CN111401585B - Elevator construction quality safety detection management system - Google Patents

Abstract

The invention relates to the technical field of elevator safety detection, in particular to an elevator construction quality safety detection management system. Comprises a version selection unit and a report unit; the version selection unit is an initial selection page and is used for performing version selection; the reporting unit is used for sorting and displaying data; the version selection unit comprises a new version unit and an old version unit; the database connected with the old version unit is separated from the database connected with the new version unit independently; the new version unit comprises a construction detection unit and a periodic detection unit; the construction detection unit is used for carrying out safety detection when the elevator is newly installed, transformed and repaired greatly; the periodic inspection unit is used for safety inspection during general repair and maintenance of the elevator. The invention aims to provide an elevator construction quality safety detection management system aiming at the defects in the prior art, so that the accuracy of data is ensured, and the safety in elevator construction and operation is improved.

Description

Elevator construction quality safety detection management system

Technical Field

The invention relates to the technical field of elevator safety detection, in particular to an elevator construction quality safety detection management system.

Background

At present, most of the information and safety management of the elevator construction sites comprise the collection and calculation of part of technical data by manual paper recording and manual calculation analysis, and a similar software system for timely recording and analyzing the safety management of the elevator construction quality is not found at present, so that the technical data recording is recorded and stored in the form of paper files, the technical data recording is easy to lose and damage, and the traceability and the accuracy of the data cannot be guaranteed.

In view of the above problems, the present designer actively researches and innovates based on the rich practical experience and expertise of working on such product engineering applications and in combination with the application of the theory, so as to design the elevator construction quality safety detection management system, ensure the safety in the elevator construction and operation process, and improve the practicability.

Disclosure of Invention

The invention aims to provide an elevator construction quality safety detection management system aiming at the defects in the prior art, so that the accuracy of data is ensured, and the safety in the elevator construction and operation process is improved.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

comprises a version selection unit and a report unit; the version selection unit is an initial selection page and is used for performing version selection; the reporting unit is used for sorting and displaying data; the version selection unit comprises a new version unit and an old version unit; the database connected with the old version unit is independently separated from the database connected with the new version unit and is used for implementing transition operation of time requirements of national new and old standard specifications; the new version unit comprises a construction detection unit and a periodic detection unit; the construction detection unit is used for detecting when the elevator is newly installed, transformed and repaired greatly; the periodic inspection unit is used for inspection during normal repair and maintenance of the elevator.

Further, the report unit comprises a paging preview unit and a printing unit; the paging preview unit is used for sorting and previewing the data detected by the construction detection unit and the periodic detection unit; the printing unit is connected with the printer and is used for printing the data.

Further, the construction detection unit comprises a traction driving elevator construction unit; the traction driving elevator construction unit adopts a mode of inputting data and inquiring data and is used for detecting the construction safety condition of the traction driving elevator; the traction driving elevator construction unit is internally provided with a balance coefficient curve graph generation module, a construction informing module and a first error correction module which are respectively used for identifying whether the balance coefficient value is in compliance, generating a construction informing report form and performing individual compiling of program specific design and coding on error-prone associated items.

Further, the construction detection unit further comprises an escalator and a moving sidewalk construction unit; the escalator and moving pavement construction unit adopts a mode of inputting data and inquiring data and is used for detecting the construction safety conditions of the escalator and moving pavement; and a second error correction module is arranged in the escalator and moving pavement construction unit and used for performing individual compiling of program specific design and coding on associated projects which are prone to errors.

Further, the construction detection unit further comprises a sundry elevator construction unit; the construction unit of the sundry elevator adopts a mode of inputting data and inquiring data and is used for detecting the construction safety condition of the sundry elevator; the debris elevator construction unit is inside to be provided with a overspeed governor module for quick realization carries out the option assignment to the debris elevator that does not set up overspeed governor and safety tongs.

Further, the periodic detection unit comprises a traction drive elevator periodic unit; the traction driving elevator periodic unit adopts a mode of inputting data and inquiring data and is used for detecting periodic safety conditions of the traction driving elevator; and a balance coefficient curve graph generating module and a third error correction module are arranged in the traction driving elevator construction unit and are respectively used for identifying whether the balance coefficient value is compliant or not and performing individual compiling of program specific design and coding on the associated project which is prone to error.

