CN112926124A - Hydropower wiring planning scheme generation and adjustment method and system - Google Patents

Abstract

The invention discloses a method and a system for generating and adjusting a hydropower wiring planning scheme, wherein the method comprises the following steps: acquiring spatial distribution information, circuit arrangement information and water pipe arrangement information of a house; dividing a distribution line area according to the spatial distribution information of the house; calculating a circuit wiring scheme in each wiring area according to the circuit arrangement information in the wiring area; calculating a water pipe wiring scheme in each wiring area according to the water pipe deployment information in the wiring area; and adjusting the circuit wiring scheme according to the matching condition of the hydropower wiring scheme in each wiring area and the hydropower wiring requirement. The invention solves the problem of how to effectively divide wiring areas according to the spatial distribution of a house and design and adjust the wiring scheme of circuits and water pipes in each wiring area according to the water and electricity wiring requirements.

Description

Hydropower wiring planning scheme generation and adjustment method and system

Technical Field

The invention belongs to the technical field of intelligent decoration, and particularly relates to a method and a system for generating and adjusting a water and electricity wiring planning scheme.

Background

The existing water and electricity wiring in indoor decoration construction is mainly executed by constructors according to experience. The related technology of current water and electricity wiring planning, for example, the chinese patent "an intelligent integrated cable wiring structure for building decoration" with publication number CN111900677A, proposes that the wiring structure comprises a wire fixing patch, the surface of the wire fixing patch is provided with a wire fixing chuck, and the wire fixing chuck comprises a fixed seat and a fixed clamp; the fixing seat comprises a fixing sheet and a tubular connecting pipe, the fixing sheet is fixedly connected with the wire fixing patch, the connecting pipe is fixedly connected to the fixing sheet, an internal thread is arranged on the inner side wall of the connecting pipe, the fixing clamp comprises a connecting column, an external thread is arranged on the side surface of the connecting column, the connecting column is in threaded connection with the connecting pipe, and two clamping arms for clamping an electric wire are arranged at one end of the connecting column; the surface of the thread-fixing patch is provided with a plurality of rows of thread-fixing chucks, the thread-fixing chucks are arranged in the width direction of the thread-fixing patch at equal intervals, each row of thread-fixing chucks comprises a plurality of thread-fixing chucks, and each row of thread-fixing chucks are arranged along the length direction of the thread-fixing patch at equal intervals. The Chinese patent 'prefabricated laminated slab standardized pipeline pre-buried wiring method' with publication number CN111884121A proposes to avoid damage to prefabricated parts when chiseling and cutting are carried out on a construction site, reserve a pre-buried point location comprehensive graph to facilitate leakage detection and filling, facilitate checking equipment point location conflict conditions among various systems, find problems in time and solve the problems; after the pipeline optimized layout is provided, the pipeline laying modes of the same house type on the construction site are the same, so that the pipeline can be repaired conveniently in the later period; the overlapped cross area is independently designed, so that the thickness of the structural layer is reduced, the later cracking of the laminated slab caused by over concentration of pipelines is avoided, and the construction cost is reduced; after concrete pouring is finished, marks are made in the wiring area, and pipelines are prevented from being damaged in the later period due to the construction process.

The technical scheme is a structure of the line and a method for pre-burying and wiring. However, the above solutions cannot effectively divide wiring areas according to the spatial distribution of a house and design and adjust the wiring schemes of circuits and water pipes in each wiring area according to the requirements of water and electricity wiring. At present, a technical scheme for effectively dividing distribution line areas according to the spatial distribution of a house and designing and adjusting circuit and water pipe wiring schemes in the wiring areas according to water and electricity wiring requirements does not exist, and therefore a method and a system for generating and adjusting a water and electricity wiring planning scheme are provided.

Disclosure of Invention

The invention provides a method and a system for generating and adjusting a hydropower wiring planning scheme in order to solve the problems.

The invention discloses a method for generating and adjusting a hydropower wiring planning scheme, which is characterized by comprising the following steps of:

acquiring spatial distribution information, circuit arrangement information and water pipe arrangement information of a house;

dividing a distribution line area according to the spatial distribution information of the house;

calculating a circuit wiring scheme in each wiring area according to the circuit arrangement information in the wiring area;

calculating a water pipe wiring scheme in each wiring area according to the water pipe deployment information in the wiring area;

and adjusting the circuit wiring scheme according to the matching condition of the hydropower wiring scheme in each wiring area and the hydropower wiring requirement.

