CN115409395B - Quality acceptance inspection method and system for hydraulic construction engineering - Google Patents

Abstract

The invention provides a quality acceptance inspection method and a system for water conservancy construction engineering, comprising the following steps: determining an acceptance item of quality acceptance based on an acceptance check request for water conservancy construction sent from a client; decomposing the acceptance items based on the technological process of the construction engineering and an acceptance template library to obtain inspection items, and acquiring acceptance data corresponding to the inspection items; carrying out statistics display on the acceptance data to obtain a quality acceptance check result; the quality acceptance inspection data of the hydraulic construction engineering are orderly obtained by decomposing the acceptance inspection items according to the technological process of the construction engineering and the acceptance inspection template library, intelligent statistics is carried out, the quality acceptance inspection result is obtained, and the efficiency and the accuracy of the quality acceptance inspection of the hydraulic construction engineering are improved.

Description

Quality acceptance inspection method and system for hydraulic construction engineering

Technical Field

The invention relates to the technical field of construction management, in particular to a quality acceptance inspection method and system for hydraulic construction engineering.

Background

The traditional water conservancy and hydropower engineering unit engineering construction quality acceptance assessment adopts a paper recording mode, relevant personnel review and sign step by step, the acceptance inspection flow is tedious and lacks supervision and reminding mechanism, a large amount of manpower, material resources and time are consumed, quality acceptance efficiency is low, errors are easy to occur in the acceptance inspection process, and therefore, a convenient and intelligent water conservancy construction engineering quality acceptance inspection method and system are required to be sought, and on the premise of meeting national regulations, the efficiency and accuracy of water conservancy construction engineering quality acceptance inspection are improved.

Disclosure of Invention

The invention provides a quality acceptance inspection method and a quality acceptance inspection system for hydraulic construction engineering, which improve the efficiency and the accuracy of the quality acceptance inspection of the hydraulic construction engineering.

The quality acceptance inspection method for the water conservancy construction engineering is characterized by comprising the following steps of:

s1, determining an acceptance item of quality acceptance based on an acceptance check request for water conservancy construction sent by a client;

s2, decomposing the acceptance items based on the technological process of the construction engineering and an acceptance template library to obtain inspection items, and acquiring acceptance data corresponding to the inspection items;

and S3, carrying out statistics display on the acceptance data to obtain a quality acceptance check result.

Preferably, before S1, the method further includes receiving an acceptance check request for water conservancy construction sent by the client, specifically:

the client is subjected to identity verification, and after the identity verification is successful, an acceptance check request from the client is obtained;

and carrying out safety detection on the acceptance check request, if the acceptance check request passes the case detection, receiving the acceptance check request, and otherwise, intercepting the acceptance check request.

Preferably, in S1, determining an acceptance item for quality acceptance based on an acceptance check request for water conservancy construction sent from a client includes:

analyzing the acceptance check request to obtain acceptance check information;

extracting keywords from the acceptance inspection information based on the history acceptance inspection items, and acquiring association relations and sequence relations among the keywords;

and determining acceptance items of quality acceptance based on the association relation and the sequence relation among the keywords.

Preferably, determining the acceptance item of quality acceptance based on the association relationship and the sequence relationship between the keywords comprises:

combining the keywords based on the association relation to obtain a target keyword, and acquiring a history acceptance item corresponding to the target keyword;

and sorting the historical acceptance items based on the sequence relation to obtain quality acceptance items.

Preferably, based on the association relationship, merging the keywords to obtain a target keyword, and obtaining a history acceptance item corresponding to the target keyword, including:

combining keywords with the association degree larger than the preset association degree based on the association relation to obtain a keyword set, performing word sense analysis on the keyword set, and selecting keywords with word senses conforming to the project names of the history acceptance projects as target keywords;

and taking the history acceptance item of the item name corresponding to the target keyword as the history acceptance item corresponding to the target keyword.

Preferably, in S2, based on the process flow of the construction engineering and the acceptance template library, decomposing the acceptance item to obtain an inspection item, including:

acquiring a first attribute characteristic of a process flow of the construction project, and establishing position information of the construction project based on the first attribute characteristic;

acquiring a second attribute characteristic of the process flow of the construction project, and determining the procedure information of the construction project based on the second attribute characteristic;

based on the position information and the process information, a process model of the construction project is established, and the process position and the process information of each process point are marked in the process model;

carrying out unit item decomposition on the acceptance items, and obtaining unit procedure positions and unit process information corresponding to each unit item;

based on the process model, analyzing all unit process positions and unit process information to obtain the connection compactness between the adjacent unit process positions and the corresponding unit process information;

acquiring an acceptance inspection template meeting the acceptance inspection items based on the acceptance inspection template library, and decomposing the acceptance inspection items based on the singleness of the acceptance inspection template to obtain a plurality of groups of decomposition sets, wherein each group of decomposition sets comprises a plurality of initial inspection items;

based on unit procedure positions and unit process information included in each initial inspection item, carrying out item inspection difficulty assessment on each initial inspection item by utilizing the contact compactness to obtain item inspection difficulty corresponding to each initial inspection item;

based on the project checking difficulty, acquiring the set difficulty of each set of decomposition sets, and acquiring a decomposition set with the minimum set difficulty value as a target decomposition set;

and under the target decomposition set, decomposing the acceptance item to obtain an initial inspection item serving as an inspection item of the final acceptance item.

