CN114627013B - Water pipe bridging density measurement system and method - Google Patents

Abstract

The invention relates to a water pipe bridging density measuring system, which comprises: the water pipe arrangement array is composed of a plurality of water pipes, the plurality of water pipes are arranged on the wall surface of the same room, and more than one bridging point exists; a density analysis mechanism for determining a bridge arrangement density based on a total number of bridge imaging regions in the data sharpened image and a wall surface area of a room wall surface opposite the water pipe arrangement array; and the numerical value judging mechanism is used for judging that the bridging is excessive and sending a rearrangement request when the received bridging arrangement density exceeds a preset density limit. The invention also relates to a method for measuring the bridging density of the water pipe. According to the invention, after the water pipe layout is finished in water and electricity decoration, the corresponding water pipe bridging density is determined based on the wall surface area of the running pipe room and the bridging number of the running pipes from the whole layout, and a rearrangement request is sent out when the density is too high, so that the running pipe rectification requirement is given in time.

Description

Water pipe bridging density measurement system and method

Technical Field

The invention relates to the field of water pipe arrangement, in particular to a system and a method for measuring the bridging density of a water pipe.

Background

As a novel water pipe material, the PPR pipe can be used as a cold pipe and a hot water pipe, and is a popularized material due to the fact that the PPR pipe is non-toxic, light, pressure-resistant and corrosion-resistant. Also suitable for hot water pipelines and even pure drinking water pipelines. The interface of PPR pipe adopts hot melt technique, has fused completely between the pipe together, so in case the installation is suppressed the test and is passed, can not exist like the plastic-aluminum pipe for a long time ageing phenomenon of leaking, the scaling can not be expected to the PPR pipe moreover. The main drawbacks of PPR water pipes are: high temperature resistance and slightly poor pressure resistance, and the long-term working temperature cannot exceed 70 ℃; the linear expansion coefficient is large, and the pipe is easy to deform after hot water is introduced, so that the appearance is influenced; each straight pipe is 4 meters per root, and the coiled pipe is 100 meters to 300 meters. And can not construct in small angle, if the pipeline laying distance is long or the corner (small angle) is too much, a large amount of joints are used in the construction; the tubing is cheap but the fittings are relatively expensive.

At present, when carrying out water and electricity fitment, the walking pipe and the overall arrangement of water pipe are very important, because in case confirm walking pipe and overall arrangement, the later stage is modified very difficultly on the one hand, can seriously destroy the wall, and on the other hand because the bridging of water pipe is that the joint is too much promptly, leads to the probability of leaking water greatly to increase easily, has reduced the efficiency that the water flows simultaneously, and the bridging of water pipe is too few, has also proposed strict demand to the length of water pipe and bearing pressure and gravity.

Disclosure of Invention

In order to solve the technical problems in the related field, the invention provides a water pipe bridging density measuring system and method, which can determine the corresponding water pipe bridging density based on the wall surface area of a room with pipes and the bridging number of the pipes from the overall layout after the water pipe layout is finished in water and electricity decoration, and send a rearrangement request when the density is too high so as to avoid wall smashing maintenance and damage to the wall body of the room in the later period.

Therefore, the present invention needs to have at least two important points:

(1) the method comprises the steps of performing field detection of water pipe bridging density on the wall of a room where water pipes are arranged, and sending a rearrangement request when the field detected water pipe bridging density is too high so as to reduce water pipe connection of the wall of the room as much as possible, ensure the passing efficiency of water bodies in the water pipes and reduce the water leakage probability;

(2) and determining corresponding water pipe bridging density based on the number of the detected water pipe bridging positions and the area of the wall of the room, wherein the number of the detected water pipe bridging positions is in forward correlation with the determined water pipe bridging density, and the area of the wall of the room is in reverse correlation with the determined water pipe bridging density.

