CN111985893B - Method for auditing approach of building engineering project material, intelligent terminal and storage medium - Google Patents
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Abstract
The invention relates to a method for auditing approach of building engineering project materials, an intelligent terminal and a storage medium, which relate to the technical field of engineering supervision and solve the problems existing in a mode of manually auditing recorded data, and the method comprises the following steps of S10: positioning a construction project engineering plate of a construction site where a current auditor is located; s20: acquiring material information data sent by a detection terminal; s30: comparing the material information data; s40: automatically circularly comparing the data in the information task list with the data in the database; s50: and after receiving the storage instruction, transmitting the information task list to a server corresponding to the next node. According to the method and the device, the examination and approval list can be directly consulted on the platform of the workstation and the on-site registration terminal at the same time, on-line registration of material approach is realized, the examination flow is simplified, the examination and acceptance work of the material is clearer, more efficient and intelligent, and the examination efficiency and traceability are effectively improved.
Description
Technical Field
The invention relates to the technical field of engineering supervision, in particular to a method for auditing approach of materials in a building engineering project, an intelligent terminal and a storage medium.
Background
The project supervision refers to the entrusting of a supervision unit with relevant qualification by a first party, and represents a specialized service activity of monitoring the project construction of a second party by the first party according to project construction files approved by the country, laws and regulations related to the project construction, project construction supervision contracts and other project construction contracts, wherein in the project supervision activity, the acceptance of purchased materials is critical to the whole building project, and supervision personnel are required to ensure that the incoming materials meet construction requirements, so that construction hidden dangers are reduced at the source.
Because the characteristics of each project are different, the management and control points of each party are different in the implementation process, and the traditional offline supervision mode and offline registration mode are adopted, so that the management and supervision have larger uncertainty, the data accuracy is lower, unnecessary contradictions in the construction and acceptance process are easy to cause, the manual auditing mode is easy to be influenced by human factors, the data calculation is wrong, hidden hazards are buried for the quality of the later projects, and the problems of large workload, long time consumption, inconvenience in tracing the sources of the problems and the like exist.
Disclosure of Invention
In order to solve the defects of the traditional manual auditing and off-line data recording, the material auditing and acceptance work is more efficient, intelligent and clear, and the auditing efficiency and traceability are effectively improved, the invention aims to provide the material approach auditing method for the construction engineering project.
The first object of the present invention is achieved by the following technical solutions:
the method for auditing the approach of the building engineering project material comprises the following steps:
s10: receiving wireless signal data uploaded by a terminal, matching the acquired wireless signal data with a pre-stored signal database, and positioning a construction project engineering plate of a construction site where a current auditor is located;
s20: acquiring material information data sent by a detection terminal, and automatically positioning a corresponding material approach type;
s30: comparing the material information data, and inputting the data into the corresponding information task list;
s40: automatically performing cyclic comparison on the data in the information task list and the data in the database, identifying whether the data in the information task list is in a set range, if so, automatically storing the data, otherwise, prompting that the information task list has errors;
s50: and after receiving the storage instruction, transmitting the information task list to a server corresponding to the next node.
By adopting the technical scheme, the auditor establishes a public information platform on line, the on-site supervision staff receives the approval list through the other terminal, after the material enters the site supervision staff, the on-site supervision staff locates the position through the locating terminal and enters the construction project engineering plate corresponding to the material, after the material is measured and checked through the detecting terminal, the new entry type project list is newly built, after the corresponding entry type is determined, the data entry task list is uploaded, the material information, the using position, the on-site entry condition overview and the recording time are sequentially uploaded, and after on-site photos are sequentially uploaded according to the actual condition of the material, after the data is correct, the incoming task list is directly submitted, the problem list is created when the material has problems, and the incoming task list is submitted to a public information platform after the content is correspondingly filled, and then an auditor and a site supervision staff can directly consult the approval list on the platform of a workstation and a site registration terminal at the same time, so that the on-line registration of the material incoming is realized, the auditing flow is simplified, the defects of the traditional manual auditing and off-line data record are overcome, the material auditing and acceptance work is more efficient, intelligent and clear, and the auditing efficiency and traceability are effectively improved.