Preferably, decomposing the acceptance item based on the singleness of the acceptance inspection template to obtain a plurality of groups of decomposition sets, including:

decomposing the acceptance item into a plurality of unit items, and merging the unit items into an initial inspection item meeting the acceptance inspection template;

combining the acceptance inspection templates to obtain template combinations corresponding to the one-time detection of the acceptance inspection items;

and decomposing the acceptance items according to the template combination to obtain a plurality of groups of decomposition sets.

Preferably, in S2, after obtaining the inspection item, the method further includes evaluating the inspection item, specifically:

determining a first workload corresponding to the inspection item based on the acceptance template library, and determining a second workload corresponding to the inspection item based on the process flow;

judging whether the ratio of the second workload to the first workload is larger than a preset ratio or not;

if yes, determining that the acceptance inspection template corresponding to the inspection item is qualified;

otherwise, determining that the acceptance inspection template corresponding to the inspection item is unqualified;

after the acceptance inspection template corresponding to the inspection item is qualified, acquiring common resources and special resources among the inspection items based on the inspection item corresponding to the inspection item;

judging whether the ratio between the shared resource and the special resource is larger than a preset resource ratio or not;

if yes, determining that the inspection item corresponding to the inspection item is qualified;

otherwise, determining that the inspection item corresponding to the inspection item is unqualified;

after the inspection item corresponding to the inspection item is qualified, acquiring the sum of the first workload and the second workload as a third workload;

based on the third workload, acquiring the total workload of the acceptance item under the inspection item;

judging whether the total workload is smaller than a preset workload or not;

if yes, determining that the total workload of the inspection item meets the requirement;

otherwise, determining that the total workload of the inspection item does not meet the requirement;

after the total workload of the inspection items meets the requirement, acquiring evaluation indexes of the inspection items corresponding to the inspection items, and distributing weight values for the evaluation indexes based on the roles of the inspection items in the inspection items;

based on the evaluation index and the weight value corresponding to the evaluation index, carrying out acceptance evaluation quality detection on the inspection item to obtain acceptance evaluation quality;

judging whether the acceptance evaluation quality meets a preset evaluation quality or not;

if yes, determining that the inspection item is qualified;

otherwise, determining that the inspection item is unqualified.

Preferably, in S3, the statistical display is performed on the acceptance data to obtain a quality acceptance check result, including:

determining sub-acceptance data corresponding to each acceptance point based on the acceptance data, and determining an acceptance check time period and an acceptance check duration for each acceptance point;

filling the acceptance templates corresponding to each acceptance point based on the sub acceptance data to obtain the acceptance information corresponding to each acceptance point;

establishing a display chart of the acceptance data based on the acceptance time period, the acceptance time period and the acceptance information;

performing intelligent analysis on the display chart to determine acceptance early warning information;

and the display chart and the acceptance early warning information form the quality acceptance result.

A quality acceptance inspection system for hydraulic construction engineering, comprising:

the acceptance item determining module is used for determining an acceptance item of quality acceptance based on an acceptance check request for water conservancy construction sent by the client;

the acceptance item decomposition module is used for decomposing the acceptance item based on the process flow of the construction project and the acceptance template library to obtain an inspection item and acquiring acceptance data corresponding to the inspection item;

and the acceptance result statistics module is used for carrying out statistics display on the acceptance data to obtain a quality acceptance check result.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a flow chart of a quality inspection method for hydraulic construction engineering according to an embodiment of the present invention;

FIG. 2 is another flow chart of an embodiment of the present invention;

fig. 3 is a block diagram of a quality inspection system for hydraulic construction engineering according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1

The embodiment of the invention provides a quality acceptance inspection method for water conservancy construction engineering, as shown in fig. 1, comprising the following steps:

s1, determining an acceptance item of quality acceptance based on an acceptance check request for water conservancy construction sent by a client;

s2, decomposing the acceptance items based on the technological process of the construction engineering and an acceptance template library to obtain inspection items, and acquiring acceptance data corresponding to the inspection items;

and S3, carrying out statistics display on the acceptance data to obtain a quality acceptance check result.

