Disclosure of Invention
In order to solve the problem of complex operation of a user for inquiring a detection result of a certain part in a certain area in an offshore platform in the prior art, the embodiment of the invention provides an information management method and device for the offshore platform. The technical scheme is as follows:
in a first aspect, a method for managing information of an offshore platform is provided, the method comprising:
displaying a three-dimensional model of a target offshore platform, the three-dimensional model including a plurality of members, each member of the plurality of members corresponding to a solid member of the target offshore platform, each member of the plurality of members having a shape that is the same as its corresponding solid member;
acquiring a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part, or displaying the latest detection result of the area corresponding to the actual area in the target offshore platform;
the detection result at least comprises one of coating light loss grade, coating color change grade, visual comparison test, coating pulverization grade, coating cracking grade, coating foaming grade, surface resistivity, rusting grade, coating peeling grade, contamination degree, coating omission point, coating thickness, coating thinning rate and adhesive force.
Optionally, before the displaying the three-dimensional model of the target offshore platform, the method further comprises:
when the coating peeling grade and/or the rusting grade of a target object reach a preset grade, judging that the coating of the target object fails, wherein the target object is any one entity part or an actual area in the target offshore platform;
and generating a reminding message by using the name, the coating peeling grade and the rusting grade of the target object and basic information of the target offshore platform, and displaying the reminding message, wherein the basic information at least comprises one of the name and the position information of the target offshore platform.
Optionally, before the displaying the three-dimensional model of the target offshore platform, the method further comprises:
when the adhesive force of a target object is lower than a preset value, judging that the coating of the target object fails, wherein the target object is any solid component or actual area in the target offshore platform;
and generating a reminding message by using the name of the target object and the basic information of the target offshore platform, and displaying the reminding message, wherein the basic information at least comprises one of the name and the position information of the target offshore platform.
Optionally, the alert message further includes a hyperlink of the three-dimensional model of the target offshore platform, and the displaying the three-dimensional model of the target offshore platform includes:
when the hyperlink is detected to be triggered, displaying a three-dimensional model of the target offshore platform, and highlighting a part or region corresponding to the target object in the three-dimensional model.
Optionally, the displaying the three-dimensional model of the target offshore platform includes:
displaying hyperlinks of other three-dimensional models corresponding to other offshore platforms comprising actual areas or solid parts with the coating peeling grade or the rusting grade reaching the preset grade under the condition that the actual areas or the solid parts with the coating peeling grade or the rusting grade reaching the preset grade exist in the target offshore platform;
and displaying hyperlinks of the three-dimensional models corresponding to other offshore platforms comprising the actual areas or the physical parts with the adhesion force lower than the preset value under the condition that the physical areas or the physical parts with the adhesion force lower than the preset value exist in the target offshore platform.
In a second aspect, there is provided an information management apparatus for an offshore platform, the apparatus comprising:
a first display module for displaying a three-dimensional model of a target offshore platform, the three-dimensional model including a plurality of members, each member of the plurality of members corresponding to a solid member of the target offshore platform, each member of the plurality of members having a shape that is the same as a shape of its corresponding solid member;
the second display module is used for acquiring a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part, or displaying the latest detection result of the area corresponding to the actual area in the target offshore platform;
the detection result at least comprises one of coating light loss grade, coating color change grade, visual comparison test, coating pulverization grade, coating cracking grade, coating foaming grade, surface resistivity, rusting grade, coating peeling grade, contamination degree, coating omission point, coating thickness, coating thinning rate and adhesive force.
Optionally, the apparatus further comprises:
the device comprises a first judging module, a second judging module and a third judging module, wherein the first judging module is used for judging that a coating of a target object fails when the coating peeling grade and/or the rusting grade of the target object reach a preset grade, and the target object is any one entity part or an actual area in the target offshore platform;
and the third display module is used for generating a reminding message by utilizing the name, the coating peeling grade and the rusting grade of the target object and the basic information of the target offshore platform, and displaying the reminding message, wherein the basic information at least comprises one of the name and the position information of the target offshore platform.
Optionally, the apparatus further comprises:
the second judgment module is used for judging that the coating of the target object fails when the adhesive force of the target object is lower than a preset value, wherein the target object is any one entity component or actual area in the target offshore platform;
and the fourth display module is used for generating a reminding message by using the name of the target object and the basic information of the target offshore platform, and displaying the reminding message, wherein the basic information at least comprises one of the name and the position information of the target offshore platform.
Optionally, the alert message further includes a hyperlink of the three-dimensional model of the target offshore platform, and the first display module is further configured to:
when detecting that the hyperlink displayed by the third display module or the fourth display module is triggered, displaying a three-dimensional model of the target offshore platform, and highlighting a part or a region corresponding to the target object in the three-dimensional model.
