CN112681459B - Method, device and system for generating counter basin and installing multiple taps - Google Patents

Abstract

The invention discloses a method, a device and a system for generating and installing a counter basin with multiple taps, wherein the method comprises the following steps: generating a counter basin according to the designed counter basin parameters; and determining a designed faucet mounting position according to the orthographic projection drawing of the counter basin and the designed translation distance and mounting angle, and then mounting the faucet at the designed faucet mounting position. The basin can be generated according to various parameters designed by a user, and the multiple faucets can be installed on the basin in a user-defined and default mode, so that the design diversity and efficiency of the user can be improved on the basis of meeting the use habits of the user.

Description

Method, device and system for generating counter basin and installing multiple taps

Technical Field

The invention relates to the field of home decoration design, in particular to a method, a device and a system for generating a counter basin and installing multiple taps.

Background

In the home decoration design, particularly the customization of kitchens and bathrooms, the counter basin water tank has various designs, not only has various models, but also has very personalized designs on the installation mode, the installation position, the relationship with a table top and the like of a cabinet. In the past, the highly customized kitchen and bathroom cabinet can only be modeled independently according to needs, the design is complex, the efficiency is low, and the universality is poor. This is especially complicated with multiple basins, taps and accessories.

Based on the spatial position relation of bathroom counter basin, need support the installation in special direction when the design, for example basin is installed in the side of counter basin or the oblique angle direction under the circular platform, for example rectangular shape two under the water hole counter basin, need install under the water hole directly over. The faucet on the counter basin can have a special rotating mode due to a special installation angle, for example, the faucet is installed on a side-pointing down nozzle, for example, a custom installation angle of a kitchen faucet and the like, and a series of design methods are needed to provide corresponding capabilities.

The patent application with the application publication number of CN 109583010A discloses a method for automatically configuring power consumption terminals based on household appliances and soft package arrangement in decoration and fitment software, and the patent application with the application publication number of CN 110727979A discloses a whole-house intelligent hydropower generation system based on house type in decoration and fitment design software. Both of these patent applications are hydroelectric design methods and the installation method of multiple faucets for counter basins is not involved.

Disclosure of Invention

In view of the above, the present invention provides a method, device and system for generating and installing multiple taps for a basin, so as to improve design diversity and design efficiency of the multiple taps for generating and installing the basin.

In a first aspect, a method for generating and installing a multi-tap for a counter basin provided by an embodiment of the present invention includes:

generating a counter basin according to the designed counter basin parameters;

and determining a designed faucet mounting position according to the orthographic projection drawing of the counter basin and the designed translation distance and mounting position angle, and then mounting the faucet at the designed faucet mounting position.

In one embodiment, the basin parameters include basin depth and basin shape, and when the basin is designed on the cabinet, the basin parameters further include a margin from the cabinet edge.

In another embodiment, the installation of the multi-tap further comprises: and according to the faucet installation position contained in the configuration information of the counter basin, the faucet is designed and installed at the configured faucet installation position.

In another embodiment, the installation of the multi-tap further comprises: according to the position of a lower water hole of the counter basin, a water outlet of the faucet is aligned with the position of the lower water hole to determine a faucet mounting position, and then the faucet is mounted at the determined faucet mounting position.

In another embodiment, the installation of the multi-tap further comprises: on the basis of determining the faucet mounting position by aligning and mounting the water outlet of the faucet with the water outlet hole position of the counter basin, the faucet mounting position is moved by the set offset distance along the offset line parallel to the contour of the counter basin according to the set offset distance, a new faucet mounting position is determined, and then the faucet is mounted at the new faucet mounting position.

In another embodiment, the installation of the multi-tap further comprises: and designing a faucet mounting angle, and mounting the faucet according to the faucet mounting angle.

In another embodiment, when the faucet is installed at the faucet installation position, the coordinates of the faucet in the faucet coordinate system are converted into the coordinates in the counter basin coordinate system according to the mapping relation between the faucet coordinate system and the counter basin coordinate system, and the coordinates are aligned according to the coordinates of the faucet and the faucet installation position in the counter basin coordinate system, namely, the faucet is installed at the faucet installation position.