In this embodiment, the acceptance templates library includes a plurality of acceptance templates, and a reasonable acceptance template may be selected according to a specific process flow.

The beneficial effects of above-mentioned design scheme are: the quality acceptance inspection data of the hydraulic construction engineering are orderly obtained by decomposing the acceptance inspection items according to the technological process of the construction engineering and the acceptance inspection template library, intelligent statistics is carried out, the quality acceptance inspection result is obtained, and the efficiency and the accuracy of the quality acceptance inspection of the hydraulic construction engineering are improved.

Example 2

Based on the embodiment 1, the embodiment of the invention provides a quality acceptance inspection method for hydraulic construction engineering, and before S1, the method further comprises the steps of receiving an acceptance inspection request for hydraulic construction sent by a client, specifically:

the client is subjected to identity verification, and after the identity verification is successful, an acceptance check request from the client is obtained;

and carrying out safety detection on the acceptance check request, if the acceptance check request passes the case detection, receiving the acceptance check request, and otherwise, intercepting the acceptance check request.

In this embodiment, if the authentication fails, the request of the client is not processed.

The beneficial effects of above-mentioned design scheme are: the client is subjected to identity verification, so that the quality acceptance inspection result is prevented from being stolen, the safety of the client for obtaining the quality acceptance inspection result is ensured, the acceptance inspection request is subjected to safety detection, the quality acceptance inspection of the hydraulic construction engineering is ensured not to be damaged, and the normal operation of the quality acceptance inspection is ensured.

Example 3

Based on the embodiment 1, the embodiment of the invention provides a quality acceptance inspection method for hydraulic construction engineering, as shown in fig. 2, in S1, an acceptance item of quality acceptance is determined based on an acceptance inspection request for hydraulic construction sent from a client, including:

s101: analyzing the acceptance check request to obtain acceptance check information;

s102: extracting keywords from the acceptance inspection information based on the history acceptance inspection items, and acquiring association relations and sequence relations among the keywords;

s103: and determining acceptance items of quality acceptance based on the association relation and the sequence relation among the keywords.

In this embodiment, the association relationship indicates a correlation between keywords, and the order relationship indicates an acquisition order of the keywords in the acceptance check information.

The beneficial effects of above-mentioned design scheme are: and analyzing the acceptance check request, and acquiring the acceptance items of quality acceptance included in the acceptance check request by combining the history acceptance items, so as to provide a basis for quality acceptance check.

Example 4

Based on embodiment 3, the embodiment of the invention provides a quality acceptance inspection method for hydraulic construction engineering, which determines an acceptance item of quality acceptance based on an association relation and a sequence relation among keywords, and comprises the following steps:

combining the keywords based on the association relation to obtain a target keyword, and acquiring a history acceptance item corresponding to the target keyword;

and sorting the historical acceptance items based on the sequence relation to obtain quality acceptance items.

In this embodiment, the target keyword is similar to the item name of the history acceptance item.

In this embodiment, the accepted items of quality acceptance include the item names of the accepted items, and the order of the item checks.

The beneficial effects of above-mentioned design scheme are: according to the association relation between the keywords, the item names of the acceptance items are definitely determined, and the item sequence of the acceptance items is definitely determined according to the sequence relation between the keywords, so that the acceptance items are ensured to meet the acceptance inspection request, and the accuracy of quality acceptance inspection is ensured.

Example 5

Based on embodiment 4, the embodiment of the invention provides a quality acceptance inspection method for hydraulic construction engineering, which is based on the association relation, the keywords are combined to obtain target keywords, and a history acceptance item corresponding to the target keywords is obtained, and the method comprises the following steps:

combining keywords with the association degree larger than the preset association degree based on the association relation to obtain a keyword set, performing word sense analysis on the keyword set, and selecting keywords with word senses conforming to the project names of the history acceptance projects as target keywords;

and taking the history acceptance item of the item name corresponding to the target keyword as the history acceptance item corresponding to the target keyword.

In this embodiment, the keyword set includes keywords having a degree of association greater than a preset degree of association.

In this embodiment, the target keyword is a keyword of the keyword set that best matches the item name of the history acceptance item.

The beneficial effects of above-mentioned design scheme are: and combining the keywords according to the association relation, so that the repeatability of acquisition of the acceptance inspection item is avoided, and the accuracy of quality acceptance inspection is ensured.