Preferably, the house space distribution information includes any one or more combination of room distribution information of the house, isolated space information of the house, and independent space information of the house.

Preferably, the circuit arrangement information includes any one or more combination of strong and weak power information, circuit usage information, circuit arrangement diagram information, circuit number information, circuit direction information and circuit slotting information.

Preferably, the water pipe deployment information includes any one or more combination of water pipe deployment position information, water pipe joint information, original water supply and drainage point information, water pressure information and water pipe slotting information.

Preferably, the step of dividing the distribution line region according to the spatial distribution information of the house includes the steps of:

obtaining information of each independent space in the house according to the house space distribution information, wherein the information comprises area information and use information of each independent space and distance information between each independent space;

calculating the space wiring weight of each independent space according to the area information and/or the use information of each independent space;

and if the space wiring weight of the independent space is larger than a wiring weight threshold value which is set in advance, taking the independent space as an independent wiring area, and otherwise, combining the independent space and the independent space which is closest to the independent space to be taken as a wiring area.

Preferably, the calculating a circuit wiring scheme in each wiring area according to the circuit arrangement information in the wiring area includes:

acquiring circuit layout information in a wiring area, wherein the circuit layout information comprises strong and weak current information, circuit positioning point position information and circuit slotting position; the circuit positioning point position is a position exposed out of the wall body and comprises a socket position, a switch position and a lamp position;

calculating the shortest circuit wiring with separated strength and weakness according to the position of the circuit positioning point, the strength and weakness electric information and the circuit slotting position;

calculating the number of electric wires in each circuit tube according to the number of circuits in the wiring area;

and obtaining a circuit wiring scheme in the wiring area according to the shortest circuit wiring separated by the strength and the weakness and the number of electric wires in each circuit pipe.

Preferably, the calculating a water pipe wiring scheme in each wiring area according to the water pipe deployment information in the wiring area includes:

acquiring water pipe deployment information in a wiring area, wherein the water pipe deployment information comprises water pipe deployment position information, original water supply and drainage point information and water pipe slotting information;

calculating the shortest water pipe wiring close to the original water supply and drainage point according to the original water supply and drainage point information and the water pipe slotting position;

calculating the position of a water pipe joint according to the distribution of the wiring area and the water pipe deployment position information;

and obtaining a water pipe wiring scheme in the wiring area according to the shortest water pipe wiring close to the original water supply and drainage point and the position of the water pipe joint.

Preferably, the method further comprises the steps of: and acquiring a wall body with a transverse slot and/or an inclined slot and/or an irregular slot and judging whether the bearing of the wall body is abnormal.

Preferably, the adjusting the circuit wiring scheme according to the matching condition of the hydropower wiring scheme and the hydropower wiring requirement in each wiring area comprises the following steps:

acquiring water and electricity wiring requirement information, including strong and weak electricity separation requirement information, quantity requirement information of electric wires in a circuit pipe, circuit wiring requirement information, water pipe top-walking requirement information and pressure requirement information of a water pipe joint;

calculating a circuit wiring matching value according to the matching condition of the circuit wiring scheme in the wiring area and the strong and weak current separation requirement information and/or the quantity requirement information of the electric wires in the circuit pipe and/or the circuit wiring requirement information;

calculating a water pipe wiring matching value according to the matching condition of the water pipe wiring scheme in the wiring area and the requirement information of the water pipe top and/or the pressure requirement information of the water pipe joint;

calculating the rationality value of the water and electricity wiring scheme in the wiring area according to the circuit wiring matching value and/or the water pipe wiring matching value;

and when the rationality value of the hydropower wiring scheme in the wiring area is smaller than a preset rationality threshold value, judging that the hydropower wiring scheme in the wiring area is unreasonable, and adjusting the hydropower wiring scheme in the wiring area according to the difference value between the hydropower wiring scheme in the wiring area and the requirement information of the hydropower wiring.

A computer-readable storage medium storing a computer program for electronic data exchange, wherein the computer program causes a computer to perform the above method.

