CN111241622A - Self-adaptive water heating electric pipeline adjusting system and method - Google Patents

Abstract

The invention discloses a self-adaptive water heating electric pipeline adjusting system and a method, wherein the system comprises: the system comprises a water heating electric component movement detection unit, a water heating electric component movement generation unit and a water heating electric component movement post-processing unit; the method comprises the following steps: step 1: scene arrangement, wherein a scene is drawn in a two-dimensional space or a three-dimensional space; step 2: the hot-water heating electric model arrangement comprises a strong-current model, a weak-current model, a water utilization model and a fresh air model; and step 3: automatically generating pipelines, and intelligently generating the water heating electric pipelines based on the water heating electric model arranged in the step 2; and 4, step 4: preparing a mobile model/pipeline; and 5: moving the model/pipeline; step 6: and (5) performing post-processing of the moving operation. The invention has the beneficial effects that: according to the adjustment operation of a user, the designated water heating electric pipeline and the related pipeline are intelligently moved to a reasonable position, and simultaneously, the overlapping and collision which are possibly generated in the moving process can be automatically processed.

Description

Self-adaptive water heating electric pipeline adjusting system and method

Technical Field

The invention relates to the field of intelligent generation of decoration and fitment design software, in particular to a self-adaptive water heating electric pipeline adjusting system and method.

Background

The water heating electric engineering belongs to the hidden engineering decoration of the decoration industry, is invisible after decoration and has unchangeable effect, and is a pain point in construction all the time in the aspect, and the pipeline arrangement and the trend design of the water heating electric engineering relate to the collision of a cross operation group in the construction process, and the rework phenomenon can also occur at the same time. The placement of the hydroelectric model and its piping arrangement need to meet certain national standards and industry conventions and are generally made by site construction by experienced hydroelectric workers. With the development of computer technology, a series of decoration design software is produced, and computer graphics are used to intelligently generate pipelines including water heating electric pipelines. Therefore, the trend of the whole pipeline can be visually and effectively observed, unreasonable pipelines can be timely adjusted, the reworking phenomenon is greatly reduced, and the decoration cost is saved.

Due to the specialty and complexity of the plumbing electrical wiring, most home software on the market today cannot automatically generate the plumbing electrical lines. Meanwhile, the automatically generated pipelines often cannot completely meet the requirements of users due to the limitation of algorithms, and the users need to manually adjust the pipelines. For a water heating system with higher specialty, manual adjustment is very troublesome, and a reasonable intelligent adjustment function is lacked. The user must expend a great deal of effort in the placement and adjustment of the models, the establishment and adjustment of the relationships between the models, and the placement and adjustment of the pipelines.

Disclosure of Invention

In order to solve the above problems, the present invention provides an adaptive plumbing electrical line adjusting system and method that intelligently moves a designated plumbing electrical line and an associated line to a reasonable position according to a user's adjustment operation, and at the same time, automatically handles overlaps and collisions that may occur during the movement.

In one aspect, the present invention provides an adaptive plumbing electrical line adjustment system, the system comprising: the system comprises a water heating electric component movement detection unit, a water heating electric component movement generation unit and a water heating electric component movement post-processing unit;

the water heating electric assembly movement detection unit is used for calculating, detecting and judging whether the current movement direction and the associated pipelines and models are reasonable or not;

the water heating electric component movement generating unit is used for moving the water heating electric model/pipeline;

the hydro-thermal electric component mobile post-processing unit is used for recording the position of the model/pipeline needing to be adjusted and the associated pipeline and processing the model/pipeline.

In another aspect, the present invention further provides an adaptive plumbing electrical pipeline adjusting method, including the following steps:

step 1: scene arrangement, wherein a scene is drawn in a two-dimensional space or a three-dimensional space;

step 2: the hot-water heating electric model arrangement comprises a strong-current model, a weak-current model, a water utilization model and a fresh air model;

and step 3: automatically generating pipelines, and intelligently generating the water heating electric pipelines based on the water heating electric model arranged in the step 2;

and 4, step 4: preparing a mobile model/pipeline, calculating, detecting and judging whether the current moving direction and the related pipeline and model are reasonable or not through the water heating electric assembly mobile detection unit;

and 5: the movement model/pipeline moves the water heating electric module/pipeline through the water heating electric assembly movement generation unit;

step 6: and (4) moving operation post-processing, namely moving a post-processing unit through the water heating electric component, recording the position of the model/pipeline needing to be adjusted and the associated pipeline, and processing the model/pipeline.