Example 6

Based on the embodiment 1, the embodiment of the invention provides a quality acceptance inspection method for hydraulic construction engineering, in S2, based on the technological process of the construction engineering and an acceptance template library, the acceptance items are decomposed to obtain inspection items, and the quality acceptance inspection method comprises the following steps:

acquiring a first attribute characteristic of a process flow of the construction project, and establishing position information of the construction project based on the first attribute characteristic;

acquiring a second attribute characteristic of the process flow of the construction project, and determining the procedure information of the construction project based on the second attribute characteristic;

based on the position information and the process information, a process model of the construction project is established, and the process position and the process information of each process point are marked in the process model;

carrying out unit item decomposition on the acceptance items, and obtaining unit procedure positions and unit process information corresponding to each unit item;

based on the process model, analyzing all unit process positions and unit process information to obtain the connection compactness between the adjacent unit process positions and the corresponding unit process information;

acquiring an acceptance inspection template meeting the acceptance inspection items based on the acceptance inspection template library, and decomposing the acceptance inspection items based on the singleness of the acceptance inspection template to obtain a plurality of groups of decomposition sets, wherein each group of decomposition sets comprises a plurality of initial inspection items;

based on unit procedure positions and unit process information included in each initial inspection item, carrying out item inspection difficulty assessment on each initial inspection item by utilizing the contact compactness to obtain item inspection difficulty corresponding to each initial inspection item;

based on the project checking difficulty, acquiring the set difficulty of each set of decomposition sets, and acquiring a decomposition set with the minimum set difficulty value as a target decomposition set;

and under the target decomposition set, decomposing the acceptance item to obtain an initial inspection item serving as an inspection item of the final acceptance item.

In this embodiment, the first attribute feature is construction site information of the construction project, and the second attribute feature is construction flow information of the construction project.

In this embodiment, performing unit item decomposition on the acceptance item is to decompose the acceptance item into the smallest item.

In this embodiment, the more relevant processes between the unit process information, the higher the corresponding tightness of the connection.

In this embodiment, the acceptance item is decomposed based on the singleness of the acceptance inspection templates, that is, a plurality of acceptance inspection templates satisfy the execution of the acceptance item, and there is no repeated acceptance process, for example, a first initial inspection item corresponds to a plurality of acceptance inspection templates, multiple groups of decomposition sets can be obtained according to the corresponding plurality of acceptance inspection templates, multiple possibilities are provided for the decomposition of the acceptance item, and finally an optimal one possibility is found.

In this embodiment, the higher the affinity of the connection, the lower the difficulty of the corresponding item inspection.

The beneficial effects of above-mentioned design scheme are: by combining the technological process of construction engineering and the acceptance template library, an optimal decomposition method is determined, so that an inspection item is obtained, and the corresponding acceptance template is also satisfied while the decomposition of the acceptance item is ensured to satisfy the specific technological process, thereby ensuring the quality and efficiency of acceptance.

Example 7

Based on embodiment 6, the embodiment of the invention provides a quality acceptance inspection method for hydraulic construction engineering, which decomposes acceptance items based on the singleness of an acceptance inspection template to obtain a plurality of groups of decomposition sets, comprising:

decomposing the acceptance item into a plurality of unit items, and merging the unit items into an initial inspection item meeting the acceptance inspection template;

combining the acceptance inspection templates to obtain template combinations corresponding to the one-time detection of the acceptance inspection items;

and decomposing the acceptance items according to the template combination to obtain a plurality of groups of decomposition sets.

In this embodiment, the template combinations corresponding to the completion of one-time detection of the acceptance item are satisfied as the acceptance item can be completely executed and not repeated.

The beneficial effects of above-mentioned design scheme are: the acceptance items are decomposed through the acceptance inspection templates, so that the acceptance items are guaranteed to be decomposed to meet the acceptance inspection templates, and the acceptance inspection efficiency is improved.

Example 8

Based on the embodiment 1, the embodiment of the invention provides a quality acceptance inspection method for hydraulic construction engineering, wherein after an inspection item is obtained in S2, the quality acceptance inspection method further comprises the step of evaluating the inspection item, specifically comprises the following steps:

determining a first workload corresponding to the inspection item based on the acceptance template library, and determining a second workload corresponding to the inspection item based on the process flow;

judging whether the ratio of the second workload to the first workload is larger than a preset ratio or not;

if yes, determining that the acceptance inspection template corresponding to the inspection item is qualified;

otherwise, determining that the acceptance inspection template corresponding to the inspection item is unqualified;

after the acceptance inspection template corresponding to the inspection item is qualified, acquiring common resources and special resources among the inspection items based on the inspection item corresponding to the inspection item;

judging whether the ratio between the shared resource and the special resource is larger than a preset resource ratio or not;

if yes, determining that the inspection item corresponding to the inspection item is qualified;

otherwise, determining that the inspection item corresponding to the inspection item is unqualified;

after the inspection item corresponding to the inspection item is qualified, acquiring the sum of the first workload and the second workload as a third workload;