Further, the periodic detection unit also comprises an escalator and a moving sidewalk periodic unit; the escalator and moving pavement periodic unit adopts a mode of inputting data and inquiring data and is used for detecting periodic safety conditions of the escalator and moving pavement; and a fourth error correction module is arranged in the escalator and moving pavement periodic unit and is used for performing individual compiling of program specific design and coding on associated items which are prone to errors.

Further, the periodic detection unit further comprises a sundry elevator periodic unit; the periodic unit of the sundry elevator adopts a mode of inputting data and inquiring data and is used for detecting the periodic safety condition of the sundry elevator; the second speed limiter-free module is arranged in the periodic unit of the sundry elevator and used for rapidly realizing option assignment on the sundry elevator without the speed limiter and the safety tongs.

Further, a speed limiter verification unit is arranged in the traction driving elevator periodic unit and used for verifying and judging compliance of measurement data of the elevator speed limiter.

By the technical scheme of the invention, the following technical effects can be realized:

under the comprehensive analysis of the software, technicians of an elevator construction unit can clearly conclude the coincidence of each measurement data in the construction process, accurately control each quality control point data in the construction process, timely find potential safety hazards which do not accord with the specifications and standards in elevator construction, and facilitate timely giving and removing the potential safety hazards, so that the safety in the construction and operation processes of the elevator is ensured. The self-checking report form reported to the government related inspection institutions is always updated synchronously with the national specifications and requirements, thereby ensuring that the inspection work of the elevator reporting of the using unit is carried out smoothly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

Fig. 1 is a flowchart of an elevator construction quality safety detection management system version selection unit in an embodiment of the present invention;

fig. 2 is a flowchart of a construction detection unit of an elevator construction quality safety detection management system in an embodiment of the present invention;

fig. 3 is a flowchart of a periodic detection unit of an elevator construction quality safety detection management system according to an embodiment of the present invention;

reference numerals: version selection unit 1, new version unit 2, old version unit 3, construction detection unit 4, periodic detection unit 5, reporting unit 6, traction drive elevator construction unit 41, escalator and moving sidewalk construction unit 42, graff elevator construction unit 43, traction drive elevator periodic unit 51, escalator and moving sidewalk periodic unit 52, graff elevator periodic unit 53, paging preview unit 61, printing unit 62, and speed limiter verification unit 511.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be noted that the directions or positional relationships indicated as being "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are directions or positional relationships based on the drawings are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; the connection may be direct or indirect via an intermediate medium, or may be internal communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

An elevator construction quality safety detection management system, as shown in fig. 1 and 2, comprises a version selection unit 1 and a reporting unit 6; the version selection unit 1 is an initial selection page and is used for performing version selection; the report unit 6 is used for sorting and displaying data; the version selection unit 1 comprises a new version unit 2 and an old version unit 3; the database connected with the old version unit 3 is independently separated from the database connected with the new version unit 2 and is used for implementing transition operation of time requirements according to national new and old standard specifications; wherein the new version unit 2 comprises a construction detection unit 4 and a periodic detection unit 5; the construction detection unit 4 is used for detecting when the elevator is newly installed, modified and repaired greatly; the periodic inspection unit 5 is used for inspection during normal repair and maintenance of the elevator.

The invention provides a comprehensive management system for real-time recording, analyzing and judging whether the inspection results of various quality control points are qualified or not in the elevator construction process, which is developed based on an Access database development software platform and combined with VBA and SQL program languages. Specific detection is carried out by the construction detecting unit 4 and the periodic detecting unit 5. Meanwhile, a version selection unit 1 is arranged to separate a new version unit 2 from an old version unit 3, and a user switches application modules of the new version system and the old version system according to own needs, so that the operations of adding, deleting, modifying and checking new elevator data and comprehensively analyzing new elevator data are realized.