According to an aspect of the present invention, there is provided a water pipe bridging density measuring system, the system including:

the water pipe arrangement array is composed of a plurality of water pipes, the plurality of water pipes are arranged on the wall surface of the same room, and more than one bridging point exists;

the directional snapshot component is arranged opposite to the wall surface of the room and suspended right in front of the centroid of the geometric shape corresponding to the wall surface of the room, and is used for performing snapshot operation on the environment where the water pipe arrangement array is located after the water pipe arrangement array is arranged so as to obtain a corresponding arrangement environment image;

the gamma correction component is connected with the directional capturing component and is used for performing gamma correction operation on the received arrangement environment image to obtain a corresponding gamma correction image;

the real-time filtering component is connected with the gamma correction component and is used for executing bilateral filtering operation on the received gamma correction image so as to obtain a corresponding real-time filtering image;

the data sharpening component is connected with the real-time filtering component and is used for carrying out image data sharpening operation of applying a high-pass filtering mode on the received real-time filtering image so as to obtain a corresponding data sharpened image;

the bridging identification component is connected with the data sharpening component and used for identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure;

the density analysis mechanism is respectively connected with the bridge connection identification component and the water pipe arrangement array and is used for determining the bridge connection arrangement density based on the total number of bridge connection imaging areas in the data sharpening image and the wall surface area of the wall surface of the room opposite to the water pipe arrangement array;

the numerical value judging mechanism is connected with the density analyzing mechanism and is used for judging that the bridging is excessive and sending a rearrangement request when the received bridging arrangement density exceeds a preset density limit;

wherein identifying each bridging imaging region in the received data sharpening image based on each frame of standard pipeline distribution picture corresponding to each bridging structure respectively comprises: the standard pipeline distribution picture corresponding to each type of bridging structure is an imaging picture of a pipeline distribution scene formed by the connection of a plurality of pipelines corresponding to the type of bridging structure;

wherein determining a bridge arrangement density based on a total number of bridge imaging regions in the data sharpened image and a wall area of a wall of a room opposite the water pipe arrangement array comprises: the determined bridge placement density is positively correlated to a total number of bridge imaging regions in the data sharpened image, while the determined bridge placement density is inversely correlated to a wall area of a wall of the room opposite the array of water lines.

According to another aspect of the present invention, there is also provided a water pipe bridging density measuring method, the method including:

the method comprises the following steps that a water pipe arrangement array is used, and the water pipe arrangement array is composed of a plurality of water pipes, the plurality of water pipes are arranged on the wall surface of the same room, and more than one bridging point exists;

using a directional snapshot component, arranged opposite to the wall surface of the room and suspended right in front of the centroid of the geometric shape corresponding to the wall surface of the room, and used for performing snapshot operation on the environment where the water pipe arrangement array is located after the water pipe arrangement array is arranged so as to obtain a corresponding arrangement environment image;

using a gamma correction component connected with the directional capturing component and used for carrying out a gamma correction operation on the received arrangement environment image so as to obtain a corresponding gamma correction image;

the real-time filtering component is connected with the gamma correction component and used for executing bilateral filtering operation on the received gamma correction image so as to obtain a corresponding real-time filtering image;

the data sharpening component is connected with the real-time filtering component and used for carrying out image data sharpening operation of applying a high-pass filtering mode on the received real-time filtering image so as to obtain a corresponding data sharpened image;

the bridging identification component is connected with the data sharpening component and used for identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure;

using a density analysis mechanism, respectively connected to the bridge identification component and the water pipe arrangement array, for determining a bridge arrangement density based on a total number of bridge imaging regions in the data-sharpened image and a wall surface area of a wall surface of the room opposite to the water pipe arrangement array;

the use value judging mechanism is connected with the density analyzing mechanism and is used for judging that bridging is excessive and sending a rearrangement request when the received bridging arrangement density exceeds a preset density limit;

wherein identifying each bridging imaging region in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: the standard pipeline distribution picture corresponding to each type of bridging structure is an imaging picture of a pipeline distribution scene formed by the connection of a plurality of pipelines corresponding to the type of bridging structure;

wherein determining a bridge arrangement density based on a total number of bridge imaging regions in the data sharpened image and a wall area of a wall of a room opposite the water pipe arrangement array comprises: the determined bridge placement density is positively correlated to a total number of bridge imaging regions in the data sharpened image, while the determined bridge placement density is inversely correlated to a wall area of a wall of the room opposite the array of water lines.

