CN112464333B - Water tank multi-tap and software design method for installation generation of auxiliary equipment of water tank multi-tap - Google Patents

Abstract

The invention discloses a software design method for installation and generation of a water tank multi-tap and auxiliary equipment thereof, which mainly comprises the steps of adding an installation opening element and an installation position element to a model, and generating a water tank for a cabinet model. According to the invention, during modeling, the mounting port element is added to the water tank, the mounting position element is added to auxiliary equipment such as the faucet, and the like, so that the problem of personalized customization of the actual mounting position, the mounting direction and the faucet rotation of a merchant is solved; the method has the advantages that the designer is not required to manually calculate and adjust the position of the generating tap each time, and the customized water tank model can be quickly and efficiently generated when the water tank function is generated by using a design tool only by setting once during modeling; the faucet is supported to be installed on any position and plane, a special rotation angle or a key setting angle is supported to be made on the faucet, a plurality of faucets are supported to be generated for a single sink, auxiliary equipment such as a hand sanitizer machine and the like are supported to be generated, and a user is helped to customize a sink model more flexibly and conveniently.

Description

Water tank multi-tap and software design method for installation generation of auxiliary equipment of water tank multi-tap

Technical Field

The invention relates to the field of computer home decoration design, in particular to a software design method for installation and generation of a plurality of water tank taps and auxiliary equipment thereof.

Background

In recent years, the home decoration industry is moving toward the internet+ trend, and the requirements of users on home design are more toward customization and personalization. The installation of auxiliary equipment such as a water tank faucet is an important ring in kitchen and bathroom customization design, and the current water tank generation and installation method is single in function and cannot meet the personalized and diversified customization demands of users; or the use difficulty is high, and the user is required to spend high learning cost and operation effort. At present, some custom scenes with strong requirements cannot be met to users quickly, for example: the mounting tap cannot be rotated in position so as to achieve different alignment modes; the faucet cannot be installed on non-horizontal surfaces such as wall surfaces; multiple faucets cannot be installed on a single sink; auxiliary equipment such as an automatic hand sanitizer machine and the like cannot be installed; only the setting of the faucet mounting position by a user is supported, the adjustment of the generated faucet direction and faucet rotation by the user cannot be satisfied, and the generation of a plurality of models for a single water tank cannot be supported.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a software design method for installing and generating a sink multi-tap and auxiliary equipment thereof.

The invention aims at being completed by the following technical scheme: the software design method for the installation generation of the sink multi-tap and the auxiliary equipment thereof mainly comprises the steps of adding an installation port element and an installation position element to a model, and generating a sink for a cabinet model;

the model additional mounting port element mainly comprises the following steps:

1) Adding optional installation port elements to the water tank model in a custom model editor, and enabling a user to customize the type, the installation position, the installation direction, the calling mode and the specification of the installation port elements;

2) Adding optional installation position elements to the tap model in a custom model editor, and enabling a user to customize the type, the installation position, the installation direction, the calling mode and the installation position specification of the installation position elements;

generating a water tank for a cabinet model mainly comprises the following steps:

1) Selecting a cabinet model in a platform customization tool, selecting a water tank model style, and simultaneously acquiring mounting port information contained in the selected water tank model style;

2) Selecting and adding a faucet model to be generated according to the installation port of the current sink model;

3) Selectively customizing the rotation angle of the tap model, and automatically setting the rotation angle by selecting the installation mode of aligning the tap model with the water outlet by one key;

4) Initiating a request to generate a sink model comprising a faucet model, an auxiliary device;

5) Generating a corresponding water tank package model according to the selected water tank model style;

6) According to the mounting port and the faucet model style, respectively calculating the position of the faucet model mounting position on the faucet model and the position of the sink model mounting port on the sink model so as to calculate the coordinates of the faucet model on the sink model coordinate system after the faucet model is actually mounted;

7) Setting the length, width, height and center point of the model of the water tank package according to the position information and the size information of the faucet model and the water tank model;

8) Taking the central point position of the water tank wrapping model as the origin of the water tank wrapping model coordinate system, respectively calculating coordinates of the tap model and the water tank model under the water tank wrapping model coordinate system;

9) Acquiring material information of the faucet model and the water tank model, and returning the material information and the water tank package model data as return values;

10 If no table model exists on the currently selected cabinet model, returning the length, width and height of the water tank wrapping layer model according to the request, calculating the coordinates of the water tank wrapping model on the cabinet model according to the ground clearance height set during uploading of the water tank model, and associating the water tank model with the cabinet model in a component association mode; if the table top model exists on the currently selected cabinet model, the coordinates of the water tank wrapping model on the cabinet model are calculated by combining the thickness of the table top model, the thickness of the table top backing plate, the type of the table basin and other information, and the final result is displayed, so that the generation of the water tank is completed.

The mounting port element comprises a specific mounting position, a specific mounting direction, a calling mode in use, a mounting pipe specification and a mounting port type; the installation position element comprises a specific installation position, an installation direction, a calling mode in use, an installation pipe specification and an installation position type.