Optionally, the second display module includes:
the first display submodule is used for displaying hyperlinks of the three-dimensional models corresponding to other offshore platforms comprising the actual areas or the solid parts with the coating peeling grade or the rusting grade reaching the preset grade under the condition that the actual areas or the solid parts with the coating peeling grade or the rusting grade reaching the preset grade exist in the target offshore platform;
and the second display sub-module is used for displaying hyperlinks of the three-dimensional models corresponding to other offshore platforms comprising the actual areas or the solid parts with the adhesion force lower than the preset numerical value under the condition that the solid areas or the solid parts with the adhesion force lower than the preset numerical value exist in the target offshore platform.
The technical scheme provided by the embodiment of the invention has the following beneficial effects:
displaying a three-dimensional model of a target offshore platform to a user, the three-dimensional model of the offshore platform, each of the plurality of members corresponding to a solid member of the target offshore platform, each of the plurality of members having a shape that is the same as its corresponding solid member; acquiring a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part, or displaying the latest detection result of the area corresponding to the actual area in the target offshore platform; the user can directly check the latest detection result of the part corresponding to the entity part in the target offshore platform by selecting the part in the three-dimensional model; by selecting the area in the three-dimensional model, the latest detection result of the area corresponding to the actual area in the target offshore platform can be directly checked; the problem of complex operation of a user for inquiring the detection result of a certain part in a certain area in the offshore platform in the related technology is solved, and the effect of simplifying the operation of the user for inquiring the latest detection result of the certain part in the certain area in the offshore platform is achieved.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings. "electronic devices" may include smart phones, tablets, laptop portable computers, desktop computers, servers, and the like.
Referring to fig. 1, an information management method for an offshore platform according to an embodiment of the present invention is shown, where the information management method is applicable to an electronic device, and the information management method may include:
step 101, displaying a three-dimensional model of the target offshore platform, the three-dimensional model comprising a plurality of components, each component of the plurality of components corresponding to a solid component of the target offshore platform, each component of the plurality of components having the same shape as its corresponding solid component.
After a sea area has been constructed with an offshore platform, a technician may create a three-dimensional model for the offshore platform, which is stored in a database. Generally, the offshore platform is composed of a plurality of solid components, which may be a production deck, a production deck sandwich, a main deck, a crane, a deck surface, a roof ceiling, a pipeline, a flange, a device, a support, a diagonal brace, a column, a horizontal brace, etc., and the solid components included in the offshore platform are not described in detail herein.
The skilled person usually builds a part model (part for short in a three-dimensional model) for each solid part of the offshore platform, which is the same shape as the part in the three-dimensional model, so that the actual shape of the offshore platform is the same as the shape of the built three-dimensional model.
According to the society of corrosion protection engineers' marine platform corrosion survey guidelines, technicians may divide offshore platforms into the following according to actual functions: production zones, drilling zones, living zones, and the like. Wherein the production area comprises areas which are usually living modules, airplane decks; the drilling zone includes areas where there is typically a lower deck, production deck sandwich, main deck, crane, etc.; the living quarters include areas that typically have mud pump areas, pipe decks, drill rigs, and the like.
The technician may further define the position corresponding to the three-dimensional model as the area corresponding to each of the above-mentioned areas (referred to as actual areas in this application) of the offshore platform according to the position of each actual area on the offshore platform. Optionally, the name of the region in the three-dimensional model is the same as the name of the corresponding entity region of the region in the offshore platform.
The points to be explained are: each physical area in an offshore platform may include multiple components, including components that may be main steel structures, deck surfaces, overhead ceilings, pipelines, flanges, equipment, supports, safety components, and the like. The main steel structure can comprise inclined struts, vertical columns, horizontal supports and the like; the deck face may include all floor faces (without grid panels) in the area; the support can comprise a supporting structural part of pipelines and equipment, and the like; the safety features may include guardrails, handrails, stairs, grills, etc. for safety protection.
After the initial coating of a certain solid part or a certain actual area of the offshore platform is finished, the solid part or the actual area can be detected, and the detection content can comprise one of coating gloss loss grade, coating color change grade, visual comparison measurement, coating pulverization grade, coating cracking grade, coating foaming grade, surface resistivity, rusting grade, coating peeling grade, contamination degree, coating missing points, coating thickness, coating thinning rate and adhesive force. After the three-dimensional model of the offshore platform is established, a technician can record the detection result of the region into a database.