The present invention may be further configured in a preferred example to: in step S20, after determining the corresponding material approach type, a manual verification confirmation is popped up and a log is generated, if the confirmation information is recognized, information data is automatically entered, otherwise, the operation is automatically skipped to return to the construction project module.
By adopting the technical scheme, the further confirmation of filling of the material approach list is realized, and the situation of filling by mistake is reduced.
The present invention may be further configured in a preferred example to: in step S30, the material information includes a material category, a material unit, a material brand, a material model, a predetermined number, a real weight, an actual measured inner diameter, an approach time, a live photo.
By adopting the technical scheme, various information acquisition and record of the material are realized, and the information is more comprehensive.
The present invention may be further configured in a preferred example to: in step S40, when the data in the information task list is not within the preset range, the color of the data in the corresponding task list is automatically changed to red.
By adopting the technical scheme, when the filled data is not in the preset range, the filled data is changed into red, so that on-site supervision staff can directly conveniently judge that the incoming material does not meet the quality requirement, and the calculation program is simplified.
The present invention may be further configured in a preferred example to: in step S40, the material information further includes meeting-brand information and a goal result, the meeting-brand information includes three options of "no requirement", "meeting", "not meeting", when the meeting-brand information is selected "no requirement" or "meeting", the goal result is changed to two options of "witness sample" and "goal" and when the meeting-brand information is selected "not meeting", the goal result is changed to a default "goal" option.
By adopting the technical scheme, the approach result of the material is rapidly determined and filled according to whether the material accords with the condition of the appointed brand, and when the material does not accord with the information of the appointed brand, the material is directly defaulted to be in a refund, so that a worker can conveniently and rapidly define the approach condition of the material.
The present invention may be further configured in a preferred example to: in step S30, a re-addable inspection item module is also provided, and when data is identified, other information of the material is automatically continuously entered.
By adopting the technical scheme, the material information registration is convenient to add, the material information is recorded in more detail, and the integrity and the accuracy of the material information registration are ensured.
The present invention may be further configured in a preferred example to: in step S40, the date and time of the system is automatically identified and automatically updated.
By adopting the technical scheme, the information registration step is simplified, so that the time recording is more practical and accurate.
The present invention may be further configured in a preferred example to: in step S50, the corresponding material information file is automatically cleared after receiving the deletion instruction.
By adopting the technical scheme, the material information file registered with errors can be conveniently deleted, the operation is simple and convenient, and the information redundancy is reduced.
The invention aims at providing an intelligent terminal for checking the approach of materials in construction engineering projects.
The second object of the present invention is achieved by the following technical solutions:
the intelligent terminal for checking the approach of the construction project material is characterized by comprising a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and execute the approach checking method of the construction project material
The third object of the present invention is to provide a computer readable storage medium.
The third object of the present invention is achieved by the following technical solutions:
a computer readable storage medium storing a computer program loadable by a processor and operative to perform a method of auditing a material approach to a construction project.
In summary, the present invention includes at least one of the following beneficial technical effects:
1. the on-line auditing and registering of the material approach information is realized, and auditing personnel and on-site supervision personnel can directly review the auditing list on a platform of a workstation and on-site registering terminals at the same time, so that the on-line registering of the material approach is realized, the auditing flow is simplified, the defects of traditional manual auditing and off-line data recording are overcome, the material auditing and checking work is more efficient, intelligent and clear, and the auditing efficiency and traceability are effectively improved;
2. the material checking and accepting management can be realized through the mobile terminal and the online platform, and the material checking and accepting nodes in the engineering implementation process can be flexibly set according to the characteristics of the construction engineering and the management and control points of the construction party, so that the material checking and managing work of the construction party and the supervision party is more attached to the requirements of the construction party, the practical implementation is more met, and the management efficiency is higher;
the method is convenient for deleting the material information file registered with errors, is simple and convenient to operate, and reduces information redundancy.
Drawings
Fig. 1 is a schematic flow chart of a first embodiment of the present invention.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
In addition, the term "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In this context, unless otherwise specified, the term "/" generally indicates that the associated object is an "or" relationship.
Embodiments of the invention are described in further detail below with reference to the drawings.
Example 1
The above object of the present invention is achieved by the following means.