The invention has the beneficial effects that:

(1) the invention enables the user to easily operate the movement of the model and the pipeline and move the pipeline to a reasonable position, thereby automatically verifying whether the movement operation of the user is feasible and reasonable or not and intelligently processing a series of problems caused by the movement of the user;

(2) when the model or the pipeline is moved, the pipeline related to the model or the pipeline can be automatically related, moved and kept linked, and the operations of alignment, duplication removal, splicing and the like of all related pipelines in synchronous movement can be intelligently completed; the repeated operation of the user by one pipe is avoided, the operation amount of the user is reduced, and meanwhile, the accuracy of the user in modifying the movable pipeline is improved.

Drawings

FIG. 1 is a diagram of the plumbing electrical line conditioning system of the present invention;

FIG. 2 is a flow chart of the method for adjusting the plumbing electrical line according to the present invention;

FIG. 3 is a schematic diagram of the hydro-heating electric mobile detection unit algorithm of the present invention;

FIG. 4 is a schematic diagram of the hydro-heating electric mobile generation unit algorithm of the present invention;

FIG. 5 is a schematic diagram of the hydro-heating electric mobile post-processing unit algorithm of the present invention;

FIG. 6 is a schematic diagram of the movement of a fresh air line according to an embodiment of the present invention;

FIG. 7 is a diagram illustrating the effect of the fresh air pipeline after moving according to the embodiment of the present invention;

FIG. 8 is a schematic diagram of the movement of a strong electric power line according to an embodiment of the present invention;

FIG. 9 is a diagram illustrating the effect of the strong electric power line after moving according to the embodiment of the present invention.

The specific implementation mode is as follows:

the invention will be further described with respect to specific embodiments in conjunction with the following drawings:

as shown in fig. 1, the present invention provides an adaptive plumbing electrical line adjusting system, which includes: the system comprises a water heating electric component movement detection unit, a water heating electric component movement generation unit and a water heating electric component movement post-processing unit;

the water heating electric assembly movement detection unit is used for calculating, detecting and judging whether the current movement direction and the associated pipelines and models are reasonable or not;

if the water heating electric component movement detection unit detects and judges whether the position of the movement is reasonable or not through algorithm calculation, if the moved pipeline and the model do not meet the movement conditions, such as electric pipes transversely arranged on a wall surface, the movement is forbidden, and a user is prompted; during the operation, it is also calculated whether there is a more reasonable position for the current moving operation, for example, the moving pipeline and another pipeline can be merged after moving (the horizontal distance is small), and then the intelligent adjustment is automatically carried out.

A hydro-thermal electric component movement generation unit for moving the hydro-thermal electric model/pipeline;

in this embodiment, the following rule is made according to the difference of the moving objects:

strong electricity top/ground model (e.g. ceiling lamp)

(1) Can only move in the flat top/bottom;

(2) according to different connection modes of the electric pipes, the connection method is divided into a direct connection method and a right-angle connection method, and when the direct connection method moves, the bent part rotates. When the horizontal and vertical connection method moves, pipeline linkage is generated.

Strong electricity wall model (such as wall lamp, wall switch, wall socket, etc.)

(1) The pipeline can only move on the same wall or on parallel and connected walls, otherwise, the connected pipelines are deleted;

(2) in principle no cross tubes are allowed to appear unless the pattern spacing is less than 500 mm.

(3) The movement keeps the pipeline linkage along the horizontal, flat and vertical rules.

The weak current model is similar to the strong current.

Water model

(1) The water model is basically distributed on the wall surface;

(2) unlike a heavy-duty pipe, a water pipe allows for direct connection;

(3) the movement keeps the pipeline linkage along the horizontal, flat and vertical rules.