In another embodiment, when the basin and faucet thereon are designed on the cabinet, the basin and faucet thereon are integrated as a single hardware enclosure that is designed on the cabinet.

In a second aspect, a basin generating and installing multi-tap device provided by an embodiment of the present invention includes a computer memory, a computer processor, and a computer program stored in the computer memory and executable on the computer processor, and the computer processor implements the basin generating and installing multi-tap method steps provided by the first aspect when executing the computer program.

In a third aspect, a system for generating and installing a multi-tap for a basin provided by an embodiment of the present invention includes: the design terminal provides an editable user panel, collects design content edited by a user through the user panel and then sends a faucet installation design request containing the design content to the server, wherein the design content comprises a counter basin parameter, a translation distance, an installation position angle, an offset distance and an installation angle;

and after the server receives and analyzes the faucet installation design request, generating a counter basin and installing multiple faucets on the counter basin according to the counter basin generation and installation method provided by the first aspect according to the received design content and the scene model.

Compared with the prior art, the invention has the beneficial effects that at least:

the method, the device and the system for generating and installing the multi-tap of the counter basin can realize the generation of the counter basin and the self-defining and default installation of the multi-tap on the counter basin according to various parameters designed by a user, and can improve the design diversity and efficiency of the user on the basis of conforming to the use habits of the user.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a flow chart of a method for generating and installing a multi-tap for a counter basin according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a faucet mounting location determination method provided by an embodiment of the present invention;

FIG. 3 is a schematic diagram of a faucet mounting location determination method provided by an embodiment of the present invention;

FIG. 4 is a schematic diagram of a basin generation and installation multi-faucet system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1

In order to improve the design diversity and design efficiency of basin generation and installation of multiple faucets, embodiment 1 provides a basin generation and installation method of multiple faucets, as shown in fig. 1, including the following steps:

and S101, generating a counter basin according to the designed counter basin parameters.

The basin is a sanitary appliance and can be divided into an upper basin with a protruding table top and a lower basin with a completely recessed table top. Often there are also weep holes in the counter basin. In the household design, the counter basin is generally designed on the cabinet body, and is also directly connected to the bottom surface through a sewer pipe. The counter basin can be in the shape of an ellipse, a circle, a rectangle and the like.

The basin parameters include basin depth, which generally refers to the maximum depth of the basin, and basin shape. When the counter basin is designed on the cabinet body, the counter basin parameters further comprise the edge distance from the edge of the cabinet body, the counter basin parameters are edited and designed by a user, and then the counter basin is directly generated according to the counter basin parameters. In the embodiment, when the margin from the side of the cabinet is not set, the counter basin is generated at the center of the cabinet, and of course, the counter basin may be set at other positions of the cabinet according to the margin from the side of the cabinet set by the user.

In the embodiment, the basin is matched with the table top, namely the basin is generated on the table top in a punching mode. And meanwhile, the design of a plurality of various types of basins at various positions on the cabinet body is also supported, after the design of the first basin is finished, when the design of the second basin is selected, and when basin parameters are not independently configured, the first basin parameter is adopted by default to generate the second basin.

In an embodiment, the basin can be generated in two modes, wherein in the first mode, the basin is generated on any cabinet body according to the parameters of the basin, in the second mode, a single basin is selected from an indoor scene, the parameters of the basin are reconfigured, and the basin is regenerated according to the configured parameters of the new basin.

S102, determining a designed faucet mounting position according to the orthographic projection drawing of the counter basin, the designed translation distance and the designed mounting position angle, and then mounting the faucet at the designed faucet mounting position.

According to different requirements of users, at least one faucet can be installed at different positions of a basin at different angles, a faucet installation position is determined firstly when the faucet is installed, and then a faucet hole position corresponds to the faucet installation position to determine the position of the generated faucet, so that the method for determining the faucet installation position is very important, and the design efficiency is improved while various requirements of the users are met.