As a preference of the above-described embodiment, as shown in fig. 1 and 2, the reporting unit 6 includes a page preview unit 61 and a printing unit 62; the paging preview unit 61 is configured to sort and preview the data detected by the construction detection unit 4 and the periodic detection unit 5; the printing unit 62 is connected to a printer for printing data.

As a preference to the above embodiment, as shown in fig. 2, the construction detecting unit 4 includes a traction drive elevator construction unit 41; the construction unit 41 of the traction drive elevator adopts a mode of inputting data and inquiring data and is used for safety detection of a construction process self-checking project of the traction drive elevator; the traction driving elevator construction unit 41 is internally provided with a balance coefficient graph generating module, a construction informing module and a first error correction module which are respectively used for identifying whether the balance coefficient value is in compliance, generating a construction informing report table and performing individual compiling of program specific design and coding on error-prone associated items.

As a preference to the above-described embodiment, as shown in fig. 2, the construction detecting unit 4 further includes an escalator and moving walkway construction unit 42; the escalator and moving sidewalk construction unit 42 adopts a mode of inputting data and inquiring data and is used for safety detection of self-checking items in the construction process of the escalator and moving sidewalk; a second error correction module is provided inside the escalator and moving walkway construction unit 42 for individual compiling of program specific designs and codes of associated items prone to errors.

Specifically, considering the situations of knowledge blind areas and the like existing in specific entry personnel, misoperation and messy operation phenomena of the items are easy to occur, such as multiple selections, missing selections, being not associated with a check conclusion and the like in the process of editing the items. The second error correction module is adopted to carry out individual compiling of program specific design and coding on related items which are easy to make mistakes, so that the conditions of multiple selection and missing selection are limited, default assignment of other test items is associated, test conclusion and test result of part of the items can be synchronously displayed, and the occurrence of the mistakes is avoided to the greatest extent.

As a preference to the above embodiment, as shown in fig. 2, the construction detecting unit 4 further includes a foreign matter elevator construction unit 43; the construction unit 43 of the sundry elevator adopts a mode of inputting data and inquiring data and is used for safety detection of self-checking items in the construction process of the sundry elevator; the debris elevator construction unit 43 is internally provided with a first speed limiter-free module for quickly realizing the option assignment of debris elevator without speed limiter or safety tongs.

Specifically, since most of the sundries elevators are not provided with the speed limiter and the safety tongs, the first non-speed limiter module is added to the construction unit 43 of the sundries elevators, so that assignment of related options of the sundries elevators without the speed limiter and the safety tongs, such as model number, manufacturing unit and date of the speed limiter, and qualitative property in the related inspection report, can be rapidly realized.

As a preference to the above embodiment, as shown in fig. 3, the periodic detection unit 5 includes a traction drive elevator periodic unit 51; the periodic unit 51 of the traction drive elevator adopts a mode of inputting data and inquiring data and is used for detecting the periodic condition of the traction drive elevator; the traction driving elevator construction unit 51 is internally provided with a balance coefficient graph generating module and a third error correction module which are respectively used for identifying whether the balance coefficient value is in compliance and performing individual compiling of program specific design and coding on the associated project which is easy to make mistakes.

As a preference to the above embodiment, the periodic detection unit 5 further includes an escalator and moving sidewalk periodic unit 52, as shown in fig. 3; the escalator and moving sidewalk periodic unit 52 is used for detecting the periodic conditions of the escalator and moving sidewalk by adopting a data input and data inquiry mode; the escalator and moving walkway periodic unit 52 is internally provided with a second error correction module for the individual compilation of program-specific designs and codes of associated items prone to error.

As a preference to the above embodiment, as shown in fig. 3, the periodic detection unit 5 further includes a sundry elevator periodic unit 53; the periodic unit 53 of the sundry elevator adopts a mode of inputting data and inquiring data and is used for detecting the periodic condition of the sundry elevator; the debris elevator periodic unit 53 is internally provided with a second speed limiter-free module for quickly realizing the option assignment of the debris elevator without the speed limiter and the safety tongs.

As a preferable example of the above embodiment, as shown in fig. 3, the traction drive elevator periodic unit 51 is internally provided with a speed limiter check unit 511 for compliance determination of elevator speed limiter check measurement data.