A system for generating and adjusting a water and electricity wiring planning scheme is characterized by comprising:

a set of sensors; the system is used for detecting the space distribution data and the hydropower construction data of a house;

a processor;

a memory;

and

one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the processor, the programs causing the computer to perform the above-described method.

The method and the system have the advantages that:

(1) and calculating the space wiring weight planning wiring area of each independent space according to the area information and/or the use information of each independent space, and reasonably partitioning and wiring the house space to avoid wiring confusion.

(2) The shortest circuit wiring with separated strength and weakness is calculated according to the position of the circuit positioning point, the strength and weakness information and the circuit slotting position, the number of electric wires in each circuit pipe is calculated according to the number of circuits in the wiring area, and the circuit wiring scheme in each wiring area can be effectively obtained.

(3) The shortest water pipe wiring close to the original water supply and drainage points is calculated according to the original water supply and drainage point information and the water pipe slotting position, the position of a water pipe joint is calculated according to the distribution of the wiring area, and the water pipe wiring scheme in each wiring area can be effectively obtained.

(4) The method comprises the steps of calculating a circuit wiring matching value according to the matching condition of a circuit wiring scheme in a wiring area and strong and weak current separation requirement information and/or the quantity requirement information of electric wires in a circuit pipe and/or the circuit wiring requirement information, and calculating a water pipe wiring matching value according to the matching condition of a hydropower wiring scheme in the wiring area and water pipe top running requirement information and/or water pipe joint pressure requirement information, so that whether the hydropower wiring scheme is reasonable or not can be effectively detected and adjusted.

Drawings

FIG. 1 is a flow chart of the steps of a method of generating and adjusting a hydroelectric wiring plan in accordance with an embodiment of the present invention;

figure 2 is a block diagram of a hydroelectric wiring plan generation and adjustment system in accordance with an embodiment of the present invention.

Detailed Description

The following describes in detail preferred embodiments of the present invention.

The hydropower wiring planning scheme generation and adjustment method can be applied to different application scenes, such as residential decoration, factory building decoration, shop decoration and the like in a community, and different ways of acquiring the spatial distribution data and hydropower construction data of a house are different according to different application scenes, including but not limited to acquiring the spatial distribution data of the house by adopting a house design drawing, acquiring hydropower design information (circuit positioning, wiring requirements and the like) in the house by adopting a pipeline design drawing, acquiring the spatial distribution of the house and the hydropower construction data according to a camera device and the like.

The embodiment of the method for generating and adjusting the hydropower wiring planning scheme is characterized in that:

acquiring spatial distribution information, circuit arrangement information and water pipe arrangement information of a house;

dividing a distribution line area according to the spatial distribution information of the house;

calculating a circuit wiring scheme in each wiring area according to the circuit arrangement information in the wiring area;

calculating a water pipe wiring scheme in each wiring area according to the water pipe deployment information in the wiring area;

and adjusting the circuit wiring scheme according to the matching condition of the hydropower wiring scheme in each wiring area and the hydropower wiring requirement.

Preferably, the house space distribution information includes any one or more combination of room distribution information of the house, isolated space information of the house, and independent space information of the house. In this embodiment, different application scenarios, such as residential decoration, factory building decoration, and shop decoration in a community, have different house layout characteristics, and the house spatial distribution information includes any one or a combination of room distribution information of a house, isolated space information of the house, and independent space information of the house.

Preferably, the circuit arrangement information includes any one or more combination of strong and weak power information, circuit usage information, circuit arrangement diagram information, circuit number information, circuit direction information and circuit slotting information. In this embodiment, different application scenarios, such as residential decoration in a cell, factory building decoration, shop decoration, etc., have different circuit arrangement information, where the circuit arrangement information includes any one or more combinations of strong and weak power information, circuit usage information, circuit arrangement diagram information, circuit quantity information, circuit trend information, and circuit slotting information.

Preferably, the water pipe deployment information includes any one or more combination of water pipe deployment position information, water pipe joint information, original water supply and drainage point information, water pressure information and water pipe slotting information. In this embodiment, different application scenarios, such as residential decoration in a community, factory building decoration, shop decoration, have different water pipe deployment information, where the water pipe deployment information includes any one or a combination of water pipe deployment position information, water pipe joint information, original water supply and drainage point information, water pressure information, and water pipe slotting information.

