CN112734348B - Green building engineering electromechanical device performance inspection management system - Google Patents

Abstract

The system comprises a servo host, a servo database and at least one mobile electronic device, wherein the servo host, the servo database and the mobile electronic device are used for comparing the standard performance data of each built-in green building electromechanical device, a special examination form can be automatically generated, examination personnel can easily detect the electromechanical device according to the form, the requirements of professional manpower can be reduced, the examination efficiency can be improved, and the examination results of the performance can be calculated on site, so that the verification of the two parties can be provided in real time, the post disputes can be greatly reduced, and the examination flow is delayed.

Description

Green building engineering electromechanical device performance inspection management system

Technical Field

The invention relates to a management system for checking green construction engineering, in particular to a management system for checking the performance of the electromechanical equipment of the green construction engineering, which can improve the efficiency and convenience of checking the performance of the electromechanical equipment of the green construction engineering.

Background

The green building concept is derived from 1999, taiwan promotes the green building evaluation system after brieeam, LEED, gbtol, canada, and the green building standard EEWH (ecological, energy Saving, waste Reduction, health) system is implemented, seven indexes are established, and five grades are classified according to the quality.

The evaluation of the green building is mainly performed according to the performance state of the electromechanical engineering of the green building, and whether the engineering of the green building meets the design standard is evaluated; the electromechanical engineering industry is a large number of industries depending on experience, engineering operators must use abundant practical experience to meet the demands of clients, and in order to meet the demands of clients on the diversity and the variability of electromechanical systems or devices, the electromechanical engineering is not broken down into various construction methods and concepts of various practicability, but in the process of realizing the concepts and implementing the construction methods, the information consistency, the management automation and the operation standardization are difficult to be considered due to the huge number of electromechanical components and complex construction operation.

Planning of the green building electromechanical engineering, namely, implementing a series of control measures in the basic design, implementation design, package distribution and construction processes, so that electromechanical control is within a target range planned in a planning stage; however, the problems faced in the development and construction processes of the electromechanical system are quite numerous and complex, and not every green construction project can easily and truly reach the expected results along with the design scheme; therefore, how to make the owner actually grasp the electromechanical equipment, construct, install and run the flow, and accurately grasp the construction state is a problem that the current electromechanical engineering industry must face.

Furthermore, the electro-mechanical engineering process of green buildings can be divided into various stages, such as: the method comprises the steps of planning a standard in a planning stage of engineering, determining whether a design scheme of the engineering has selectable merchant source electromechanical equipment, determining whether the engineering can complete issuing in a budget, and enabling a standard manufacturer to complete building of a standard building in a preset construction period and the budget, obtaining reasonable profits, wherein the electromechanical performance of the planning design is as required.

In the traditional electromechanical engineering industry system, the installation, material protection, test run, operation performance test, system adjustment, control point-to-point checking and control system test of electromechanical equipment are mostly recorded by manual shooting, so that the labor and time are wasted, errors are easy to generate, and once errors are generated, correction is time-consuming. Furthermore, most of the current construction period management methods in construction sites are currently used for manufacturing simple construction record tables by manpower before construction operators start work, and are not efficient in standardization of electromechanical equipment performance calculation, archival archiving and file manufacturing fineness.

The common opinion of the operators familiar with the electromechanical engineering on the acceptance of the system and the single machine performance measurement is that the record items are numerous and trivial, the variables are numerous, especially the performance measurement is carried out, the whole progress is delayed when the single machine electromechanical equipment is in a problem, the further discussion can find that the error is found to be needed to be measured again when the measurement is finished and the report is made in the office, so that the time management of the measurement is not optimistic; similarly, green construction engineering also includes the above problems, and when the design scheme standard is not reached at the time of final inspection, progress is often greatly delayed, a great deal of manpower and time resources are wasted, and even problems of disputes between two or more parties (such as owners, construction parties and inspection parties) and non-settlement of users are easily caused. Therefore, how to effectively establish a set of control system can save manpower, reduce disputes and errors, effectively control the progress, and rapidly and effectively integrate each flow project, thereby accurately and effectively controlling the quality of the process, and the important problems in the field of green construction and electromechanical engineering are long felt to be improved.