The skilled worker can assess, inter alia, the coating gloss loss rating, the coating discoloration rating, the coating chalking rating, the coating cracking rating, the coating blistering rating for each physical part and for each actual region according to ISO 4628 rating for paint and varnish-coating ageing. In addition, after finishing painting or repairable painting on the offshore platform, technicians also need to ensure that the proper construction of the designated coating system is performed according to the requirements of specifications.
Alternatively, the technician may enter the detection results of a particular physical area or a particular physical component into the database in the following manner. A technician looks up a unit model of an offshore platform in the electronic equipment, and selects a region corresponding to the actual region in the three-dimensional model or a part corresponding to the entity part in the three-dimensional model; when detecting that a region in the three-dimensional model is selected, the electronic equipment displays the name of the region, an input box for filling an input result and a confirmation button; and when the electronic equipment detects that the confirmation button is clicked, correspondingly storing the content in the input box, the three-dimensional model of the offshore platform and the name of the area.
After the offshore platform is built, technicians can periodically inspect the offshore platform. For example, a technician may perform a coating dusting rating, a coating cracking rating, a coating blistering rating, a surface resistivity, a rust rating, a coating spallation rating, a degree of fouling, a yearly coating thickness, a missing coating point, and an adhesion test for each actual area and solid part of the offshore platform once every half year. The latest test results are then entered into the database.
When the coating thickness of a certain area or a certain part of the three-dimensional model is updated, the electronic equipment can acquire the coating thickness twice most recently according to the current time; subtracting the coating thickness obtained by the previous detection from the coating thickness obtained by the next detection to obtain a coating thickness variation value; subtracting the detection time of the coating thickness obtained by the previous detection from the time obtained by the next detection to obtain a time interval; in the case where the coating thickness variation value is less than 0, the coating thickness variation value is divided by the time interval to obtain the coating thinning rate of the region or the part, and the coating thinning rate is recorded in the database as the most recent detection of the part or the region.
After the technical personnel complete the detection of a certain actual area or a certain entity part of the offshore platform, the technical personnel can analyze the detection result of each actual area or entity part according to own experience, analyze at least one of the predicted maintenance time, the predicted maintenance scheme, the coating matching system and the predicted usage amount of paint of the actual area or the entity part, and record the analysis result into a database as the detection result of the actual area or the entity part.
Step 102, obtaining a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part, or displaying the latest detection result of the area corresponding to the actual area in the target offshore platform.
The detection result at least comprises one of coating light loss grade, coating color change grade, visual comparison test, coating pulverization grade, coating cracking grade, coating foaming grade, surface resistivity, rusting grade, coating peeling grade, contamination degree, coating omission point, coating thickness, coating thinning rate and adhesive force.
Optionally, the detection result may further include at least one of a predicted maintenance time, a predicted maintenance schedule, a coating kit, and a predicted usage amount of paint.
In summary, in the method provided in this embodiment, a three-dimensional model of a target offshore platform is displayed to a user, where each of the plurality of parts corresponds to a solid part of the target offshore platform, and each of the plurality of parts has the same shape as the corresponding solid part; acquiring a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part, or displaying the latest detection result of the area corresponding to the actual area in the target offshore platform; the user can directly check the latest detection result of the part corresponding to the entity part in the target offshore platform by selecting the part in the three-dimensional model; by selecting the area in the three-dimensional model, the latest detection result of the area corresponding to the actual area in the target offshore platform can be directly checked; the problem of complex operation of a user for inquiring the detection result of a certain part in a certain area in the offshore platform in the related technology is solved, and the effect of simplifying the operation of the user for inquiring the latest detection result of the certain part in the certain area in the offshore platform is achieved.
The technician queries the three-dimensional model of any offshore platform, and checks the latest detection result of the region or the component by selecting the region or the component in the three-dimensional model, namely the latest detection result of the region corresponding to the actual region in the offshore platform or the latest detection result of the component corresponding to the entity component in the offshore platform. Specifically, please refer to fig. 2, which illustrates an information management method of an offshore platform according to another embodiment of the present invention, where the information management method may include:
step 201, determining the offshore platform selected by the user as a target offshore platform.
The management interface provided by the electronic device is usually provided with a search box, and a user can input the name of the offshore platform to be viewed in the search box. When detecting that the characters in the search box change, the electronic equipment queries the name of the offshore platform comprising the characters in the search box in the data.
Because a plurality of offshore platforms may exist, one offshore platform is needed by the user, and therefore after the names of the offshore platforms comprising the characters in the search box are inquired, the names of all the offshore platforms comprising the characters in the search box are displayed for the user to select, and the offshore platform selected by the user is determined as the target offshore platform.