Preferably, the step of dividing the distribution line region according to the spatial distribution information of the house includes the steps of:

obtaining information of each independent space in the house according to the house space distribution information, wherein the information comprises area information and use information of each independent space and distance information between each independent space;

calculating the space wiring weight of each independent space according to the area information and/or the use information of each independent space;

and if the space wiring weight of the independent space is larger than a wiring weight threshold value which is set in advance, taking the independent space as an independent wiring area, and otherwise, combining the independent space and the independent space which is closest to the independent space to be taken as a wiring area.

In this embodiment, independent spaces in a house, such as independent bedrooms, bathrooms, study rooms, offices, spaces with partitions, and the like, are obtained according to the distribution of rooms and the information of isolated spaces in the house space distribution information, and area information, use information, and distance information between the independent spaces are obtained, where the distance between the independent spaces includes any one or more of the distance between the central points of the independent spaces, the distance between the entrances of the independent spaces, and the shortest distance between the maximum ranges of the independent spaces;

the calculating the space wiring weight of each independent space according to the area information and/or the use information of each independent space comprises the following steps: the space wiring weight of each individual space is calculated from a positive correlation between the area of each individual space and the space wiring weight, the space wiring weight of each individual space is calculated from a correlation between the usage of each individual space and hydropower (the larger the correlation, the larger the space wiring weight, the greater the correlation between the usage of kitchen and the hydropower, and the smaller the correlation between the usage of storage room, balcony and the like), and the space wiring weight of each individual space is calculated from the area of each individual space and the correlation between the usage of each individual space and the hydropower.

In table a, a1 to A3 show different embodiments of calculating the spatial wiring weight e of the independent space, and the area s of the independent space and the correlation k between the use of the independent space and the hydropower described in table a are calculated using the calculation formulas in the above embodiments.

TABLE A different embodiments for computing spatial routing weights for independent spaces

Setting respective wiring weight threshold values for different application scenes such as residential decoration, factory building decoration, shop decoration and the like in a cell, and recording the wiring weight threshold values as r. In this embodiment, the wiring weight threshold r for factory building decoration is 0.2, the wiring weight threshold r for shop decoration is 0.4, and the wiring weight threshold r for residential house decoration is 0.6.

And judging whether the space wiring weight e of each independent space is greater than the current wiring weight threshold value r according to any one of the table A, if so, taking the independent space as an independent wiring area, and otherwise, combining the independent space and the independent space closest to the independent space to be taken as a wiring area. In the present embodiment, when the scene where the constructor is located is home improvement, the wiring weight threshold r is 0.6, the spatial wiring weight e of an independent space is 0.7> r according to the calculation method described in any one of tables a (e.g., a3), and the independent space is determined as an independent wiring area.

In another embodiment, when the area s of an independent space is 8 square meters and the water-electricity correlation value k for the independent space is 0.2 from the water-electricity correlation values for different independent space applications set in advance, and the space wiring weight e of the independent space is 0.7 · s + f8 · k is 0.05 × 8+0.2 × 0.2 is 0.44< r is 0.6 according to the calculation method described in any one of table a (e.g., a3), the independent space and the independent space closest to the independent space are combined to form one wiring region, and the space closest to the storage space is a secondary space, for example, the secondary space and the storage space are combined to form one wiring region.

Preferably, the calculating a circuit wiring scheme in each wiring area according to the circuit arrangement information in the wiring area includes:

acquiring circuit layout information in a wiring area, wherein the circuit layout information comprises strong and weak current information, circuit positioning point position information and circuit slotting position; the circuit positioning point position is a position exposed out of the wall body and comprises a socket position, a switch position and a lamp position;

calculating the shortest circuit wiring with separated strength and weakness according to the position of the circuit positioning point, the strength and weakness electric information and the circuit slotting position;

calculating the number of electric wires in each circuit tube according to the number of circuits in the wiring area;

and obtaining a circuit wiring scheme in the wiring area according to the shortest circuit wiring separated by the strength and the weakness and the number of electric wires in each circuit pipe.