based on the third workload, acquiring the total workload of the acceptance item under the inspection item;

judging whether the total workload is smaller than a preset workload or not;

if yes, determining that the total workload of the inspection item meets the requirement;

otherwise, determining that the total workload of the inspection item does not meet the requirement;

after the total workload of the inspection items meets the requirement, acquiring evaluation indexes of the inspection items corresponding to the inspection items, and distributing weight values for the evaluation indexes based on the roles of the inspection items in the inspection items;

based on the evaluation index and the weight value corresponding to the evaluation index, carrying out acceptance evaluation quality detection on the inspection item to obtain acceptance evaluation quality;

judging whether the acceptance evaluation quality meets a preset evaluation quality or not;

if yes, determining that the inspection item is qualified;

otherwise, determining that the inspection item is unqualified.

In this embodiment, the first workload is a general workload of the inspection item, and the second workload is a specific workload of the inspection item for the construction work.

In this embodiment, when the ratio of the second workload to the first workload is greater than the preset ratio and the inspection template selected in the inspection template library is used for inspection, the workload is reasonable, and the workload is prevented from being increased due to the error in selecting the inspection template.

In this embodiment, when the ratio between the shared resource and the special resource is greater than the preset resource ratio, it indicates that the shared resource in the inspection item corresponding to the inspection item is more, so that the resource waste can be reduced.

In this embodiment, when the total workload is smaller than the preset workload, it indicates that the total workload required by all the inspection items is within the preset range, and the whole inspection items are qualified.

In this embodiment, the greater the effect of the inspection item in the inspection item, the greater the assigned weight value.

The beneficial effects of above-mentioned design scheme are: the inspection project is sequentially evaluated according to the workload, the resource use condition, the total workload and the acceptance evaluation quality required by the execution of the inspection project, so that the inspection project is ensured to be minimum in terms of effective quality detection and acceptance of the construction project, the waste of manpower and resources is avoided, the problem that timeliness is not guaranteed is solved, and the efficiency and the accuracy of the quality acceptance inspection of the water conservancy construction project are improved.

Example 9

Based on embodiment 1, the embodiment of the invention provides a quality acceptance inspection method for hydraulic construction engineering, in S3, the acceptance data is statistically displayed to obtain a quality acceptance inspection result, which comprises the following steps:

determining sub-acceptance data corresponding to each acceptance point based on the acceptance data, and determining an acceptance check time period and an acceptance check duration for each acceptance point;

filling the acceptance templates corresponding to each acceptance point based on the sub acceptance data to obtain the acceptance information corresponding to each acceptance point;

establishing a display chart of the acceptance data based on the acceptance time period, the acceptance time period and the acceptance information;

performing intelligent analysis on the display chart to determine acceptance early warning information;

and the display chart and the acceptance early warning information form the quality acceptance result.

In this embodiment, the acceptance template is preset according to the characteristics of the acceptance point, for example, including descriptions of the characteristics of the size, area, and the like of the acceptance point.

In this embodiment, the presentation chart is automatically generated based on the acceptance check period, the acceptance check duration, and the acceptance information.

In this embodiment, the acceptance early warning information is specifically obtained by analyzing and comparing a display chart with a preset threshold.

The beneficial effects of above-mentioned design scheme are: and the quality acceptance result is determined by distributing acceptance data according to each acceptance point and combining the inspection time point and the inspection duration of acceptance, and automatically generating a display chart and acceptance early warning information, so that manpower and material resources for quality acceptance management are reduced, the timeliness of the quality acceptance result is ensured, and the efficiency and accuracy of quality acceptance inspection of water conservancy construction engineering are improved.

Example 10

Based on embodiment 9, the embodiment of the invention provides a quality acceptance inspection method for hydraulic construction engineering, which performs intelligent analysis on the display chart to determine acceptance early warning information, and comprises the following steps:

setting a single early warning value for each display position according to the attribute of all display positions in each verification point in the display chart;

classifying and dividing all the display positions according to the attributes of all the display positions in each verification point in the display chart to obtain a plurality of groups of display positions, and determining the comprehensive early warning value of each group of display positions;

the calculation formula of the comprehensive early warning value F of the set of display positions is as follows:

wherein n represents the number of display positions in the set of display positions, f _i Single warning value, delta, representing the ith display position _i The weight value in the group of display positions representing the ith display position is (0, 1), T _i Representing the acceptance duration of the ith display position, T representing the total acceptance duration of the set of display positions;

judging whether the comprehensive early warning value is larger than a preset early warning value, if so, taking the display position of the group as a key group, otherwise, taking the display position of the group as a secondary group;