Fresh air model

(1) The fresh air fan is arranged at the top of a room, the moving mode is similar to that of a strong electric top model, and the linkage of pipelines is kept according to the horizontal and vertical rules;

(2) the moving mode of the outer air port/inner air port is similar to that of a strong electric wall surface model, and the linkage of pipelines is kept according to the horizontal and vertical rules.

The water heating electric component mobile post-processing unit is used for recording the position of the model/pipeline needing to be adjusted and the associated pipeline and processing the model/pipeline;

if the pipelines collide or overlap after the moving process or pipelines needing post-optimization processing exist, positions needing to be adjusted and related pipelines are recorded, corresponding processing is carried out in a follow-up unified mode, overlapped parts are combined, the collided parts automatically bridge or are set to be offset, and pipelines which are too short can be automatically deleted and combined.

Example 1:

the invention also provides a self-adaptive adjusting method of the water heating electric pipeline, which comprises the following steps:

step 1: scene arrangement, wherein a scene is drawn in a two-dimensional space or a three-dimensional space; drawing house type information, and placing soft furniture, hard furniture, models and the like.

Step 2: the hot-water heating electric model arrangement comprises a strong-current model, a weak-current model, a water utilization model and a fresh air model; in this embodiment, the following furniture members are arranged in each room, respectively:

strong electric model: lamps, switches, sockets, distribution boxes

And (3) weak current model: weak current socket and box

Using a water model: cold and hot water inlet, water source

Fresh air model: fresh air blower, fresh air inlet and outlet

And step 3: automatically generating pipelines, and intelligently generating the water heating electric pipelines based on the water heating electric model arranged in the step 2;

the method comprises the following specific steps:

step 301: identifying house type information including rooms, walls, doors, windows and the like, for example, a study room at the upper left side has four walls, a door and a window;

step 302: traversing furniture to generate a communication relation graph of the furniture, a room, a wall and a door window;

step 303: and sequentially generating three-dimensional pipeline position information of the strong and weak electric pipes/the water pipes/the fresh air pipes according to the wiring rule. In the embodiment, a fresh air pipe and a plurality of inner and outer air ports are arranged to form a fresh air pipe and a dirty air pipe; the directions of the fresh air inlet and the fresh air outlet are distinguished, and a proper fresh air fan outlet is connected;

step 304: and respectively generating various pipelines into the three-dimensional scene according to the three-dimensional information generated by the pipelines and different types.

And 4, step 4: preparing a moving model/pipeline, and calculating, detecting and judging whether the current moving direction and the associated pipeline and model are reasonable or not through a hydro-thermal electric assembly movement detection unit, as shown in fig. 3.

The method comprises the following specific steps: preparing a moving model/pipeline, dragging the model connected with the pipeline by a mouse, and then detecting the moving direction and distance of the model by the water heating electric component moving detection unit to judge whether the moving is reasonable or not; if the movement is judged to be reasonable, simulating and previewing the movement operation; otherwise, quitting the step; and then simulating and previewing the moving operation. In the preview process, whether the movement needs to be adjusted or not and whether staggering, overlapping or collision is generated or not are judged, and corresponding user prompts are given. Meanwhile, the dragged distance amount can be intelligently corrected, so that the next unit can move more accurately.

And 5: and a moving model/pipeline moving the hydro-thermo-electric model/pipeline through the hydro-thermo-electric component movement generation unit, as shown in fig. 4.

The hydro-thermal electric component movement generating unit sequentially decomposes and distributes the movement vectors to the associated pipelines and applies the movement vectors to the coordinates of each pipeline and model.

Step 6: and (4) moving the post-processing unit through the hydro-thermal electric component, recording the position of the model/pipeline needing to be adjusted and the associated pipeline, and processing the model/pipeline, as shown in figure 5.

The water heating electric component mobile post-processing unit is responsible for verifying a mobile result, combining and adjusting overlapped and staggered positions, automatically generating a gap bridge component, and combining overlapped pipelines. And if the mobile result is detected to have the problem that the mobile result cannot be processed, rolling back the mobile result and prompting the reason of the user.

The following two pipeline movement cases are briefly described in the form of pictures.