The installation method of the auxiliary equipment and the faucet is completely consistent.

The beneficial effects of the invention are as follows: according to the invention, during modeling, the mounting port element is added to the water tank, the mounting position element is added to auxiliary equipment such as the faucet, and the like, so that the problem of personalized customization of the actual mounting position, the mounting direction and the faucet rotation of a merchant is solved; the method has the advantages that the designer is not required to manually calculate and adjust the position of the generating tap each time, and the customized water tank model can be quickly and efficiently generated when the water tank function is generated by using a design tool only by setting once during modeling; the faucet is supported to be installed on any position and plane, a special rotation angle or a key setting angle is supported to be made on the faucet, a plurality of faucets are supported to be generated for a single sink, auxiliary equipment such as a hand sanitizer machine and the like are supported to be generated, and a user is helped to customize a sink model more flexibly and conveniently.

Drawings

FIG. 1 is a schematic flow chart of the present invention.

FIG. 2 is a schematic diagram of an editor setup installation site of the present invention.

FIG. 3 is a schematic view of a parameter panel of the present invention for creating a sink faucet.

Detailed Description

The invention will be described in detail below with reference to the attached drawings:

as shown in the attached drawing, the software design method for the installation and generation of the sink multi-tap and the auxiliary equipment thereof mainly comprises the steps of adding an installation opening element and an installation position element to a model, and generating a sink for a cabinet model;

the model additional mounting port element mainly comprises the following steps:

1) Adding optional installation port elements to the water tank model in a custom model editor, and enabling a user to customize the type, the installation position, the installation direction, the calling mode and the specification of the installation port elements;

2) Adding optional installation position elements to the tap model in a custom model editor, and enabling a user to customize the type, the installation position, the installation direction, the calling mode and the installation position specification of the installation position elements;

generating a water tank for a cabinet model mainly comprises the following steps:

1) Selecting a cabinet model in a platform customization tool, selecting a water tank model style, and simultaneously acquiring mounting port information contained in the selected water tank model style;

2) Selecting and adding a faucet model to be generated according to the installation port of the current sink model;

3) Selectively customizing the rotation angle of the tap model, and automatically setting the rotation angle by selecting the installation mode of aligning the tap model with the water outlet by one key;

4) Initiating a request to generate a sink model comprising a faucet model, an auxiliary device;

5) Generating a corresponding water tank package model according to the selected water tank model style;

6) According to the mounting port and the faucet model style, respectively calculating the position of the faucet model mounting position on the faucet model and the position of the sink model mounting port on the sink model so as to calculate the coordinates of the faucet model on the sink model coordinate system after the faucet model is actually mounted;

7) Setting the length, width, height and center point of the model of the water tank package according to the position information and the size information of the faucet model and the water tank model;

8) Taking the central point position of the water tank wrapping model as the origin of the water tank wrapping model coordinate system, respectively calculating coordinates of the tap model and the water tank model under the water tank wrapping model coordinate system;

9) Acquiring material information of the faucet model and the water tank model, and returning the material information and the water tank package model data as return values;

10 If no table model exists on the currently selected cabinet model, returning the length, width and height of the water tank wrapping layer model according to the request, calculating the coordinates of the water tank wrapping model on the cabinet model according to the ground clearance height set during uploading of the water tank model, and associating the water tank model with the cabinet model in a component association mode; if the table top model exists on the currently selected cabinet model, the coordinates of the water tank wrapping model on the cabinet model are calculated by combining the thickness of the table top model, the thickness of the table top backing plate, the type of the table basin and other information, and the final result is displayed, so that the generation of the water tank is completed.

The mounting port element comprises a specific mounting position, a specific mounting direction, a calling mode in use, a mounting pipe specification and a mounting port type; the installation position element comprises a specific installation position, an installation direction, a calling mode in use, an installation pipe specification and an installation position type. Based on tap installation, the corresponding installation port element is a tap hole, and the corresponding installation position element is a tap position.

The installation method of the auxiliary equipment and the faucet is completely consistent.

The working process of the invention comprises the following steps: as shown in fig. 2, the sink multi-tap is generated from the perspective of the primary user, comprising the steps of:

1) In the ku-jia-yun design custom model editor, modeling staff uploads the sink model and adds 3 mounting port elements, two of which are set as faucet hole types and the other as drain port types. Specific mounting positions and specific rotation angles are respectively set for the 3 mounting port elements, and the mounting port elements are stored.

2) In the cool music cloud design custom model editor, modeling staff uploads a tap model, a tap installation position is added, the setting type is a tap hole, and specific installation positions and rotation angles are set and stored.

The designer generates a sink in the ku-jia-yun design tool platform comprising the steps of:

1) In the custom-made tool of the ku-jiale design platform, a cabinet model is selected, a water tank model generating button is clicked, and a water tank model panel is popped up.

2) The designer selects the sink model style and clicks on the configure tap model.

3) The designer selects the faucet model style and the installation position, namely the corresponding faucet hole on the sink model, manually sets the rotation angle of the faucet model, or selects the faucet model to install a key to align the water outlet.