In this embodiment, the calculating the shortest circuit wiring with separated strength and weakness according to the position of the circuit positioning point, the strength and weakness information, and the circuit slotting position includes:

calculating various circuit wirings connected with the positions of the circuit positioning points according to the positions of the circuit positioning points and the positions of the circuit slots to be used as a circuit wiring set to be determined;

deleting the mixed wiring of the strong current and the weak current in the circuit wiring set to be determined according to the principle of strong current and weak current separation;

and comparing the wiring lengths of the wiring modes in the currently determined circuit wiring set, and taking the wiring with the shortest wiring length as the shortest circuit wiring with separated strength and weakness.

The method for calculating the number of the electric wires in each circuit tube according to the number of the circuits in the wiring area comprises the following steps:

calculating the number of electric wires in each circuit tube according to the number of circuits in the wiring area and the current number of circuit tubes;

if the number of the electric wires in each circuit pipe is larger than the number of the allowed circuits in the preset pipeline, the number of the circuit pipes is increased.

According to the embodiment, the shortest circuit wiring with strong and weak separation and the number of the electric wires in each circuit pipe are obtained, and then the circuit wiring scheme in the wiring area is obtained.

Preferably, the calculating a water pipe wiring scheme in each wiring area according to the water pipe deployment information in the wiring area includes:

acquiring water pipe deployment information in a wiring area, wherein the water pipe deployment information comprises water pipe deployment position information, original water supply and drainage point information and water pipe slotting information;

calculating the shortest water pipe wiring close to the original water supply and drainage point according to the original water supply and drainage point information and the water pipe slotting position;

calculating the position of a water pipe joint according to the distribution of the wiring area and the water pipe deployment position information;

and obtaining a water pipe wiring scheme in the wiring area according to the shortest water pipe wiring close to the original water supply and drainage point and the position of the water pipe joint.

In this embodiment, the calculating the shortest water pipe wiring close to the original water supply and drainage point according to the original water supply and drainage point information and the water pipe slotting position includes:

calculating various water pipe wiring lines according with the slotting position according to the slotting position of the water pipe;

calculating the distance between each water pipe wiring and the original water supply and drainage point, and selecting the water pipe wiring of which the distance from the original water supply and drainage point is smaller than a preset distance threshold value to generate a water pipe wiring set to be determined;

and comparing the lengths of the water pipes of the wiring modes of the water pipes in the current undetermined water pipe wiring set, and taking the water pipe wiring with the shortest length of the water pipes as the shortest water pipe wiring close to the original water supply and drainage point.

The method for calculating the position of the water pipe joint according to the distribution of the wiring area and the water pipe deployment position information comprises the following steps:

judging whether the multiple sections of water pipes need to be connected according to whether the independent spaces forming the wiring area are discontinuous (the middle of each independent space is provided with a partition or a bend);

if so, calculating the position of the water pipe joint according to the position of the connection of the multiple sections of water pipes, and otherwise, judging that the water pipe is complete and has no joint in the independent space.

According to the embodiment, the shortest water pipe wiring and the position of the water pipe joint close to the original water supply and drainage point are obtained, and therefore the water pipe wiring scheme in the wiring area is obtained.

Preferably, the method further comprises the steps of: and acquiring a wall body with a transverse slot and/or an inclined slot and/or an irregular slot and judging whether the bearing of the wall body is abnormal.

Preferably, the adjusting the circuit wiring scheme according to the matching condition of the hydropower wiring scheme and the hydropower wiring requirement in each wiring area comprises the following steps:

acquiring water and electricity wiring requirement information, including strong and weak electricity separation requirement information, quantity requirement information of electric wires in a circuit pipe, circuit wiring requirement information, water pipe top-walking requirement information and pressure requirement information of a water pipe joint;

calculating a circuit wiring matching value according to the matching condition of the circuit wiring scheme in the wiring area and the strong and weak current separation requirement information and/or the quantity requirement information of the electric wires in the circuit pipe and/or the circuit wiring requirement information;

calculating a water pipe wiring matching value according to the matching condition of the water pipe wiring scheme in the wiring area and the requirement information of the water pipe top and/or the pressure requirement information of the water pipe joint;

calculating the rationality value of the water and electricity wiring scheme in the wiring area according to the circuit wiring matching value and/or the water pipe wiring matching value;

and when the rationality value of the hydropower wiring scheme in the wiring area is smaller than a preset rationality threshold value, judging that the hydropower wiring scheme in the wiring area is unreasonable, and adjusting the hydropower wiring scheme in the wiring area according to the difference value between the hydropower wiring scheme in the wiring area and the requirement information of the hydropower wiring.