Detailed Description

The embodiment of the method for measuring the bridge connection density of the water pipe according to the present invention will be described in detail.

The hydroelectric design is based on the basic mature basis of a decoration scheme, and the following preparation work is required before the hydroelectric reconstruction design:

1. and making space division among various functions, planar furniture arrangement and a modeling suspended ceiling arrangement diagram with stronger decoration. For example, the following steps are carried out: such as the placement position and size of a bed, a wardrobe, a computer desk and other equipment, the size and placement position of a dining room table, the audiovisual effect required by an audiovisual room and the like.

2. Various electric appliances of a kitchen and a toilet which are preferred by an individual are provided with a plurality of equipment models, for example, the integral design scheme of the kitchen (completed by a kitchen cabinet designer) is directly related to the determination of the water and electricity scheme of the kitchen; the selection of the water heater is various, and the gas water heater, the electric water heater (also can store heat and is instant), the solar water heater, a wall-mounted boiler hot water supply system, a 24-hour community hot water supply system and the like are various.

At present, when carrying out water and electricity fitment, the walking pipe and the overall arrangement of water pipe are very important, because in case confirm walking pipe and overall arrangement, the later stage is modified very difficultly on the one hand, can seriously destroy the wall, and on the other hand because the bridging of water pipe is that the joint is too much promptly, leads to the probability of leaking water greatly to increase easily, has reduced the efficiency that the water flows simultaneously, and the bridging of water pipe is too few, has also proposed strict demand to the length of water pipe and bearing pressure and gravity.

In order to overcome the defects, the invention builds a water pipe bridging density measuring system and method, and can effectively solve the corresponding technical problem.

A water pipe bridge density measurement system according to an embodiment of the present invention includes:

the water pipe arrangement array is composed of a plurality of water pipes, the plurality of water pipes are arranged on the wall surface of the same room, and more than one bridging point exists;

the directional snapshot component is arranged opposite to the wall surface of the room and suspended right in front of the centroid of the geometric shape corresponding to the wall surface of the room, and is used for performing snapshot operation on the environment where the water pipe arrangement array is located after the water pipe arrangement array is arranged so as to obtain a corresponding arrangement environment image;

the gamma correction component is connected with the directional snapshot component and is used for performing gamma correction operation on the received arrangement environment image to obtain a corresponding gamma correction image;

the real-time filtering component is connected with the gamma correction component and is used for executing bilateral filtering operation on the received gamma correction image so as to obtain a corresponding real-time filtering image;

the data sharpening component is connected with the real-time filtering component and is used for carrying out image data sharpening operation of applying a high-pass filtering mode on the received real-time filtering image so as to obtain a corresponding data sharpened image;

the bridging identification component is connected with the data sharpening component and is used for identifying each bridging imaging area in the received data sharpening image based on each frame of standard pipeline distribution picture corresponding to each bridging structure;

the density analysis mechanism is respectively connected with the bridge connection identification component and the water pipe arrangement array and is used for determining the bridge connection arrangement density based on the total number of bridge connection imaging areas in the data sharpening image and the wall surface area of the wall surface of the room opposite to the water pipe arrangement array;

the numerical value judging mechanism is connected with the density analyzing mechanism and is used for judging that the bridging is excessive and sending a rearrangement request when the received bridging arrangement density exceeds a preset density limit;

wherein identifying each bridging imaging region in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: the standard pipeline distribution picture corresponding to each type of bridging structure is an imaging picture of a pipeline distribution scene formed by the connection of a plurality of pipelines corresponding to the type of bridging structure;

wherein determining a bridge arrangement density based on a total number of bridge imaging regions in the data sharpened image and a wall area of a wall of a room opposite the water pipe arrangement array comprises: the determined bridge placement density is positively correlated to the total number of bridge imaging regions in the data-sharpened image, while the determined bridge placement density is inversely correlated to the wall surface area of the wall surface of the room opposite the array of water tube placements.

Next, a further explanation will be made on the specific structure of the water pipe bridge density measuring system of the present invention.

In the water pipe bridging density measurement system:

and the numerical judgment mechanism is also used for judging that the bridging number is in an allowable range and sending out a configuration confirmation instruction when the received bridging configuration density does not exceed the preset density limit.