In the embodiment, when the faucet mounting position is determined, because the faucet is to be mounted at each position of the basin, in order to improve the design efficiency, as shown in fig. 2, an orthographic projection view of the basin is calculated first, then a planar coordinate system is established with the center of the orthographic projection view as an origin, the translation distance refers to a distance for translating an orthographic projection contour of the basin outwards along coordinate axes of the planar coordinate system, an extended contour is formed after the translation is performed for a certain distance, the faucet mounting position is mounted on the extended contour, and the mounting position angle is an angle selected clockwise or counterclockwise along the coordinate axes of 0 degree with one coordinate axis of the planar coordinate system being 0 degree. After the translation distance and the installation position angle are determined, the faucet installation position can be determined on the expansion contour of the counter basin.

In another embodiment, the installation of the multi-tap further comprises: and according to the faucet installation position contained in the configuration information of the counter basin, the faucet is designed and installed at the configured faucet installation position.

The basin-mounted multi-faucet provided by the embodiment comprises a default faucet-mounted mode, wherein in the default faucet-mounted mode, faucet mounting bit data contained in configuration information of a three-dimensional basin model can be extracted, and after a faucet mounting position is generated according to the faucet mounting bit data, a faucet is designed and mounted in the configured faucet mounting position. The installation speed is faster, but the individuation is not strong depending on the configuration information of the three-dimensional model of the counter basin, and the method is suitable for a user with the individuation not strong to install the faucet by default.

In another embodiment, the installation of the multi-tap further comprises: according to the position of a lower water hole of the counter basin, a water outlet of the faucet is aligned with the position of the lower water hole to determine a faucet mounting position, and then the faucet is mounted at the determined faucet mounting position.

In order to meet the design requirements of various users, as shown in fig. 3, the embodiment further provides an installation mode of aligning the water outlet and the lower water hole position, and the installation mode belongs to a mode of auxiliary faucet installation. When the water outlet and the lower water hole position are aligned, firstly, the water outlet of the faucet is aligned with the lower water hole position of the counter basin, the faucet mounting position on the counter basin is determined and set according to the size and the shape of the faucet after alignment, the hollow mounting position is arbitrary, in order to further determine the specific position of the faucet mounting position, on the basis that the water outlet of the faucet is aligned with the lower water hole position of the counter basin and the faucet mounting position is determined, the faucet mounting position is moved by the set offset distance along the offset line parallel to the outline of the counter basin according to the set offset distance, a new faucet mounting position is determined, and then the faucet is mounted at the new faucet mounting position. In the scheme, the lower water hole position is used as auxiliary equipment for assisting in determining the faucet installation position.

In the embodiment, the offset line passes through the faucet mounting position, can be in the projection of the basin, and can also be outside the projection of the basin without limitation. The offset distance is a distance along an offset line, and an offset angle may be set, and in the case where the offset distance is known, the offset angle is relatively determined.

In the above embodiments, only the position of the faucet mounting position is determined, but when the faucet is mounted, not only the mounting position of the faucet but also the mounting angle of the faucet are involved, so that on the basis that the faucet mounting position is determined in the above embodiments, the faucet mounting angle is also designed when multiple faucets are mounted, and the faucet is mounted according to the faucet mounting angle. The faucet installation angle refers to an angle of rotation along a z-axis of a coordinate system of the counter basin, the z-axis is perpendicular to the ground, and the faucet installation angle directly determines the orientation of the faucet.

In the above embodiments, when the faucet is installed at the faucet installation site, the coordinates of the faucet in the faucet coordinate system are converted into the coordinates in the counter basin coordinate system according to the mapping relationship between the faucet coordinate system and the counter basin coordinate system, and coordinate alignment is performed according to the coordinates of the faucet and the faucet installation site in the counter basin coordinate system, that is, the faucet is installed at the faucet installation site. The method has the advantages of simple installation and calculation according to the coordinates, high speed and high accuracy.

In the basin generating and multi-tap installing method provided by the above embodiment, when the basin and the tap thereon are designed on the cabinet body, the basin and the tap thereon can be integrally formed into a hardware wrapping layer, and then the hardware wrapping layer is designed on the cabinet body. The hardware enclosure is a virtual structure used to bind the basin and faucet thereon together, similar to a bounding box. The hardware packages adopt a class data structure, each hardware package can contain at least 1 counter basin data, and the subclasses of counter basins contain at least one faucet data.