4) The designer clicks the add tap model button, selects a second tap model style, mounting position, and selects the rotation angle to align the drain outlet.

5) The designer clicks the generate button to generate the sink model containing the faucet model.

The model finally obtained by the user is generated through the front end and the rear end of the custom tool of the ku-Jia-le design platform through calculation. According to the above cases, the software design logic for generating the sink multi-tap comprises the following basic steps:

1) And obtaining a model pattern of the water tank required to be generated by a designer, and generating the water tank model according to the model pattern.

2) The tap model style and corresponding tap hole selected by the designer are obtained.

3) And calculating a transformation matrix of the tap model installation position coordinates relative to a tap model coordinate system.

4) And calculating a transformation matrix of the coordinates of the selected water tank model mounting opening relative to a water tank model coordinate system.

5) And (3) calculating a transformation matrix of the tap model installation phase relative to the water tank model according to the step (3) and the step (4), and simultaneously, superposing and calculating a rotation value of the tap model to generate a new transformation matrix.

6) And (5) performing matrix transformation on the coordinate value and the rotation value of the tap model according to the result matrix calculated in the step (5).

7) According to the current sink model coordinate system, the sink model and the tap model are taken as a whole, the bounding box is calculated, and the length, width, height and center point coordinates of the bounding box are obtained according to the bounding box.

8) The whole model, namely the sink parcel model, takes the center point as an origin point, a new coordinate system is constructed, the vector directions of the XYZ three axes of the new coordinate system are kept consistent with the vector directions of the XYZ three axes of the sink model coordinate system, and coordinate values of the sink model and the tap model under the coordinate system are recalculated.

9) And assembling the water tank package model data and returning the data to the front end.

10 The front end calculates the position of the water tank wrapping model under the coordinate system of the cabinet model, and associates the water tank wrapping model with the cabinet model.

11 Obtain the mesh and show the effect to the user.

It should be understood that equivalents and modifications to the technical scheme and the inventive concept of the present invention should fall within the scope of the claims appended hereto.

Claims (3)

1. A software design method for installation generation of a sink multi-tap and auxiliary equipment thereof is characterized in that: the method comprises the steps of adding an installation opening element and an installation position element to a model, and generating a water tank for the cabinet model;

the model add-on mounting port element comprises the steps of:

1) Adding optional installation port elements to the water tank model in a custom model editor, and enabling a user to customize the type, the installation position, the installation direction, the calling mode and the specification of the installation port elements;

2) Adding optional installation position elements to the tap model in a custom model editor, and enabling a user to customize the type, the installation position, the installation direction, the calling mode and the installation position specification of the installation position elements;

generating a water tank for the cabinet model comprises the following steps:

1) Selecting a cabinet model in a platform customization tool, selecting a water tank model style, and simultaneously acquiring mounting port information contained in the selected water tank model style;

2) Selecting and adding a faucet model to be generated according to the installation port of the current sink model;

3) Selectively customizing the rotation angle of the tap model, and automatically setting the rotation angle by selecting the installation mode of aligning the tap model with the water outlet by one key;

4) Initiating a request to generate a sink model comprising a faucet model, an auxiliary device;

5) Generating a corresponding water tank package model according to the selected water tank model style;

6) According to the mounting port and the faucet model style, respectively calculating the position of the faucet model mounting position on the faucet model and the position of the sink model mounting port on the sink model so as to calculate the coordinates of the faucet model on the sink model coordinate system after the faucet model is actually mounted;

7) Setting the length, width, height and center point of the model of the water tank package according to the position information and the size information of the faucet model and the water tank model;

8) Taking the central point position of the water tank wrapping model as the origin of the water tank wrapping model coordinate system, respectively calculating coordinates of the tap model and the water tank model under the water tank wrapping model coordinate system;

9) Acquiring material information of the faucet model and the water tank model, and returning the material information and the water tank package model data as return values;

10 If no table model exists on the currently selected cabinet model, returning the length, width and height of the water tank wrapping layer model according to the request, calculating the coordinates of the water tank wrapping model on the cabinet model according to the ground clearance height set during uploading of the water tank model, and associating the water tank model with the cabinet model in a component association mode; if the table top model exists on the currently selected cabinet model, the coordinates of the water tank wrapping model on the cabinet model are calculated by combining the thickness of the table top model, the thickness of the table top backing plate and the table basin type information, and the final result is displayed, so that the generation of the water tank is completed.

2. The method for designing software for installation and generation of a sink multi-tap and its auxiliary equipment according to claim 1, wherein: the mounting port element comprises a specific mounting position, a specific mounting direction, a calling mode in use, a mounting pipe specification and a mounting port type; the installation position element comprises a specific installation position, an installation direction, a calling mode in use, an installation pipe specification and an installation position type.

3. The method for designing software for installation and generation of a sink multi-tap and its auxiliary equipment according to claim 1, wherein: the installation method of the auxiliary equipment and the faucet is completely consistent.

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