In the water pipe bridge density measurement system:

identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: and when the content similarity of a certain image area and a frame of standard pipeline distribution picture corresponding to a certain bridging structure in the received data sharpening image exceeds the limit, taking the image area as a bridging imaging area.

In the water pipe bridging density measurement system:

identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: the various bridging structures include a bridging structure formed by two pipelines in a connection mode, a bridging structure formed by three pipelines in a connection mode, and a bridging structure formed by four pipelines in a connection mode.

In the water pipe bridge density measurement system:

the water pipe arrangement array is composed of a plurality of water pipes, the plurality of water pipes are arranged on the wall surface of the same room, and more than one bridge connection point exists, and the water pipe arrangement array comprises: each bridging point is formed by connecting more than two water pipes;

wherein, the water pipe is arranged the array, comprises a plurality of water pipes and a plurality of water pipes arrange at same room wall and have more than one bridging point still include: at each bridging point, more than two water pipes are communicated with each other.

The method for measuring the bridging density of the water pipe according to the embodiment of the invention comprises the following steps:

the method comprises the following steps that a water pipe arrangement array is used, and the water pipe arrangement array is composed of a plurality of water pipes, the plurality of water pipes are arranged on the wall surface of the same room, and more than one bridging point exists;

using a directional snapshot component, arranged opposite to the wall surface of the room and suspended right in front of the centroid of the geometric shape corresponding to the wall surface of the room, and used for performing snapshot operation on the environment where the water pipe arrangement array is located after the water pipe arrangement array is arranged so as to obtain a corresponding arrangement environment image;

using a gamma correction component connected with the directional capturing component and used for carrying out a gamma correction operation on the received arrangement environment image so as to obtain a corresponding gamma correction image;

the real-time filtering component is connected with the gamma correction component and used for executing bilateral filtering operation on the received gamma correction image so as to obtain a corresponding real-time filtering image;

the data sharpening component is connected with the real-time filtering component and used for carrying out image data sharpening operation of applying a high-pass filtering mode on the received real-time filtering image so as to obtain a corresponding data sharpened image;

the bridging identification component is connected with the data sharpening component and used for identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure;

using a density analysis mechanism, respectively connected to the bridge identification component and the water pipe arrangement array, for determining a bridge arrangement density based on a total number of bridge imaging regions in the data-sharpened image and a wall surface area of a wall surface of the room opposite to the water pipe arrangement array;

the use value judging mechanism is connected with the density analyzing mechanism and is used for judging that the bridging is too much and sending a rearrangement request when the received bridging arrangement density exceeds a preset density limit;

wherein identifying each bridging imaging region in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: the standard pipeline distribution picture corresponding to each type of bridging structure is an imaging picture of a pipeline distribution scene formed by the connection of a plurality of pipelines corresponding to the type of bridging structure;

wherein determining a bridge arrangement density based on the total number of bridge imaging regions in the data-sharpened image and a wall area of a wall of the room opposite the array of water arrangements comprises: the determined bridge placement density is positively correlated to the total number of bridge imaging regions in the data-sharpened image, while the determined bridge placement density is inversely correlated to the wall surface area of the wall surface of the room opposite the array of water tube placements.

Next, the concrete steps of the method for measuring the bridge connection density of the water pipe according to the present invention will be further described.

In the water pipe bridging density measuring method:

and the numerical judgment mechanism is also used for judging that the bridging number is in an allowable range and sending out a configuration confirmation instruction when the received bridging configuration density does not exceed the preset density limit.

In the water pipe bridging density measuring method:

identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: and when the content similarity of a certain image area and a frame of standard pipeline distribution picture corresponding to a certain bridging structure in the received data sharpening image exceeds the limit, taking the image area as a bridging imaging area.

In the water pipe bridging density measuring method:

identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: the various bridging structures include a bridging structure formed by two pipelines in a connection mode, a bridging structure formed by three pipelines in a connection mode, and a bridging structure formed by four pipelines in a connection mode.