The method for generating the counter basin and installing the multiple taps, provided by the embodiment 1, provides multiple counter basin generation methods and methods for installing the multiple taps on the counter basin, can automatically generate the counter basin and the tap meeting design requirements according to the design requirements of users, meets the design requirements of different scenes, enriches the design capability of the users, simplifies the operation of the users, is simple and reliable in calculation method, and can greatly improve the design efficiency.

Example 2

In order to improve the design diversity and design efficiency of basin generation and installation of multiple faucets, embodiment 2 provides a basin generation and installation multiple faucet device, comprising a computer memory, a computer processor and a computer program stored in the computer memory and executable on the computer processor, wherein the computer processor implements the basin generation and installation multiple faucet method steps provided in embodiment 1 when executing the computer program.

In practical applications, the computer memory may be volatile memory at the near end, such as RAM, or may be non-volatile memory, such as ROM, FLASH, floppy disk, mechanical hard disk, etc., or may be a remote storage cloud. The computer processor may be a Central Processing Unit (CPU), a Microprocessor (MPU), a Digital Signal Processor (DSP), or a Field Programmable Gate Array (FPGA), that is, the method steps for generating and installing the multi-tap for the counter basin according to the embodiments may be implemented by these processors.

The counter basin generating and installing multi-faucet device provided by the embodiment 2 can automatically generate the counter basin and the faucet meeting design requirements according to the design requirements of users, meet the design requirements of different scenes, enrich the design capability of the users, simplify the operation of the users, and meanwhile, the calculation method is simple and reliable and can greatly improve the design efficiency.

Example 3

In order to improve design diversity and design efficiency of basin generation and installation of a multi-faucet, as shown in fig. 4, embodiment 3 further provides a basin generation and installation multi-faucet system 400, which includes a design terminal 401 and a server 402 communicatively connected to the design terminal, where the design terminal 401 provides an editable user panel, and sends a faucet installation design request including design content to the server 402 after collecting design content edited by a user through the user panel, where the design content includes basin parameters, translation distance, installation angle, offset distance, and installation position angle;

after receiving and analyzing the faucet installation design request, the server 402 generates a basin and installs multiple faucets on the basin according to the basin generation and installation method provided in embodiment 1 according to the received design content and scene model.

In one embodiment, the system provides a basin automatic generation function for a user, the user sets basin parameters through a user panel of a design terminal, the design terminal adopts the basin parameters set by the user and sends a basin generation request containing the basin parameters to a server, and the server receives and analyzes the basin generation request to obtain the basin parameters and then automatically generates a basin according to the basin parameters.

In one embodiment, the system provides a basin default faucet installation mode for a user, a design terminal sends a basin default faucet installation request to a server, the server calls faucet installation bit data contained in configuration information of a three-dimensional basin model based on the basin default faucet installation request sent by the design terminal, and after a faucet installation bit is generated according to the faucet installation bit data, the faucet is designed and installed in the configured faucet installation bit.

In another embodiment, the system further provides another faucet aligning and installing mode of the counter basin for the user, the design terminal sends a faucet aligning and installing request of the counter basin to the service terminal, the service terminal determines a launching hole position of the counter basin according to the faucet aligning and installing request sent by the design terminal, the three-dimensional model of the counter basin is called, a water outlet of the faucet is aligned with the launching hole position to determine a faucet installing position, and then the faucet is installed at the determined faucet installing position.

In the mode of aligning and installing the faucet, a user designs an offset distance through a design terminal, the design terminal collects the offset distance edited by the user and sends a faucet installation position adjustment request containing the offset distance to a server, the server moves the faucet installation position along the offset line parallel to the contour of the basin by the set offset distance, a new faucet installation position is determined, and then the faucet is installed in the new faucet installation position.

In another embodiment, the system provides a basin free mounting faucet mode for a user, the design terminal collects the translation distance and the mounting angle edited by the user through a user panel and sends a faucet mounting position design request containing the translation distance and the mounting angle to the server; after the server receives and analyzes the faucet installation design request, a three-dimensional basin model is called, an orthographic projection drawing of the basin is generated based on the three-dimensional basin model, a designed faucet installation position is determined on the orthographic projection drawing according to the translation distance and the installation angle, and then the faucet is installed at the designed faucet installation position.

