according to the cabinet combined design scheme; the processing module comprises: the control loop processing unit is used for processing the project design parameters and selecting the control loop scheme according to the processing result; the cabinet body processing unit is used for obtaining a cabinet group planning table according to the control loop scheme and the cabinet body scheme; forming a cabinet combination design scheme according to the control loop scheme and the cabinet group planning table;

And the drawing generation module is used for reading the project electrical design data and generating an electrical single line diagram or/and an electrical schematic diagram.

8. The electrical design system of claim 7, wherein the project design parameters include:

The number of electrical devices and the technical parameters of the electrical devices.

9. The electrical design system of claim 7, wherein the cabinet scheme comprises: cabinet scheme number, cabinet space data, cabinet interface data.

10. The electrical design system of claim 7, wherein each set of the control loop schemes comprises: the control loop scheme number, the schematic diagram information of the control loop, the wiring diagram information of the control loop, the interface data of the control loop, the space data of the control loop, the index list of electric components and features.

11. The electrical design system of claim 7, wherein the processing module comprises: the matching unit is used for matching the project design parameters, the control loop scheme and the cabinet scheme to generate project electrical design data:

the project electrical design data comprise interface data of a cabinet body combination design scheme and electrical drawing information.

12. An apparatus, comprising: one or more processors; and one or more machine readable media having instructions stored thereon, which when executed by the one or more processors, cause the apparatus to perform the method of one or more of claims 1-6.

13. One or more machine readable media having instructions stored thereon that, when executed by one or more processors, cause an apparatus to perform the method of one or more of claims 1-6.