In the water pipe bridging density measuring method:

the water pipe arrangement array is composed of a plurality of water pipes, the plurality of water pipes are arranged on the wall surface of the same room, and more than one bridge connection point exists, and the water pipe arrangement array comprises: each bridging point is formed by connecting more than two water pipes;

wherein, the water pipe arranges the array, constitutes and the more than one bridging point still includes and is arranged at same room wall by a plurality of water pipes and a plurality of water pipe are arranged: at each bridging point, more than two water pipes are communicated with each other.

In addition, in the system and the method for measuring the water pipe bridging density, a big data server can be used to be connected with the bridging identification component and used for pre-storing each frame of standard pipeline distribution picture corresponding to each bridging structure.

The method for storing the standard pipeline distribution pictures respectively corresponding to various bridging structures by using the big data server is connected with the bridging identification component and comprises the following steps: and the big data server and the bridge connection identification component establish bidirectional link connection through a wireless network.

By adopting the system and the method for measuring the water pipe bridging density, the technical problem that whether the quantity of the water pipes for wall decoration meets the requirement of water pipe routing in the prior art is difficult to quickly identify is solved, the corresponding water pipe bridging density can be determined based on the wall surface area of a room with the routing and the bridging quantity of the routing from the overall layout after the water pipe layout for hydropower decoration is completed, and a rearrangement request is sent out when the density is too high, so that the routing rectification requirement is given in time.

In the foregoing specification, the invention has been described with reference to specific embodiments. However, one of ordinary skill in the art appreciates that various modifications and changes can be made without departing from the scope of the present invention as set forth in the claims below. Accordingly, the specification is to be regarded in an illustrative rather than a restrictive sense, and all such modifications are intended to be included within the scope of present invention.

Benefits, other advantages, and solutions to problems have been described above with regard to specific embodiments. However, the benefits, advantages, solutions to problems, and any element(s) that may cause any benefit, advantage, or solution to occur or become more pronounced are not to be construed as a critical, required, or essential feature or element of any or all the claims. As used herein, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims (8)

1. A water pipe bridging density measurement system, the system comprising:

the water pipe arrangement array is composed of a plurality of water pipes, the plurality of water pipes are arranged on the wall surface of the same room, and more than one bridging point exists;

each bridging point is formed by connecting more than two water pipes, and the more than two formed water pipes at each bridging point are communicated with each other;

the directional snapshot component is arranged opposite to the wall surface of the room, suspended right in front of the centroid of the geometric shape corresponding to the wall surface of the room, and used for performing snapshot operation on the environment where the water pipe arrangement array is located after the water pipe arrangement array is arranged so as to obtain a corresponding arrangement environment image;

the gamma correction component is connected with the directional capturing component and is used for performing gamma correction operation on the received arrangement environment image to obtain a corresponding gamma correction image;

the real-time filtering component is connected with the gamma correction component and is used for executing bilateral filtering operation on the received gamma correction image so as to obtain a corresponding real-time filtering image;

the data sharpening component is connected with the real-time filtering component and is used for carrying out image data sharpening operation of applying a high-pass filtering mode on the received real-time filtering image so as to obtain a corresponding data sharpened image;

the bridging identification component is connected with the data sharpening component and used for identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure;

the density analysis mechanism is respectively connected with the bridge connection identification component and the water pipe arrangement array and is used for determining the bridge connection arrangement density based on the total number of bridge connection imaging areas in the data sharpening image and the wall surface area of the wall surface of the room opposite to the water pipe arrangement array;

the numerical value judging mechanism is connected with the density analyzing mechanism and is used for judging that the bridging is too much and sending a rearrangement request when the received bridging arrangement density exceeds a preset density limit;

wherein identifying each bridging imaging region in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: the standard pipeline distribution picture corresponding to each type of bridging structure is an imaging picture of a pipeline distribution scene formed by the connection of a plurality of pipelines corresponding to the type of bridging structure;

wherein determining a bridge arrangement density based on a total number of bridge imaging regions in the data sharpened image and a wall area of a wall of a room opposite the water pipe arrangement array comprises: the determined bridge placement density is positively correlated to the total number of bridge imaging regions in the data-sharpened image, while the determined bridge placement density is inversely correlated to the wall surface area of the wall surface of the room opposite the array of water tube placements.