In this embodiment, the calculating a circuit wiring matching value according to a matching condition of the circuit wiring scheme in the wiring area and the strong and weak current separation requirement information and/or the number requirement information of the wires in the circuit pipe and/or the circuit wiring requirement information is: in one embodiment, the circuit wiring matching value is calculated according to the degree that the minimum distance or average distance of the strong current and the weak current lines in the circuit wiring scheme in the wiring area is less than the strong current and weak current separation requirement (the difference between the distance required for strong current separation and the minimum distance or average distance of the strong current and the weak current lines), and the circuit wiring matching value is smaller as the degree of the insufficient strong current and weak current separation requirement (i.e. the difference between the distance required for strong current separation and the minimum distance or average distance of the strong current and the weak current lines) is larger; in another embodiment, the circuit wiring matching value is calculated according to the degree of exceeding the requirement of the number of the electric wires in the circuit tube (the difference value between the number of the electric wires in the circuit tube and the requirement of the number of the electric wires) in the circuit wiring scheme in the wiring area, and the larger the degree of exceeding the requirement of the number of the electric wires (namely, the difference value between the number of the electric wires in the circuit tube and the requirement of the number of the electric wires) is, the smaller the circuit wiring matching value is; in another embodiment, a circuit wiring matching value is calculated according to the proportion of the length of the non-compliant wires in the circuit wiring scheme in the wiring area to the total length, and the larger the proportion of the length of the non-compliant wires to the total length is, the smaller the circuit wiring matching value is; in another embodiment, a circuit wiring matching value is calculated based on a negative correlation between the minimum distance or average distance between strong and weak current lines in the circuit wiring scheme within the wiring area and the degree of the number of wires within the circuit tube exceeding the wire number requirement and the circuit wiring matching value; in another embodiment, a circuit wiring matching value is calculated according to the degree that the minimum distance or the average distance between the strong current and the weak current in the circuit wiring scheme in the wiring area is less than the strong current and weak current separation requirement and the negative correlation relationship between the proportion of the non-compliant wiring length in the total length and the circuit wiring matching value; in another embodiment, a circuit wiring matching value is calculated according to the degree that the number of the electric wires in the circuit tube exceeds the requirement of the number of the electric wires and the negative correlation relation between the proportion of the non-compliant routing length to the total length and the circuit wiring matching value; in another embodiment, the circuit wiring matching value is calculated according to the negative correlation relationship between the proportion of the minimum distance or the average distance between the strong current and the weak current in the circuit wiring scheme in the wiring area and the strong and weak current separation requirement, the proportion of the number of the electric wires in the circuit pipe exceeding the electric wire number requirement, and the non-compliant routing length in the total length and the circuit wiring matching value. The circuit wiring match value is represented by the variable a.

The method comprises the following steps of calculating a water pipe wiring matching value according to the matching condition of a water pipe wiring scheme in a wiring area and water pipe top-walking requirement information and/or pressure requirement information of a water pipe joint, wherein the matching condition comprises the following steps: in one embodiment, the water pipe wiring matching value is calculated according to the negative correlation relationship between the proportion of the length of the water pipe which does not meet the water pipe jacking requirement in the water pipe wiring scheme in the wiring area to the total length and the water pipe wiring matching value; in another embodiment, a water pipe wiring matching value is calculated according to the negative correlation relation between the difference value of the pressure value at the position of the water pipe joint in the water pipe wiring scheme in the wiring area and the pressure requirement value and the water pipe wiring matching value; in another embodiment, the water pipe wiring matching value is calculated according to the proportion of the length of the water pipe which does not meet the water pipe jacking requirement in the water pipe wiring scheme in the wiring area to the total length and the negative correlation of the difference value of the pressure value at the water pipe joint and the pressure requirement value and the water pipe wiring matching value. The water pipe wiring match value is represented by the variable b.