1. Fresh air duct movement

As shown in fig. 6, the user wishes to move the selected fresh air duct to the dashed line position. Because the mouse moves, inaccuracy exists, after the mouse passes through the water heating electric component movement detection unit, the vector of the movement is adjusted to the position of the connection position of the circle tee joint in the figure 6, after the movement is finished, the direction of the tee joint is automatically adjusted, and the overlapped pipelines are removed, as shown in the figure 7.

2. Movement of the magnetron

As shown in fig. 8, exemplary moving the squib, en route, will move the selected lamp model to the arrow position. Note that the lamps are connected differently to the left-hand switch and the right-hand model, and the movement behavior is different. The left switch and the lamp are connected in a vertical and direct connection mode, and the right switch and the lamp are connected in a horizontal and vertical connection mode. The effect after the movement shown in fig. 9 is that the wall part to the left of the wall to which the switch is attached remains stationary and the top part is rotated. Looking again at the right hand portion, a length extension has occurred.

The foregoing is illustrative of the preferred embodiments of the present invention only and is not to be construed as limiting the claims. All the equivalent structures or equivalent process changes made by the description of the invention are included in the scope of the patent protection of the invention.

Claims (5)

1. An adaptive plumbing electrical line conditioning system, said system comprising: the system comprises a water heating electric component movement detection unit, a water heating electric component movement generation unit and a water heating electric component movement post-processing unit;

the water heating electric assembly movement detection unit is used for calculating, detecting and judging whether the current movement direction and the associated pipelines and models are reasonable or not;

the water heating electric component movement generating unit is used for moving the water heating electric model/pipeline;

the hydro-thermal electric component mobile post-processing unit is used for recording the position of the model/pipeline needing to be adjusted and the associated pipeline and processing the model/pipeline.

2. An adaptive plumbing electrical line adjustment method, characterized by comprising the steps of:

step 1: scene arrangement, wherein a scene is drawn in a two-dimensional space or a three-dimensional space;

step 2: the hot-water heating electric model arrangement comprises a strong-current model, a weak-current model, a water utilization model and a fresh air model;

and step 3: automatically generating pipelines, and intelligently generating the water heating electric pipelines based on the water heating electric model arranged in the step 2;

and 4, step 4: preparing a mobile model/pipeline, calculating, detecting and judging whether the current moving direction and the related pipeline and model are reasonable or not through the water heating electric assembly mobile detection unit;

and 5: the movement model/pipeline moves the water heating electric module/pipeline through the water heating electric assembly movement generation unit;

step 6: and (4) moving operation post-processing, namely moving a post-processing unit through the water heating electric component, recording the position of the model/pipeline needing to be adjusted and the associated pipeline, and processing the model/pipeline.

3. The adaptive plumbing electrical line adjusting method according to claim 2, wherein the step 3 further comprises:

step 301: identifying the house type information;

step 302: traversing furniture to generate a communication relation graph of the furniture, a room, a wall and a door window;

step 303: sequentially generating three-dimensional pipeline position information of the strong and weak electric pipes/water pipes/fresh air pipes according to wiring rules;

step 304: and respectively generating various pipelines into the three-dimensional scene according to the three-dimensional information generated by the pipelines and different types.

4. The adaptive plumbing electrical line adjusting method according to claim 2, wherein the step 4 further comprises:

step 401: the water heating electric component movement detection unit detects the movement direction and distance of the model and collects movement data;

step 402: judging whether the movement is reasonable or not;

step 403: if the movement is judged to be reasonable, simulating and previewing the movement operation; otherwise, quitting the step;

step 404: in the preview movement process, whether the movement needs to be adjusted or not is judged, namely whether the movement needs to be adjusted or not is staggered, overlapped or collided, and corresponding user prompts are given;

step 405: meanwhile, the motion vector is intelligently adjusted so as to facilitate accurate movement.

5. The adaptive plumbing electrical line adjusting method according to claim 2, wherein the step 5 further comprises:

step 501: acquiring movement information, wherein the movement generating unit of the water heating electric component acquires the movement direction and distance of a model/pipeline;

step 502: respectively processing the associated pipelines according to the connection relation of the pipelines;

step 503: decomposing and distributing the motion vectors to associated pipelines in sequence;

step 504: to the coordinates of each pipeline and model.

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