On the basis of the above embodiment, the system also provides the function of adjusting the angle of the installation position for the user. The user designs the installation position angle through the design terminal, and the design terminal gathers the installation position angle that the user edited to send the leading installation position angle adjustment request that contains the installation position angle to the server, after the server received and analyzed leading installation position angle adjustment request, carry out angle adjustment to the leading installation position that has designed, then according to leading installation position angle installation tap after the adjustment.

In the basin generating and installing multi-faucet system provided in embodiment 3, the specific steps of installing a faucet at a faucet installing position by a server side are detailed in the basin generating and installing multi-faucet method provided in embodiment 1, and are not described herein again.

The counter basin generating and installing multi-faucet system provided by the embodiment 3 can automatically generate the counter basins and the faucets meeting the design requirements according to the design requirements of users, meet the design requirements of different scenes, enrich the design capability of the users, simplify the operation of the users, and meanwhile, the calculating method is simple and reliable and can greatly improve the design efficiency.

The above-mentioned embodiments are intended to illustrate the technical solutions and advantages of the present invention, and it should be understood that the above-mentioned embodiments are only the most preferred embodiments of the present invention, and are not intended to limit the present invention, and any modifications, additions, equivalents, etc. made within the scope of the principles of the present invention should be included in the scope of the present invention.

Claims (9)

1. A method for generating and installing a plurality of taps on a counter basin is characterized by comprising the following steps:

generating a counter basin according to the designed counter basin parameters;

determining a designed faucet mounting position according to an orthographic projection drawing of the counter basin, the designed translation distance and the designed mounting position angle, and then mounting the faucet at the designed faucet mounting position;

when the faucet is installed at the faucet installation position, the coordinates of the faucet under the faucet coordinate system are converted into the coordinates under the counter basin coordinate system according to the mapping relation between the faucet coordinate system and the counter basin coordinate system, and coordinate alignment is carried out according to the coordinates of the faucet and the faucet installation position under the counter basin coordinate system, so that the faucet is installed at the faucet installation position.

2. The method of claim 1, wherein the basin parameters include basin depth and basin shape, and wherein the basin parameters further include the distance from the side of the cabinet when the basin is designed on the cabinet.

3. The counter basin creating and installing multi-tap method of claim 1 further comprising, when installing the multi-tap: and according to the faucet installation position contained in the configuration information of the counter basin, the faucet is designed and installed at the configured faucet installation position.

4. The counter basin creating and installing multi-tap method of claim 1 further comprising, when installing the multi-tap: according to the position of a lower water hole of the counter basin, a water outlet of the faucet is aligned with the position of the lower water hole to determine a faucet mounting position, and then the faucet is mounted at the determined faucet mounting position.

5. The counter basin creating and installing multi-tap method of claim 4 further comprising, when installing the multi-tap: on the basis of determining the faucet mounting position by aligning and mounting the water outlet of the faucet with the water outlet hole position of the counter basin, the faucet mounting position is moved by the set offset distance along the offset line parallel to the contour of the counter basin according to the set offset distance, a new faucet mounting position is determined, and then the faucet is mounted at the new faucet mounting position.

6. The counter basin creating and installing multi-tap method of any one of claims 1 to 5, wherein installing the multi-tap further comprises: and designing a faucet mounting angle, and mounting the faucet according to the faucet mounting angle.

7. The method of claim 1, wherein when designing a basin and faucet thereon, the basin and faucet thereon are integrated into a hardware enclosure, which is then designed on the cabinet.

8. A basin creating and installing multi-tap device comprising a computer memory, a computer processor and a computer program stored in said computer memory and executable on said computer processor, wherein said computer processor when executing said computer program implements the basin creating and installing multi-tap method steps of any of claims 1-7.

9. A basin generation and installation multi-faucet system comprises a design terminal and a server end in communication connection with the design terminal, and is characterized in that the design terminal provides an editable user panel, collects design content edited by a user through the user panel and then sends a faucet installation design request containing the design content to the server end, wherein the design content comprises basin parameters, a translation distance, an installation position angle, an offset distance and an installation angle;

after receiving and analyzing a faucet installation design request, the server generates a counter basin according to the counter basin generation and multi-faucet installation method of any one of claims 1 to 7 according to the received design content and scene model, and installs multiple faucets on the counter basin.

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