CN111814215A - Rapid design platform and rapid design method - Google Patents

Abstract

The invention relates to a rapid design platform and a rapid design method, when a user, namely a designer designs, at least one piece of model data is provided to facilitate the selection of the user, the repeated design is reduced, the design efficiency is improved, and a target knowledge point corresponding to each selected model data can be prompted to the user, so that the user can directly check the target knowledge point corresponding to each model data, the query time is saved, and the design efficiency is further improved.

Description

Rapid design platform and rapid design method

Technical Field

The invention relates to the technical field of design, in particular to a rapid design platform and a rapid design method.

Background

At present, for knowledge-intensive designs such as structural design of electronic equipment, designers often design by inquiring knowledge about the structural design of the electronic equipment, and the way mostly depends on ways and habits of inquiring and using the knowledge by the designers.

Disclosure of Invention

The invention provides a rapid design platform and a rapid design method aiming at the defects of the prior art.

The technical scheme of the rapid design platform is as follows:

the system comprises a data storage module, a knowledge storage module and an association module;

the data storage module is used for storing at least one model data;

the knowledge storage module is used for storing a plurality of knowledge points;

the association module is used for identifying a target knowledge point corresponding to each model data from the knowledge storage module, establishing an association relation between each model data and the corresponding target knowledge point, and prompting the user of the target knowledge point corresponding to each selected model data when the user selects at least one model data.

The quick design platform has the following beneficial effects:

when a user, namely a designer, designs, at least one model data is provided so that the user can conveniently select, the repeated design is reduced, the design efficiency is improved, the target knowledge points corresponding to each selected model data can be prompted to the user, the user can conveniently and directly check the target knowledge points corresponding to each model data, the query time is saved, and the design efficiency is further improved.

On the basis of the scheme, the rapid design platform can be further improved as follows.

Further, each model data is provided with a port for facilitating parametric design by a user.

The beneficial effect of adopting the further scheme is that: when the parameters carried by the model data do not meet the design requirements of the user, the user can modify the parameters of the parameterized design port of the model data to meet the design requirements.

Further, the association module is specifically configured to: and identifying a target knowledge point corresponding to each model data from the knowledge storage module according to the knowledge node keyword of each model data.

Further, the knowledge storage module is configured to store the knowledge point corresponding to each knowledge node keyword according to the knowledge node keyword of each model data.

Further, the model data is a general product, a general accessory, a component or a standard component.

The technical scheme of the rapid design method is as follows:

a rapid design platform based on any of the above, the method comprising:

and receiving an operation instruction input by a user, designing according to the operation instruction, wherein the operation instruction is used for selecting at least one model data from the data storage module, and designing under the prompt of a target knowledge point of each selected model data.

The quick design method has the following beneficial effects:

the user selects the required model data from at least one model data provided by the data storage module of the rapid design platform, so that the repetitive design can be reduced, the design efficiency is improved, the target knowledge point corresponding to each model data can be directly checked, the query time is saved, and the design efficiency is further improved.

Drawings

Fig. 1 is a schematic structural diagram of a rapid design platform according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a rapid design method according to an embodiment of the present invention.

Detailed Description

As shown in FIG. 1, a rapid design platform 100 according to an embodiment of the present invention includes a data storage module 110, a knowledge storage module 120, and an association module 130;

the data storage module 110 is used for storing at least one model data;

the knowledge storage module 120 is configured to store a plurality of knowledge points;

the association module 130 is configured to identify a target knowledge point corresponding to each model data from the knowledge storage module 120, establish an association relationship between each model data and the corresponding target knowledge point, and prompt the user with the target knowledge point corresponding to each selected model data when the user selects at least one model data.

When a user designs, at least one model data is provided so that the user can conveniently select, the repeated design is reduced, the design efficiency is improved, the target knowledge points corresponding to each selected model data can be prompted to the user, the user can conveniently and directly check the target knowledge points corresponding to each model data, the query time is saved, and the design efficiency is further improved.

The model data is a general product, a general accessory, a component or a standard component, and the structural design of the electronic equipment is taken as an example for explanation:

1) the universal products comprise a fan, a wire-following frame, a cabinet damper and the like;

2) the universal accessory refers to a plug-in mounting guide rail, a line-following frame, a case handle, an adapter plate, a case front beam, a case rear beam, a nut strip, a shielding ventilation plate, a guide rail bracket, a bus bar and the like;

3) the components and parts refer to resistors, capacitors, inductors, potentiometers, electron tubes, radiators, electromechanical elements, connectors, semiconductor discrete devices, electroacoustic devices, laser devices, electronic display devices, photoelectric devices, sensors, power supplies, switches, micro-special motors, electronic transformers, relays, printed circuit boards, integrated circuits and the like;

4) the standard parts refer to fastening parts, connecting parts, transmission parts, sealing parts and the like;

the semantic annotation can be carried out on some special designs in the model data to indicate the design intention, so that the user can conveniently carry out design.