Disclosure of Invention

The invention mainly aims to provide a system for checking and managing the performance of electromechanical equipment of green construction engineering, which enables checking staff to easily detect according to items listed in a checking form by a mobile electronic device which can generate a special checking form according to individual cases and is convenient to carry and can synchronously and internally build a humanized operation interface through a network, carries out operation according to detection data on site, provides checking results of both sides, further accurately and effectively tracks the progress and quality of management engineering, detects problems and improves the problems as soon as possible, and improves the efficiency of engineering and checking of green construction.

In order to achieve the above purpose, the invention provides a system for checking and managing performance of an electromechanical device in green construction engineering, which comprises a server database, a server host and at least one mobile electronic device; the server database at least comprises a green building electromechanical device database and a project database, wherein the green building electromechanical device database is used for storing standard performance data of various green building electromechanical devices, and the project database is used for storing design data and checking data of a plurality of projects; the servo host is provided with a management interface for providing management operation, the management interface is linked with the servo database and comprises a personnel management module for managing the user identity and a project management module, wherein the project management module is used for tracking the checking progress of each project and managing the design data and the checking data of each project, and the project management module can generate a checking form of the predetermined checking project of the new project according to the engineering electromechanical equipment designed by the new project when the project is newly entered; the mobile electronic device can be linked with the servo database through the Internet and comprises an operation interface and a storage unit, wherein the operation interface is linked with the storage unit and is used for a user to log in and operate according to the identity, the storage unit comprises a green building electromechanical equipment database and a project checking record, the green building electromechanical equipment database can update data from the green building electromechanical equipment database of the servo database, the project checking record can acquire design data and a checking form of a newly-entered project from the project database, the user can check the data according to a preset checking project record through the operation interface, and the data of the checking form is synchronized back to the servo database through the Internet; the operation interface comprises a record and verification module and a performance checking module, wherein the record and verification module is used for a user to detect the electromechanical equipment of the project according to the checking form and record checking data, the performance checking module is used for throwing calculation checking data and comparing the checking data with the green building electromechanical equipment database, and the performance checking result of the electromechanical equipment is judged by integrating the project design data so as to verify the checking data on site.

Therefore, a manager can log in a new project through the management platform and automatically generate a checking form, and an outsource inspector is provided for detection according to the checking project, so that the qualification requirement which needs to be judged by human experience is reduced, proper training can be performed according to scheduling, and the checking efficiency is improved; the system can track the progress of project engineering and inspection in real time through data synchronization, the on-site data operation can unify the inspection quality, reduce the disputes possibly happening in artificial misunderstanding and inspection post-inspection calculation, achieve the aim of early detection of problems and improvement, and can effectively control and manage the quality of green building engineering, the operation efficiency of electromechanical equipment and simplify the management system of inspection flow.

According to the above system architecture, the management interface further comprises a checking result export module, which links the green building electromechanical device database and the project database, and is used for performing a throwing operation on the project data which is checked and comparing the project data with the green building electromechanical device database according to the operation, and synthesizing the project design data to judge and output the performance checking result of the project electromechanical device project.

According to the system architecture, the management interface may further include a green building electro-mechanical device data update module for inputting updated green building electro-mechanical device standard performance data.

According to the system architecture, the green building electro-mechanical device standard performance data may include BIM model data (Building Information Modeling).

According to the above system architecture, the checking data recorded by the recording and certification module at least comprises a detected value record and a certification photo record.

According to the system architecture, the electromechanical equipment items of each project at least comprise one or any combination of a pump impeller, a windmill impeller, a coil pipe, an ice water host, an ice storage host, a heat pump host, a heat recovery host or a cooling water tower.

So that the manner in which the above recited objects, features and functions of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to embodiments, some of which are illustrated in the appended drawings, in which:

drawings

FIG. 1 is a schematic block diagram of a system according to an embodiment of the invention.

FIG. 2 is a block diagram of a server according to an embodiment of the invention.

FIG. 3 is a block diagram of a mobile electronic device according to an embodiment of the invention.

Fig. 4 is a schematic diagram of an operation interface according to an embodiment of the invention.

FIG. 5 is a schematic diagram of another operation interface according to an embodiment of the present invention.

Reference numerals illustrate: 1-a green building engineering electromechanical equipment performance checking management system; 10-a servo host; 11-a management interface; 111-a personnel management module; 112-project management module; 113-a ping result export module; 114-a green building electromechanical device data update module; 12-a server database; 121-personnel database; 122-project database; 123-a library of green building electromechanical devices; 20-a mobile electronic device; 21-an operation interface; 211-recording a certification module; 212-a performance checking module; 22-a storage unit; 221-project inspection record; 222-a library of green building electromechanical devices; 30-the internet.