2. The water pipe bridging density measuring system of claim 1, wherein:

and the numerical value judging mechanism is also used for judging that the bridging quantity is within an allowable range and issuing a configuration confirming instruction when the received bridging configuration density does not exceed the preset density limit.

3. The water pipe bridge density measurement system of claim 1, wherein:

identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: and when the content similarity of a certain image area and a frame of standard pipeline distribution picture corresponding to a certain bridging structure in the received data sharpening image exceeds the limit, taking the image area as a bridging imaging area.

4. The water pipe bridging density measuring system of claim 3, wherein:

identifying each bridging imaging area in the received data sharpening image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: the various bridging structures include a bridging structure formed by two pipelines in a connection mode, a bridging structure formed by three pipelines in a connection mode, and a bridging structure formed by four pipelines in a connection mode.

5. A method of measuring water pipe bridging density, the method comprising:

the method comprises the following steps that a water pipe arrangement array is used, and the water pipe arrangement array is composed of a plurality of water pipes, the plurality of water pipes are arranged on the wall surface of the same room, and more than one bridging point exists;

each bridging point is formed by connecting more than two water pipes, and the more than two formed water pipes at each bridging point are communicated with each other;

the directional snapshot component is arranged opposite to the wall surface of the room and suspended right in front of the centroid of the geometric shape corresponding to the wall surface of the room, and is used for performing snapshot operation on the environment where the water pipe arrangement array is located after the water pipe arrangement array is arranged so as to obtain a corresponding arrangement environment image;

using a gamma correction component connected with the directional capturing component and used for carrying out a gamma correction operation on the received arrangement environment image so as to obtain a corresponding gamma correction image;

the real-time filtering component is connected with the gamma correction component and used for executing bilateral filtering operation on the received gamma correction image so as to obtain a corresponding real-time filtering image;

the data sharpening component is connected with the real-time filtering component and used for carrying out image data sharpening operation of applying a high-pass filtering mode on the received real-time filtering image so as to obtain a corresponding data sharpened image;

the bridging identification component is connected with the data sharpening component and used for identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure;

using a density analysis mechanism, respectively connected to the bridge identification component and the water pipe arrangement array, for determining a bridge arrangement density based on a total number of bridge imaging regions in the data-sharpened image and a wall surface area of a wall surface of the room opposite to the water pipe arrangement array;

the use value judging mechanism is connected with the density analyzing mechanism and is used for judging that bridging is excessive and sending a rearrangement request when the received bridging arrangement density exceeds a preset density limit;

wherein identifying each bridging imaging region in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: the standard pipeline distribution picture corresponding to each type of bridging structure is an imaging picture of a pipeline distribution scene formed by the connection of a plurality of pipelines corresponding to the type of bridging structure;

wherein determining a bridge arrangement density based on a total number of bridge imaging regions in the data sharpened image and a wall area of a wall of a room opposite the water pipe arrangement array comprises: the determined bridge placement density is positively correlated to the total number of bridge imaging regions in the data-sharpened image, while the determined bridge placement density is inversely correlated to the wall surface area of the wall surface of the room opposite the array of water tube placements.

6. The method for measuring the bridge connection density of the water pipe according to claim 5, wherein:

and the numerical judgment mechanism is also used for judging that the bridging number is in an allowable range and sending out a configuration confirmation instruction when the received bridging configuration density does not exceed the preset density limit.

7. The method for measuring the bridge connection density of the water pipe according to claim 5, wherein:

identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: and when the content similarity of a certain image area and a frame of standard pipeline distribution picture corresponding to a certain bridging structure in the received data sharpening image exceeds the limit, taking the image area as a bridging imaging area.

8. The method of measuring the bridge connection density of the water pipe according to claim 7, wherein:

identifying each bridging imaging area in the received data sharpened image based on each frame of standard pipeline distribution picture respectively corresponding to each bridging structure comprises: the various bridging structures include a bridging structure formed by two pipelines in a connection mode, a bridging structure formed by three pipelines in a connection mode, and a bridging structure formed by four pipelines in a connection mode.