Taking a designed fan as an example for explanation, the designed fan is stored in the data storage module 110 as a template; the designed fan can be converted into a template by referring to the technology of setting a certain CAD model as a module in CAD. When another user needs to design the fan, whether the fan in the data storage module meets the design requirements is checked, if so, the fan is directly called, the fan does not need to be repeatedly set, and the design efficiency is improved.

Wherein, the knowledge about the structural design of the electronic device, such as the knowledge in the book literature, e.g. mechanical structure design, structural mechanics, metal structure, electronics, electronic and electrical engineers must be known, and the knowledge about the structural design of the electronic device, among the knowledge points stored in the knowledge storage module 120, may also be the experience knowledge of a plurality of users, the association module 130 identifies the target knowledge point corresponding to each model data, e.g. the knowledge point corresponding to the structural stability of the fan, from the knowledge storage module 120, the association module 130 identifies the knowledge point about the structural stability as the target knowledge point of the fan, when the model data selected by the user is the fan, the target knowledge point corresponding to the fan, i.e. the knowledge point about the structural stability, is displayed to the user for the user to check, saving the query time of the user.

Preferably, in the above technical solution, each of the model data is provided with a port for facilitating a user to perform a parametric design.

When the parameters carried by the model data do not meet the design requirements of the user, the user can modify the parameters of the parameterized design port of the model data to meet the design requirements.

It should be noted that, in the above-mentioned directly storing the designed model data such as the fan into the data storage module 110, another user can only select the designed model data, and is very easy to be out of line with the design requirements of the user, at this time, the model data is stored in another way, which is described by the following two examples:

1) taking the fan as an example for explanation, the main structural components of the fan include an impeller, a casing, an air inlet, a support, a motor, a belt pulley, a coupling, a silencer, a transmission part and the like, the parameters such as the sizes of the impeller, the casing, the air inlet, the support, the motor, the belt pulley, the coupling, the silencer, the transmission part and the like are divided, and a corresponding input frame is set, so that a user can modify the parameters, specifically:

for example: the air inlet comprises the thickness of a plate used by the air inlet, the length and the width of the air inlet and other parameters, the shell comprises the thickness of a plate used by the shell and the length, the width and the height of the shell and other parameters, and when a user selects the fan, the thickness of the plate used by the air inlet, the length and the width of the air inlet, the thickness of the plate used by the shell and other parameters of the length, the width and the height of the shell can be popped up;

generally, the values of the parameters of the designed fan are used as default values, when each default value meets the design requirements of another user, the user does not modify the default values of the input boxes, the fan is directly used for subsequent design, when the default values of the input boxes do not meet the design requirements of another user, the default values of the input boxes are modified by another user according to the actual conditions to meet the design requirements of the user, because the association module 130 prompts the user with the target knowledge points corresponding to each selected model data, that is, the association module 130 prompts the user with the target knowledge points corresponding to the fan, so that the user can more accurately modify the default values of the input boxes after checking the target knowledge points corresponding to the fan, thereby saving the query time of the user, the design effect is improved.

It can be understood that the selected model data is visually displayed on the interface, and when the default value of the input box is modified, the model data displayed on the interface is changed accordingly, which may refer to SOLIDWORK, and is not described herein.

The association module 130 may display the target knowledge point corresponding to each model data to the user through a pop-up box or directly on the interface, or may display the target knowledge point corresponding to each model data to the user by setting a mouse sliding event when the user moves to the model data with a mouse, or set a click event, and display the target knowledge point corresponding to each model data to the user when the user clicks on the selected model data.

2) Taking a capacitor in a standard component as an example for explanation, wherein main parameters of the capacitor are the size and the type of the capacitor, and an input frame is respectively set for the size and the type of the capacitor;

generally, a default value is set for the size and the type of the capacitor, for example, the default value for the size of the capacitor is 1 μ F, and the type of the capacitor is a polypropylene capacitor;

when a user designs, when the size of the capacitor is 1 muF and the capacitor of the polypropylene capacitor type meets the design requirements, the user does not modify the default values of the input boxes, and the capacitor is directly used for subsequent design; when the size of the capacitor is 1 μ F and the type of the capacitor is polypropylene capacitor does not meet the design requirement, the default value of the capacitor is modified through the input box of the size and the type of the capacitor, for example, the default value is modified to the capacitor of the size of 1mF and the type of the capacitor is mica capacitor, so as to meet the design requirement of the user, because the association module 130 prompts the target knowledge point corresponding to each selected model data to the user, that is, the association module 130 prompts the target knowledge point corresponding to the capacitor to the user, so that the user can modify the default value of the input box more accurately after checking the target knowledge point corresponding to the capacitor, the query time of the user is saved, the design effect is improved, and it needs to be explained that: the mode only needs to store the model data of the capacitor once, so that the storage capacity of the model data is reduced, and the storage space is saved.