The method for auditing the approach of the construction engineering project material comprises the following steps as shown in figure 1:
s10: receiving wireless signal data uploaded by a terminal, matching the acquired wireless signal data with a pre-stored signal database, and positioning a construction project engineering plate of a construction site where a current auditor is located;
and the auditor selects a construction project engineering plate on the public information platform, establishes a field approval project in the construction project engineering plate, and generates an approval list. Specifically, an auditor compiles a material approach plan and a witness sampling plan in advance, newly builds a construction project engineering plate entrance related to a construction project being constructed on a computer terminal platform, formulates a plurality of approval projects to be audited according to the material, the constructional elements, the equipment approach plan and the witness sampling plan, forms an approval list in a system, and meanwhile, on-site supervision staff acquires the construction project engineering plate and the approval list at other terminals, wherein the other terminals comprise a handheld intelligent terminal and a PC terminal.
When in field inspection, a field supervision person locates the current position through a locating terminal, and after locating the construction project engineering plate entering the current position, selects and enters a material entrance registration module, and selects a corresponding entrance approval project module in an approval list according to the construction project applied by the entrance material. Specifically, after the materials enter the field, on-site supervision personnel firstly examines whether a product list, quality proof materials, qualification certificates, delivery certificates, quality assurance books, inspection test reports and the like accord with related designs, inspection, structure measurement, size measurement and quality detection are carried out on the entered materials according to the regulations of contracts and specifications, after the detection is finished, the materials enter a material registration module, and a corresponding entering approval project module is selected according to construction projects corresponding to the materials.
S20: acquiring material information data sent by a detection terminal, automatically positioning the corresponding material approach type,
after entering the approach examination and approval project module, newly creating a material approach type project sheet, uploading the acquired material data to a public information platform, determining the corresponding material approach type, after determining the corresponding material approach type, popping up manual verification confirmation and generating a log, automatically inputting information data when confirmation information is identified, and otherwise, automatically jumping to return to the construction project module. Further confirmation of filling of the material entrance bill is realized, and the situation of filling by mistake is reduced.
S30: comparing the material information data, and inputting the data into the corresponding information task list;
the admission task list content comprises material information, a use part, an on-site admission condition summary, recording time and on-site photos.
The material information comprises a material category, a material unit, a material brand, a material model, a preset number, a real weight, an actual measurement inner diameter, an approach time and a field photo, the material information also comprises meeting brand information and an approach result, the meeting brand information comprises three options of no requirement, meeting and not meeting, when meeting the meeting brand information, selecting the meeting brand information, namely, no requirement or meeting, the approach result is changed into two options of witness sampling and approach, and when meeting the meeting brand information, selecting the not meeting, the approach result is changed into a default approach option. The method has the advantages that various information acquisition and recording of the materials are realized, the information is more comprehensive, the approach result of the materials is rapidly determined and filled according to whether the materials accord with the conditions of the appointed brands, and when the materials do not accord with the information of the appointed brands, the materials are directly defaulted to be in a refund, so that staff can conveniently and rapidly define the approach condition of the materials.
The field approach condition overview adopts a direct input mode, and the condition overview is input in an input box.
When the field photo is selected, the recording of the field photo can be realized by taking the field photo and selecting the existing photo, so that the field live condition can be conveniently recorded, and the material detection data has stronger dependence.
When the material approach task list is filled in, the recording time module automatically identifies and automatically updates the date and time of the system, the recording time module is clicked to be convenient for manually changing the recording time, and the time recording module stops automatically updating after the manual changing. Simplifying the information registration step, making the time recording more practical and more accurate.
The material information filling page can add other material information through're-addable check items' in a self-defined way. And the material information is recorded in more detail, so that the integrity and accuracy of the material information registration are ensured.
Filling in an approach task list, sequentially filling in material information, a using part, an on-site approach condition overview and a recording time, uploading related photos and image data to the current material, selecting to save/submit if the initial material is tested to have no problem according to the actual condition of the material, and selecting to create a problem list if the material is tested to have the problem.