The rationality value of the water and electricity wiring scheme in the wiring area is calculated according to the circuit wiring matching value and/or the water pipe wiring matching value, and the rationality value is as follows: the method includes calculating a rationality value of the hydropower wiring scheme in the wiring area according to a positive correlation between the circuit wiring matching value and the rationality value of the hydropower wiring scheme, calculating a rationality value of the hydropower wiring scheme in the wiring area according to a positive correlation between the water pipe wiring matching value and the rationality value of the hydropower wiring scheme, and calculating a rationality value of the hydropower wiring scheme in the wiring area according to a positive correlation between the circuit wiring matching value and the water pipe wiring matching value and the rationality value of the hydropower wiring scheme.

B1-B3 in table B show different embodiments of calculating the rationality value x of the hydro-electric wiring scheme, wherein the circuit wiring matching value a and the water pipe wiring matching value B referred to in table B are calculated using the calculation formulas in the above embodiments.

Table B different embodiments of calculating the rationality value of a hydro-electric wiring scheme

Different water and electricity wiring rationality threshold values are set in different application scenes such as residential decoration, factory building decoration, shop decoration and the like in a community and are recorded as y. In this embodiment, the threshold value y of the rationality of the wiring of the hydropower in the factory building decoration is 0.2, the threshold value y of the rationality of the wiring of the hydropower in the shop decoration is 0.4, and the threshold value y of the rationality of the wiring of the hydropower in the residential building decoration is 0.6.

And judging whether the rationality value x of the hydropower wiring scheme obtained from any one of the tables B is smaller than the current hydropower wiring rationality threshold value y, and if so, judging that the hydropower wiring scheme in the wiring area is unreasonable. In this embodiment, if the scene where the constructor is located is the decoration of a residential building, the threshold value y of the reasonability of the water and electricity wiring is 0.6, the reasonability value x of the water and electricity wiring scheme is 0.48< y according to any one of the tables B (e.g., B3), and it is determined that the water and electricity wiring scheme in the wiring area is unreasonable.

At this moment, the water and electricity wiring scheme in the wiring area is adjusted according to the difference value of the water and electricity wiring scheme in the wiring area and the requirement information of the water and electricity wiring, and according to B2 in a table B, the water pipe wiring matching value B is 0.4< y, the proportion of the length of the water pipe which does not accord with the requirement of the water pipe walking top in the water pipe wiring scheme in the wiring area is higher, and at the moment, the whole or part of the water pipe which does not accord with the requirement of the water pipe walking top in the water pipe wiring scheme in the wiring area is adjusted to the top.

A computer-readable storage medium storing a computer program for electronic data exchange, wherein the computer program causes a computer to perform the above method.

A system for generating and adjusting a water and electricity wiring plan, the schematic diagram of which is shown in fig. 2, characterized by comprising:

a set of sensors; the system is used for detecting the space distribution data and the hydropower construction data of a house;

a processor;

a memory;

and

one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the processor, the programs causing the computer to perform the above-described method.

Of course, those skilled in the art should realize that the above embodiments are only used for illustrating the present invention, and not as a limitation to the present invention, and that the changes and modifications of the above embodiments will fall within the protection scope of the present invention as long as they are within the scope of the present invention.

Claims (10)

1. A method for generating and adjusting a hydropower wiring planning scheme is characterized by comprising the following steps:

acquiring spatial distribution information, circuit arrangement information and water pipe arrangement information of a house;

dividing a distribution line area according to the spatial distribution information of the house;

calculating a circuit wiring scheme in each wiring area according to the circuit arrangement information in the wiring area;

calculating a water pipe wiring scheme in each wiring area according to the water pipe deployment information in the wiring area;

and adjusting the circuit wiring scheme according to the matching condition of the hydropower wiring scheme in each wiring area and the hydropower wiring requirement.

2. A hydroelectric wiring planning method according to claim 1 in which the spatial distribution information of the premises comprises any one or more of room distribution information of the premises, isolated space information of the premises, and isolated space information of the premises.

3. A hydroelectric wiring planning scheme generation and adjustment method according to claim 1, wherein the circuit layout information comprises any one or more of strong and weak power information, circuit usage information, circuit layout diagram information, circuit number information, circuit direction information and circuit slotting information.