based on the grouping of the major group and the minor group, calculating a final early warning value K of the current acceptance point according to the following formula;

wherein m represents the group number of the important group, s represents the group number of the secondary group, T ₀ Representing the acceptance duration of the current acceptance point, T _b Representing the acceptance time length of the key group, T _c Representing the duration of acceptance of said minor group, F _j Representing the comprehensive early warning value of the j-th group of key groups, F _ω Comprehensive early warning value tau representing omega-th group secondary group ₁ The weight value of the key group is (0, 1), and tau ₂ The weight value representing the secondary group is (0, 1), t _j Represents the acceptance time point of the j-th group emphasis group,represents the j-th group weightPreset optimal acceptance time point, t, of point group _ω Indicating the time point of acceptance of the omega subgroup, +.>Representing a preset optimal acceptance time point of the omega-th group minor group;

judging whether the final early warning value is larger than a preset final early warning value or not;

if yes, determining the acceptance early warning information as early warning reminding;

otherwise, determining that the acceptance early warning information is abnormal, and not carrying out early warning reminding.

In this embodiment, the more important the role of a presentation position in the set of presentation positions, the greater the corresponding weight value.

In this embodiment, the weight value of the emphasis group is greater than the weight value of the secondary group.

In this embodiment, the preset optimal acceptance time point is determined according to the actual acceptance situation.

The beneficial effects of above-mentioned design scheme are: by analyzing and calculating all display positions in each inspection point in the display chart, when the comprehensive early warning value of each group of display positions is determined, the single early warning value of each display position is taken as the main part, the comprehensive early warning value of each group of display positions is comprehensively determined by combining the action of the display positions in the whole and the inspection time length, the accuracy of the comprehensive early warning value is ensured to be obtained by calculation, the comprehensive early warning value of each group of display positions is further utilized to group each group of display positions, a grouping calculation basis is provided for calculating the final early warning value of the current inspection point, the influence of the inspection time length and the inspection time point on the inspection result is considered in the final early warning value of the current inspection point, the final early warning value of the current inspection point is determined, the early warning information of the inspection point is more accurate, the situation of error is avoided, and the efficiency and the accuracy of the quality inspection of the hydraulic construction engineering are improved.

Example 11

The embodiment of the invention provides a quality acceptance inspection system for water conservancy construction engineering, as shown in fig. 3, comprising:

the acceptance item determining module is used for determining an acceptance item of quality acceptance based on an acceptance check request for water conservancy construction sent by the client;

the acceptance item decomposition module is used for decomposing the acceptance item based on the process flow of the construction project and the acceptance template library to obtain an inspection item and acquiring acceptance data corresponding to the inspection item;

and the acceptance result statistics module is used for carrying out statistics display on the acceptance data to obtain a quality acceptance check result.

In this embodiment, the acceptance templates library includes a plurality of acceptance templates, and a reasonable acceptance template may be selected according to a specific process flow.

The beneficial effects of above-mentioned design scheme are: the quality acceptance inspection data of the hydraulic construction engineering are orderly obtained by decomposing the acceptance inspection items according to the technological process of the construction engineering and the acceptance inspection template library, intelligent statistics is carried out, the quality acceptance inspection result is obtained, and the efficiency and the accuracy of the quality acceptance inspection of the hydraulic construction engineering are improved.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (7)

1. The quality acceptance inspection method for the water conservancy construction engineering is characterized by comprising the following steps of:

s1, determining an acceptance item of quality acceptance based on an acceptance check request for water conservancy construction sent by a client;

s2, decomposing the acceptance items based on the technological process of the construction engineering and an acceptance template library to obtain inspection items, and acquiring acceptance data corresponding to the inspection items;

s3, carrying out statistics display on the acceptance data to obtain a quality acceptance check result;

in S2, based on the process flow of the construction engineering and the acceptance template library, decomposing the acceptance item to obtain an inspection item, including:

acquiring a first attribute characteristic of a process flow of the construction project, and establishing position information of the construction project based on the first attribute characteristic;

acquiring a second attribute characteristic of the process flow of the construction project, and determining the procedure information of the construction project based on the second attribute characteristic;

based on the position information and the process information, a process model of the construction project is established, and the process position and the process information of each process point are marked in the process model;

carrying out unit item decomposition on the acceptance items, and obtaining unit procedure positions and unit process information corresponding to each unit item;

based on the process model, analyzing all unit process positions and unit process information to obtain the connection compactness between the adjacent unit process positions and the corresponding unit process information;

acquiring an acceptance inspection template meeting the acceptance inspection items based on the acceptance inspection template library, and decomposing the acceptance inspection items based on the singleness of the acceptance inspection template to obtain a plurality of groups of decomposition sets, wherein each group of decomposition sets comprises a plurality of initial inspection items;