The foregoing has outlined and described the basic principles, features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. An elevator construction quality safety detection management system is characterized by comprising a version selection unit (1) and a reporting unit (6); the version selection unit (1) is an initial selection page and is used for performing version selection; the reporting unit (6) is used for sorting and displaying data; the version selection unit (1) comprises a new version unit (2) and an old version unit (3); the database connected with the old version unit (3) is independently separated from the database connected with the new version unit (2) and is used for implementing transition operation of time requirements of national new and old standard specifications; the new version unit (2) comprises a construction detection unit (4) and a periodic detection unit (5); the construction detection unit (4) is used for detecting when the elevator is newly installed, modified and repaired greatly; the periodic detection unit (5) is used for detecting when the elevator is repaired in general and maintained;

the report unit (6) comprises a paging preview unit (61) and a printing unit (62); the paging preview unit (61) is used for sorting and previewing the data detected by the construction detection unit (4) and the periodic detection unit (5); the printing unit (62) is connected with the printer and is used for printing data;

the construction detection unit (4) comprises a traction driving elevator construction unit (41); the traction driving elevator construction unit (41) is used for safety detection of a construction process self-checking project of the traction driving elevator by adopting a mode of inputting data and inquiring data; the traction driving elevator construction unit (41) is internally provided with a balance coefficient curve graph generation module, a construction informing module and a first error correction module which are respectively used for identifying whether the balance coefficient value is in compliance, generating a construction informing book and newspaper table and performing individual compiling of program specific design and coding on error-prone associated items;

the construction detection unit (4) further comprises an escalator and moving sidewalk construction unit (42); the escalator and moving pavement construction unit (42) adopts a mode of inputting data and inquiring data and is used for safety detection of self-checking items in the construction process of the escalator and moving pavement; the escalator and moving pavement construction unit (42) is internally provided with a second error correction module for individual compiling of program specific designs and codes of error prone associated items.

2. The elevator construction quality safety inspection management system according to claim 1, characterized in that the construction inspection unit (4) further comprises a foreign elevator construction unit (43); the construction unit (43) of the sundry elevator adopts a mode of inputting data and inquiring data and is used for safety detection of self-checking items in the construction process of the sundry elevator; the debris elevator construction unit (43) is internally provided with a first speed limiter-free module for rapidly realizing the option assignment of the debris elevator without the speed limiter and the safety tongs.

3. The elevator construction quality safety inspection management system according to claim 1, characterized in that the periodic inspection unit (5) comprises a traction drive elevator periodic unit (51); the traction driving elevator periodic unit (51) is used for detecting periodic conditions of the traction driving elevator by adopting a mode of inputting data and inquiring data; and a balance coefficient curve graph generating module and a third error correction module are arranged in the traction driving elevator periodic unit (51) and are respectively used for identifying whether the balance coefficient value is in compliance and performing individual compiling of program specific design and coding on the associated project which is prone to error.

4. The elevator construction quality safety inspection management system according to claim 1, characterized in that the periodic inspection unit (5) further comprises an escalator and travelator periodic unit (52); the escalator and moving pavement periodic unit (52) adopts a mode of inputting data and inquiring data and is used for detecting periodic conditions of the escalator and moving pavement; the escalator and moving pavement periodic unit (52) is internally provided with a fourth error correction module for individual compiling of program specific designs and codes for error prone associated items.

5. The elevator construction quality safety inspection management system according to claim 1, characterized in that the periodic inspection unit (5) further comprises a graff elevator timing unit (53); the sundry elevator timing unit (53) is used for detecting the periodic conditions of the sundry elevator by adopting a mode of inputting data and inquiring data; and a second speed limiter-free module is arranged in the sundry elevator timing unit (53) and used for quickly realizing the option assignment of the sundry elevator without the speed limiter and the safety tongs.

6. The elevator construction quality safety inspection and management system according to claim 3, wherein a speed limiter check unit (511) is provided inside the traction drive elevator periodic unit (51) for compliance determination of elevator speed limiter check measurement data.