Detailed Description

Referring to fig. 1, the system architecture of the present invention mainly includes a server 10, a server database 12, and a mobile electronic device 20, which can be linked to each other through the internet 30.

The server database 12, which can be matched with FIG. 2, mainly comprises a personnel database 121, a project database 122 and a green building electromechanical equipment database 123. The personnel database 121 is mainly used for storing user related data, wherein the user can be divided into management personnel and checking personnel, and the related data comprises personnel file data such as personnel identity data, corresponding identity verification account passwords, dispatching status of checking personnel, dispatching records and the like. The green building electromechanical device database 123 mainly stores standard performance data of various green building electromechanical devices, such as standard performance parameters recording performance judgment items and specifications corresponding to various brands and styles of green building electromechanical devices, so that the system can be used as a basis for comparison or operation judgment. The project database 122 is used for storing the design data and the inspection data of the project.

The server 10 mainly has a management interface 11 for providing a manager with login for performing various management operations after authentication, and the management interface 11 is provided with at least a personnel management module 111, a project management module 112, a checking result export module 113 and a green building electromechanical device data update module 114. The personnel management module 111 is mainly linked to the personnel database 121 for the management personnel to perform operation management such as review, update or record of personnel file data. The project management module 112 links the project database 122 and the green building electromechanical device database 123, and provides functions of form generation when a project is newly entered, tracking inspection progress and data management when inspection is dispatched according to the progress status of each project; the project plan database 123 can be compared with the green building machine equipment database 123 to generate a checking form of the project plan predetermined checking project when a project is newly created, the checking form is stored in the project plan database 122, a dispatch checking person can acquire the form by using the mobile electronic device 20 for checking, and in the checking process, a manager can check the record of the project plan synchronization in the checking from the project plan database 122 to track and judge the checking progress, and manage the design data and the checking data of the project plans.

Generally, the project of the engineering electromechanical device of the green building project can be a pump impeller, a windmill impeller, a coil pipe, an ice water host, an ice storage host, a heat pump host, a heat recovery host, a cooling water tower, and the like.

The inspection result deriving module 113 links the project database 122 and the green building electromechanical device database 123, so that a manager can obtain project data from the project database 122, perform a throwing operation and compare the project data with the green building electromechanical device database 123, and synthesize the project design data to determine and output the performance inspection result of the project electromechanical device project, and further output the performance inspection result as a desired execution report or record data according to the requirements. The green building electro-mechanical device data updating module 114 links the green building electro-mechanical device database 123, provides a manager to update the newly added green building electro-mechanical device standard performance data to the green building electro-mechanical device database 123, and further, the green building electro-mechanical device standard performance data may include BIM model data (Building Information Modeling), so that an operator can quickly import the BIM model data of a project, thereby greatly reducing manpower and material resources, and enabling a general inspection staff to use the BIM model data to solve the problem of high professional capability requirement.

The mobile electronic device 20 is mainly used as a recording instrument for a inspector to carry to a construction site, and is linked to the servo database 12 through the internet 30, and in the embodiment of the invention, a tablet computer with a shooting function is adopted. The mobile electronic device 20 has at least one storage unit 22 built therein and is capable of executing an operation interface 21, the operation interface 21 provides a human interface (as shown in fig. 4) for facilitating the operation of the inspector, and the inspector can perform the operation after the authentication login; the storage unit 22 links the operation interface 21 and can be in on-line data synchronization with the servo database 12 through the internet 30, at least a project inspection record 221 and a green building electromechanical device database 222 are provided and stored, the project inspection record 221 can acquire design data and inspection forms of new projects from the project database 12, so that inspection personnel can record inspection data according to predetermined inspection projects through the operation interface 21, and then synchronize the data of the inspection forms back to the servo database 12, and the green building electromechanical device database 222 can update the standard performance data of various green building electromechanical devices from the green building electromechanical device database 123 of the servo database 12. The operation interface 21 is provided with a record and verification module 211 and a performance checking module 212, wherein the record and verification module 211 is used for checking the electromechanical device of the corresponding project according to the checking form (such as the checking project shown on the left side of fig. 4) by the checking personnel and recording the checking data, and in this embodiment, the recorded checking data comprises the detected numerical record and the photo record for verification (such as shown in fig. 4); the performance checking module 212 can discard the calculation checking data and compare the green building electromechanical device database 222, and synthesize the project design data to determine the performance checking result of the electromechanical device, wherein the performance checking result can be represented by data or by a graph, the data is represented by the design value and the measured value shown in fig. 4, the graph is represented by the standard performance curve of the green building electromechanical device and the measured drop point are compared, so that two or more parties in the field can check the checking data.