based on unit procedure positions and unit process information included in each initial inspection item, carrying out item inspection difficulty assessment on each initial inspection item by utilizing the contact compactness to obtain item inspection difficulty corresponding to each initial inspection item;

based on the project checking difficulty, acquiring the set difficulty of each set of decomposition sets, and acquiring a decomposition set with the minimum set difficulty value as a target decomposition set;

under the target decomposition set, decomposing the acceptance item to obtain an initial inspection item as an inspection item of the final acceptance item;

wherein, based on the uniqueness of the acceptance inspection template, decomposing the acceptance item to obtain a plurality of groups of decomposition sets, including:

decomposing the acceptance item into a plurality of unit items, and merging the unit items into an initial inspection item meeting the acceptance inspection template;

combining the acceptance inspection templates to obtain template combinations corresponding to the one-time detection of the acceptance inspection items;

decomposing the acceptance items according to the template combination to obtain a plurality of groups of decomposition sets;

in S2, after obtaining the inspection item, the method further includes evaluating the inspection item, specifically:

determining a first workload corresponding to the inspection item based on the acceptance template library, and determining a second workload corresponding to the inspection item based on the process flow;

judging whether the ratio of the second workload to the first workload is larger than a preset ratio or not;

if yes, determining that the acceptance inspection template corresponding to the inspection item is qualified;

otherwise, determining that the acceptance inspection template corresponding to the inspection item is unqualified;

after the acceptance inspection template corresponding to the inspection item is qualified, acquiring common resources and special resources among the inspection items based on the inspection item corresponding to the inspection item;

judging whether the ratio between the shared resource and the special resource is larger than a preset resource ratio or not;

if yes, determining that the inspection item corresponding to the inspection item is qualified;

otherwise, determining that the inspection item corresponding to the inspection item is unqualified;

after the inspection item corresponding to the inspection item is qualified, acquiring the sum of the first workload and the second workload as a third workload;

based on the third workload, acquiring the total workload of the acceptance item under the inspection item;

judging whether the total workload is smaller than a preset workload or not;

if yes, determining that the total workload of the inspection item meets the requirement;

otherwise, determining that the total workload of the inspection item does not meet the requirement;

after the total workload of the inspection items meets the requirement, acquiring evaluation indexes of the inspection items corresponding to the inspection items, and distributing weight values for the evaluation indexes based on the roles of the inspection items in the inspection items;

based on the evaluation index and the weight value corresponding to the evaluation index, carrying out acceptance evaluation quality detection on the inspection item to obtain acceptance evaluation quality;

judging whether the acceptance evaluation quality meets a preset evaluation quality or not;

if yes, determining that the inspection item is qualified;

otherwise, determining that the inspection item is unqualified.

2. The method for checking and accepting the quality of the hydraulic construction engineering according to claim 1, wherein before S1, the method further comprises receiving a request for checking and accepting the hydraulic construction sent by the client, specifically:

the client is subjected to identity verification, and after the identity verification is successful, an acceptance check request from the client is obtained;

and carrying out safety detection on the acceptance check request, if the acceptance check request passes the case detection, receiving the acceptance check request, and otherwise, intercepting the acceptance check request.

3. The quality inspection method for hydraulic construction according to claim 1, wherein in S1, the determination of the quality inspection item based on the inspection request for hydraulic construction sent from the client comprises:

analyzing the acceptance check request to obtain acceptance check information;

extracting keywords from the acceptance inspection information based on the history acceptance inspection items, and acquiring association relations and sequence relations among the keywords;

and determining acceptance items of quality acceptance based on the association relation and the sequence relation among the keywords.

4. A quality acceptance inspection method of hydraulic construction engineering according to claim 3, wherein determining an acceptance item of quality acceptance based on an association relationship and a sequence relationship between the keywords comprises:

combining the keywords based on the association relation to obtain a target keyword, and acquiring a history acceptance item corresponding to the target keyword;

and sorting the historical acceptance items based on the sequence relation to obtain quality acceptance items.

5. The method for checking and accepting quality of hydraulic construction engineering according to claim 4, wherein merging the keywords based on the association relation to obtain a target keyword, and obtaining a history acceptance item corresponding to the target keyword, comprises:

combining keywords with the association degree larger than the preset association degree based on the association relation to obtain a keyword set, performing word sense analysis on the keyword set, and selecting keywords with word senses conforming to the project names of the history acceptance projects as target keywords;

and taking the history acceptance item of the item name corresponding to the target keyword as the history acceptance item corresponding to the target keyword.