4. A hydroelectric wiring planning scheme generation and adjustment method according to claim 1 wherein the water pipe deployment information comprises any one or more of water pipe deployment location information, water pipe joint information, raw water supply and drainage point information, water pressure information, and water pipe slotting information.

5. A hydroelectric wiring planning method according to claim 1 wherein said distributing wiring areas according to the spatial distribution information of the premises comprises the steps of:

obtaining information of each independent space in the house according to the house space distribution information, wherein the information comprises area information and use information of each independent space and distance information between each independent space;

calculating the space wiring weight of each independent space according to the area information and/or the use information of each independent space;

and if the space wiring weight of the independent space is larger than a wiring weight threshold value which is set in advance, taking the independent space as an independent wiring area, and otherwise, combining the independent space and the independent space which is closest to the independent space to be taken as a wiring area.

6. The method for generating and adjusting a hydroelectric wiring plan according to claim 1, wherein the calculating the circuit wiring plan in each wiring area according to the circuit layout information in the wiring area comprises the steps of:

acquiring circuit layout information in a wiring area, wherein the circuit layout information comprises strong and weak current information, circuit positioning point position information and circuit slotting position; the circuit positioning point position is a position exposed out of the wall body and comprises a socket position, a switch position and a lamp position;

calculating the shortest circuit wiring with separated strength and weakness according to the position of the circuit positioning point, the strength and weakness electric information and the circuit slotting position;

calculating the number of electric wires in each circuit tube according to the number of circuits in the wiring area;

and obtaining a circuit wiring scheme in the wiring area according to the shortest circuit wiring separated by the strength and the weakness and the number of electric wires in each circuit pipe.

7. The method for generating and adjusting a hydropower wiring plan according to claim 1, wherein the calculating of the water pipe wiring plan in each wiring area according to the water pipe deployment information in the wiring area comprises the steps of:

acquiring water pipe deployment information in a wiring area, wherein the water pipe deployment information comprises water pipe deployment position information, original water supply and drainage point information and water pipe slotting information;

calculating the shortest water pipe wiring close to the original water supply and drainage point according to the original water supply and drainage point information and the water pipe slotting position;

calculating the position of a water pipe joint according to the distribution of the wiring area and the water pipe deployment position information;

and obtaining a water pipe wiring scheme in the wiring area according to the shortest water pipe wiring close to the original water supply and drainage point and the position of the water pipe joint.

8. A method for generating and adjusting a hydroelectric wiring plan according to claim 1 wherein the adjusting of the circuit wiring plan according to the matching of the hydroelectric wiring plan in each wiring area with the requirements of the hydroelectric wiring comprises the steps of:

acquiring water and electricity wiring requirement information, including strong and weak electricity separation requirement information, quantity requirement information of electric wires in a circuit pipe, circuit wiring requirement information, water pipe top-walking requirement information and pressure requirement information of a water pipe joint;

calculating a circuit wiring matching value according to the matching condition of the circuit wiring scheme in the wiring area and the strong and weak current separation requirement information and/or the quantity requirement information of the electric wires in the circuit pipe and/or the circuit wiring requirement information;

calculating a water pipe wiring matching value according to the matching condition of the water pipe wiring scheme in the wiring area and the requirement information of the water pipe top and/or the pressure requirement information of the water pipe joint;

calculating the rationality value of the water and electricity wiring scheme in the wiring area according to the circuit wiring matching value and/or the water pipe wiring matching value;

and when the rationality value of the hydropower wiring scheme in the wiring area is smaller than a preset rationality threshold value, judging that the hydropower wiring scheme in the wiring area is unreasonable, and adjusting the hydropower wiring scheme in the wiring area according to the difference value between the hydropower wiring scheme in the wiring area and the requirement information of the hydropower wiring.

9. A computer-readable storage medium storing a computer program for electronic data exchange, wherein the computer program causes a computer to perform the method according to any one of claims 1-8.

10. A system for generating and adjusting a water and electricity wiring planning scheme is characterized by comprising:

a set of sensors; the system is used for detecting the space distribution data and the hydropower construction data of a house;

a processor;

a memory;

and

one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the processor, the programs causing the computer to perform the method of any of claims 1-8.

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