In practical application, after the green building owner completes the project, the green building owner sets up a check requirement, and a manager can establish a new project through the management interface 11, and the project management module 112 generates a special check form according to the comparison between the project electromechanical device designed by the project and the green building electromechanical device database 123; then, the inspection personnel can acquire the inspection form by using the mobile electronic device 20, go to the construction site of the green building project to inspect, display the predetermined inspection items of the inspection form through the operation interface 21, detect the corresponding green building electromechanical devices one by one, record the detected values by the recording and certification module 211 and take the certification photographs of the detected electromechanical devices, environments or detection processes, and after the detection of the predetermined inspection items of the electromechanical devices is completed, the performance inspection module 212 can directly calculate the performance inspection result of the electromechanical devices for verification by the on-site owners or engineers to confirm the correctness of the detection. After all inspection items are completed, the inspection data of the project can be synchronously returned to the project database 122 through the internet 30 or moved to the environment with the internet 30, and then the inspection result can be exported or made into an inspection report by the inspection result export module 113 by the manager, so that the inspection process of the green building can be completed rapidly and accurately.

By combining the above, the invention can improve the efficiency of checking the performance of the electromechanical equipment of the green building engineering, reduce the progress delay and dispute, reduce the requirement of professional manpower, improve the convenience of checking operation and ensure the checking quality; however, the above description is only illustrative of the preferred embodiments of the present invention, and variations, modifications, changes or equivalent substitutions, which extend from the technical means and scope of the present invention, shall fall within the scope of the present invention.

Claims (6)

1. A green construction engineering electromechanical device performance inspection management system, comprising:

a server database, which at least comprises a green building electromechanical device database and a project database, wherein the green building electromechanical device database is used for storing standard performance data of each green building electromechanical device, and the project database is used for storing design data and checking data of a plurality of projects;

a server host provided with a management interface for providing management operation, the management interface being linked with the server database and at least comprising:

a personnel management module for managing the user identity;

a project management module for tracking the inspection progress of each project and managing the design data and inspection data of each project, wherein the project management module can generate an inspection form of the predetermined inspection project of the new project according to the electromechanical device designed by the new project when the project is newly entered;

at least one mobile electronic device which can link the servo database through the internet and comprises an operation interface and a storage unit, wherein the operation interface is linked with the storage unit and is used for a user to log in and operate according to the identity, the storage unit comprises a green building electromechanical equipment database and a project checking record, the green building electromechanical equipment database can update data from the green building electromechanical equipment database of the servo database, the project checking record can acquire design data and checking forms of a new project from the project database, the user can record checking data according to a preset checking project through the operation interface, and the checking data of the checking form is synchronized back to the servo database through the internet;

the operation interface comprises a record and certification module and a performance checking module, wherein the record and certification module is used for a user to detect the electromechanical equipment of the project according to the checking form and record checking data, and the recorded checking data is presented on the operation interface and at least comprises a detected numerical value record and a certification record; the performance checking module is used for throwing calculation checking data and comparing the green building electromechanical equipment database, and synthesizing the project design data to judge the performance checking result of the electromechanical equipment so as to provide compared numerical data or performance curve chart to be displayed on the operation interface for on-site checking of the checking data.

2. The system of claim 1, wherein the management interface further comprises a verification result export module linking the green building machine database and the project database for performing a polishing operation on the project data for verification and comparing the project data with the green building machine database, and for integrating the project design data to determine and output the performance verification result of the project machine project.

3. The green construction machine performance inspection management system of claim 1, wherein the management interface further comprises a green construction machine data update module for operating input of updated green construction machine standard performance data.

4. The green construction machine performance inspection management system of claim 3, wherein the green construction machine standard performance data comprises BIM model data.

5. The system for verifying and managing performance of a green building engineering machine as defined in claim 1, wherein the certification record recorded by the certification record module is used for recording the certification photo.

6. The system of claim 1, wherein the system comprises at least one of a pump impeller, a windmill impeller, a coil, an ice water host, an ice storage host, a heat pump host, a heat recovery host, and a cooling water tower.