6. The method for checking the quality acceptance of the hydraulic construction engineering according to claim 1, wherein in S3, the acceptance data is statistically displayed to obtain a quality acceptance check result, which comprises:

determining sub-acceptance data corresponding to each acceptance point based on the acceptance data, and determining an acceptance check time period and an acceptance check duration for each acceptance point;

filling the acceptance templates corresponding to each acceptance point based on the sub acceptance data to obtain the acceptance information corresponding to each acceptance point;

establishing a display chart of the acceptance data based on the acceptance time period, the acceptance time period and the acceptance information;

performing intelligent analysis on the display chart to determine acceptance early warning information;

and the display chart and the acceptance early warning information form the quality acceptance result.

7. Quality acceptance inspection system of hydraulic construction engineering, characterized by includes:

the acceptance item determining module is used for determining an acceptance item of quality acceptance based on an acceptance check request for water conservancy construction sent by the client;

the acceptance item decomposition module is used for decomposing the acceptance item based on the process flow of the construction project and the acceptance template library to obtain an inspection item and acquiring acceptance data corresponding to the inspection item;

the acceptance result statistics module is used for carrying out statistics display on the acceptance data to obtain quality acceptance check results;

wherein, acceptance item decomposition module is used for:

acquiring a first attribute characteristic of a process flow of the construction project, and establishing position information of the construction project based on the first attribute characteristic;

acquiring a second attribute characteristic of the process flow of the construction project, and determining the procedure information of the construction project based on the second attribute characteristic;

based on the position information and the process information, a process model of the construction project is established, and the process position and the process information of each process point are marked in the process model;

carrying out unit item decomposition on the acceptance items, and obtaining unit procedure positions and unit process information corresponding to each unit item;

based on the process model, analyzing all unit process positions and unit process information to obtain the connection compactness between the adjacent unit process positions and the corresponding unit process information;

acquiring an acceptance inspection template meeting the acceptance inspection items based on the acceptance inspection template library, and decomposing the acceptance inspection items based on the singleness of the acceptance inspection template to obtain a plurality of groups of decomposition sets, wherein each group of decomposition sets comprises a plurality of initial inspection items;

based on unit procedure positions and unit process information included in each initial inspection item, carrying out item inspection difficulty assessment on each initial inspection item by utilizing the contact compactness to obtain item inspection difficulty corresponding to each initial inspection item;

based on the project checking difficulty, acquiring the set difficulty of each set of decomposition sets, and acquiring a decomposition set with the minimum set difficulty value as a target decomposition set;

under the target decomposition set, decomposing the acceptance item to obtain an initial inspection item as an inspection item of the final acceptance item;

wherein, based on the uniqueness of the acceptance inspection template, decomposing the acceptance item to obtain a plurality of groups of decomposition sets, including:

decomposing the acceptance item into a plurality of unit items, and merging the unit items into an initial inspection item meeting the acceptance inspection template;

combining the acceptance inspection templates to obtain template combinations corresponding to the one-time detection of the acceptance inspection items;

decomposing the acceptance items according to the template combination to obtain a plurality of groups of decomposition sets;

wherein, after obtaining the inspection item, further comprises evaluating the inspection item, specifically:

determining a first workload corresponding to the inspection item based on the acceptance template library, and determining a second workload corresponding to the inspection item based on the process flow;

judging whether the ratio of the second workload to the first workload is larger than a preset ratio or not;

if yes, determining that the acceptance inspection template corresponding to the inspection item is qualified;

otherwise, determining that the acceptance inspection template corresponding to the inspection item is unqualified;

after the acceptance inspection template corresponding to the inspection item is qualified, acquiring common resources and special resources among the inspection items based on the inspection item corresponding to the inspection item;

judging whether the ratio between the shared resource and the special resource is larger than a preset resource ratio or not;

if yes, determining that the inspection item corresponding to the inspection item is qualified;

otherwise, determining that the inspection item corresponding to the inspection item is unqualified;

after the inspection item corresponding to the inspection item is qualified, acquiring the sum of the first workload and the second workload as a third workload;

based on the third workload, acquiring the total workload of the acceptance item under the inspection item;

judging whether the total workload is smaller than a preset workload or not;

if yes, determining that the total workload of the inspection item meets the requirement;

otherwise, determining that the total workload of the inspection item does not meet the requirement;

after the total workload of the inspection items meets the requirement, acquiring evaluation indexes of the inspection items corresponding to the inspection items, and distributing weight values for the evaluation indexes based on the roles of the inspection items in the inspection items;

based on the evaluation index and the weight value corresponding to the evaluation index, carrying out acceptance evaluation quality detection on the inspection item to obtain acceptance evaluation quality;

judging whether the acceptance evaluation quality meets a preset evaluation quality or not;

if yes, determining that the inspection item is qualified;

otherwise, determining that the inspection item is unqualified.