Preferably, in the above technical solution, the association module 130 is specifically configured to: and identifying a target knowledge point corresponding to each model data from the knowledge storage module 120 according to the knowledge node keyword of each model data. Specifically, the method comprises the following steps:

knowledge node keywords in certain model data can be preset artificially, for example, after a user finishes one model data, the knowledge nodes stored in the knowledge storage module 120 can be matched by using the knowledge node keywords such as "hall effect", "carrying capacity", "heat dissipation manner", "heat dissipation amount", and the like, so as to identify the knowledge points respectively corresponding to the knowledge node keywords such as "hall effect", "carrying capacity", "heat dissipation manner", "heat dissipation amount", and the like, and the knowledge points respectively corresponding to the knowledge node keywords such as "hall effect", "carrying capacity", "heat dissipation manner", "heat dissipation amount", and the like are used as target knowledge points of the model data.

Preferably, in the above technical solution, the knowledge storage module 120 is configured to store the knowledge point corresponding to each knowledge node keyword according to the knowledge node keyword of each model data.

The knowledge storage module 120 may perform matching in the electronic book according to the keys of "hall effect", "carrying capacity", "heat dissipation manner", "heat dissipation amount", or perform matching through a crawler in a network, to obtain knowledge points corresponding to the knowledge node keywords of "hall effect", "carrying capacity", "heat dissipation manner", "heat dissipation amount", and the like, and store the knowledge points, at this time, since the same knowledge node keywords are used, it is more convenient to query the target knowledge points of each model data from the knowledge points stored by the knowledge storage module 120.

The rapid design platform 100 facilitates each user to carefully arrange and systematize the knowledge of the stock, organize and associate knowledge such as various resource data, expert experience and the like in multiple professional fields, construct a knowledge system covering and supporting the whole process of structural design of the electronic equipment based on the rapid design platform 100, and realize close association between the knowledge in a multi-type knowledge base and a design flow.

A rapid design method according to an embodiment of the present invention is a rapid design platform 100 according to any one of the above descriptions, and the method includes:

receiving an operation instruction input by a user, and designing according to the operation instruction, where the operation instruction is used to select at least one model data from the data storage module 110, and design under the prompt of a target knowledge point of each selected model data.

The user selects the required model data from at least one model data provided by the data storage module 110 of the rapid design platform 100, so that the repetitive design can be reduced, the design efficiency is improved, the target knowledge point corresponding to each model data can be directly checked, the query time is saved, and the design efficiency is further improved.

For ease of understanding, a rapid design method of the present application is described below at the user's perspective, as shown in fig. 2, specifically:

s1, selecting a general product, and determining whether the general product meets the design requirements, executing S2 when the selected general product meets the design requirements, and executing S3 after performing parametric design on the selected general product when the selected general product does not meet the design requirements, where the parametric design on the selected general product refers to the relevant contents of "modifying the default value of the input box" in the above description, which is not described herein again.

S2, product configuration, wherein the user continues to select the universal accessories meeting the design requirements and configures the selected universal products;

and S4, designing in detail, wherein the user continuously selects components and standard components meeting the design requirements, and designs in detail on the configured general product to complete the design.

It is to be understood that, in S2, when there is no universal accessory directly meeting the design requirement of the user, the user may select the corresponding universal accessory and perform parametric design on the corresponding universal accessory, so that the parametrically designed universal accessory meets the design requirement of the user, and similarly, in S4, when there is no component or standard component directly meeting the design requirement of the user, the user may select and parametrically design the corresponding component or standard component, so that the parametrically designed component or standard component meets the design requirement of the user, for example:

when the default value of the capacitor size in the component is 1 muF, the capacitor type is a polypropylene capacitor, and when the capacitor size is 1 muF and the capacitor type is a polypropylene capacitor and does not meet the design requirements, the default value of the capacitor is modified through an input frame of the capacitor size and the type, namely the capacitor is parameterized and set, for example, the default value is modified into a capacitor size of 1mF and the capacitor type is a mica capacitor, so as to meet the design requirements of the user.

In the present invention, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (6)

1. A rapid design platform comprising a data storage module (110), a knowledge storage module (120), and an association module (130);

the data storage module (110) is used for storing at least one model data;

the knowledge storage module (120) is used for storing a plurality of knowledge points;

the association module (130) is configured to identify a target knowledge point corresponding to each model data from the knowledge storage module (120), establish an association relationship between each model data and the corresponding target knowledge point, and prompt the user of the target knowledge point corresponding to each selected model data when the user selects at least one model data.

2. A rapid design platform according to claim 1, wherein each model data is provided with a port for facilitating parametric design by a user.

3. The rapid design platform according to claim 1, wherein the association module (130) is specifically configured to: and identifying a target knowledge point corresponding to each model data from the knowledge storage module (120) according to the knowledge node keyword of each model data.

4. A rapid design platform according to any one of claims 1 to 3, wherein the knowledge storage module (120) is configured to store the knowledge points corresponding to each knowledge node keyword according to the knowledge node keyword of each model data.

5. A rapid design platform according to any one of claims 1 to 3, wherein the model data is a generic product, a generic accessory, a component or a standard part.

6. A rapid design method based on a rapid design platform as claimed in any one of claims 1 to 5, the method comprising:

receiving an operation instruction input by a user, and designing according to the operation instruction, wherein the operation instruction is used for selecting at least one model data from the data storage module (110) and designing under the prompt of a target knowledge point of each selected model data.

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