S40: automatically performing cyclic comparison on the data in the information task list and the data in the database, identifying whether the data in the information task list is in a set range, if so, automatically storing the data, otherwise, prompting that the information task list has errors;
after the corresponding material approach type is determined, skipping out prompt information that the prompt information cannot be modified after being submitted and generating log options, returning to the approach approval project module if the selection is canceled, and skipping to the material approach task list filling page if the selection is determined. The method has the advantages that the further confirmation of filling of the material approach list is realized, the situation of filling by mistake is reduced, when the numerical value of the real quantity weight and the numerical value of the actually measured inner diameter are filled, when the filled numerical value is not in the preset numerical value range, the color of the filled numerical value is changed into red. After the preset number is input, a numerical value range meeting the auditing requirement is obtained according to a calculation formula preset by the platform, when the numerical value of the filled weight and the inner diameter is not in the preset range, the color of the filled numerical value is changed into red, so that on-site supervision staff can directly conveniently judge that the entering material does not meet the quality requirement, and the calculation program is simplified.
S50: after receiving the storage instruction, the information task list is transmitted to a server corresponding to the next node, and after receiving the deleting instruction, the corresponding material information file is automatically cleared. The method is convenient for deleting the material information file registered with errors, is simple and convenient to operate, and reduces information redundancy.
Example two
The intelligent terminal for checking the approach of the construction project materials is characterized by comprising a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and execute the approach checking method of the construction project materials.
Example III
A computer readable storage medium storing a computer program loadable by a processor and operative to perform a method of auditing a material approach to a construction project.
Claims (10)
1. The method for auditing the approach of the building engineering project material is characterized by comprising the following steps:
s10: an auditor establishes a public information platform on line, and when on-site auditors check on site, the on-site auditors locate the current position through a locating terminal, receive wireless signal data uploaded by the terminal, match the acquired wireless signal data with a pre-stored signal database, and locate construction project engineering plates of the construction site where the current auditor is located; an auditor pre-compiles a material approach plan and a witness sampling plan, establishes a construction project engineering plate entrance related to a construction project under construction on a computer terminal platform, formulates a plurality of approval projects to be audited according to the material, the constructional elements, the equipment approach plan and the witness sampling plan, forms an approval list in a system, and meanwhile, acquires the construction project engineering plate and the approval list at other terminals by on-site supervision staff on site;
s20: acquiring material information data sent by a detection terminal, and automatically positioning a corresponding material approach type;
s30: comparing the material information data, and inputting the data into the corresponding information task list;
s40: automatically performing cyclic comparison on the data in the information task list and the data in the database, identifying whether the data in the information task list is in a set range, if so, automatically storing the data, otherwise, prompting that the information task list has errors;
s50: and after receiving the storage instruction, transmitting the information task list to a server corresponding to the next node.
2. The method according to claim 1, wherein in step S20, after determining the corresponding material approach type, a manual verification confirmation is popped up and a log is generated, and when the confirmation information is identified, information data is automatically entered, otherwise, the method automatically jumps to return to the construction project module.
3. The method according to claim 1, wherein in step S30, the material information includes a material type, a material unit, a material brand, a material model, a predetermined number, a real weight, an actual measured inner diameter, an approach time, and a live photo.
4. A method of auditing a material approach to a construction project according to claim 3, wherein in step S40, when the data in the information task sheet is not within a preset range, the color of the data in the corresponding task sheet is automatically changed to red.
5. The method according to claim 3, wherein in step S30, the material information further includes meeting brand information and a meeting result, the meeting brand information includes three options of "no requirement", "meeting" and "no meeting", when the meeting brand information is selected to be "no requirement" or "meeting", the meeting result is changed to two options of "witness sample" and "leave", and when the meeting brand information is selected to be "no meeting", the meeting result is changed to a default "leave" option.
6. The method according to claim 1, wherein in step S30, a module for re-adding inspection items is further provided, and when data is identified, other information of the material is automatically continuously entered.
7. The method for auditing a material approach to a construction project according to claim 1, in which in step S40, the date and time of the system is automatically identified and automatically updated.
8. The method for auditing a material approach to a construction project according to claim 1, wherein in step S50, the corresponding material information file is automatically cleared after receiving the deletion instruction.
9. A smart terminal for auditing the approach of a construction project material, comprising a memory and a processor, wherein the memory stores a computer program that can be loaded by the processor and that performs the method for auditing the approach of a construction project material according to any one of claims 1-8.
10. A computer readable storage medium storing a computer program loadable by a processor and performing the method of construction project material approach audit of any of claims 1 to 8.
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7.3.1.2基于WiFi信号的定位;李国清;《智能矿山概论》;20190430;全文 * |
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