Step 202, when the coating peeling grade and/or the rusting grade of the target object reach a preset grade, judging that the coating of the target object fails, wherein the target object is any solid part or actual area in the target offshore platform.
This step can be achieved by the following steps:
step D1, after the target offshore platform is obtained, obtaining the coating peeling grade and the rusting grade of all actual areas and all solid parts in the offshore platform in the database.
And D2, detecting whether the coating peeling grades of all the actual areas and all the solid parts reach the preset grade, and judging that the coating of the target object fails when the coating peeling grade of the target object of the offshore platform reaches the preset grade, wherein the target object refers to any actual area or any solid part in the offshore platform.
And D3, detecting whether the rusting grades of all the actual areas and all the solid parts reach the preset grade, and judging that the coating of the target object fails when the rusting grade of the target object of the offshore platform reaches the preset grade, wherein the target object refers to any actual area or any solid part in the offshore platform.
Illustrated as an aircraft deck surface of an offshore platform. When a technician detects the plane deck surface, the peeling grade of the coating of the plane deck surface is 5 grades and the rusting grade is 3 grades according to the evaluation of ISO 4628 colored paint and varnish-coating aging, and then the technician records the peeling grade of the coating of the plane deck surface of the offshore platform as 5 grades and the rusting grade as 3 grades in a database. After the electronic equipment acquires the target offshore platform, if the peeling grade of the coating of the airplane deck surface does not reach 5 grades and the peeling grade of the coating of the airplane deck surface reaches 5 grades, the airplane deck surface of the offshore platform is judged to be invalid.
Under the condition that the solid part and the actual area with the coating failure are determined, when the three-dimensional model of the offshore platform is displayed, the part corresponding to the solid part in the three-dimensional model can be highlighted, and the area corresponding to the actual area in the three-dimensional model can be highlighted; a warning message may also be displayed to indicate failure of the coating of the physical component or the physical area, see step 204.
And step 203, when the adhesive force of the target object is lower than a preset value, judging that the coating of the target object fails, wherein the target object is any solid component or actual area in the target offshore platform.
The predetermined value is set by a technician, for example, according to astm d 4541-09 portable adhesion tester test coating adhesion.
The implementation of this step can be: after the target offshore platform is obtained, the adhesion detection values of all actual areas and all entity parts in the offshore platform in a database are obtained; if the adhesion detection value of a certain actual area is smaller than a preset value, determining that the coating of the actual area fails; and if the adhesion detection value of a certain solid part is smaller than a preset value, determining that the coating of the solid part fails.
Exemplified by the deck surface of the aircraft on an offshore platform, at a predetermined value of 5 mpa. When detecting the plane deck surface, technicians detect that the adhesion force of the plane deck surface is 4.5 MPa. And after the electronic equipment takes the offshore platform as a target offshore platform, judging that the coating of the airplane deck surface fails when the adhesion force of the airplane deck surface of the offshore platform is detected to be less than 5 MPa.
Step 204, displaying the three-dimensional model of the target offshore platform.
This step can be achieved in two ways:
the method comprises the steps of firstly, acquiring an actual area and a solid part which are judged to be coating failure in a target offshore platform, highlighting the corresponding area of the actual area with coating failure in a three-dimensional model when the three-dimensional model of the target offshore platform is displayed, and highlighting the corresponding part of the actual solid part with coating failure in the three-dimensional model.
The manner of highlighting may be various, and is not limited herein. For example, the areas where the coating fails and the component may be highlighted in a predetermined color, which may be red; as another example, a special symbol or a special mark is added to the area where the coating fails and the component, and the special symbol may be "x".
Secondly, acquiring actual areas and entity components which are judged to be coating failure in the target offshore platform, and generating a reminding message aiming at each failed actual area or entity component, wherein the reminding message can comprise the name of the actual area or the entity component; displaying the reminder message in the three-dimensional model at the actual region or the physical part, the reminder message indicating that the coating of the actual region or the physical part has failed.
Optionally, if the coating peeling level of the actual area or the solid component where the coating fails in the target offshore platform reaches the preset level, the reminding message may further include the coating peeling level of the actual area or the solid component.
Optionally, if the rusting level of the actual area or the solid part where the coating fails in the target offshore platform reaches the preset level, the reminding message may further include the rusting level of the actual area or the solid part.
Optionally, if the adhesion of the actual region or the solid component in which the coating fails in the target offshore platform is lower than a preset value, the reminding message may further include an adhesion detection value of the actual region or the solid component.
Step 205, acquiring a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part, or displaying the latest detection result of the selected area corresponding to the actual area in the offshore platform.
This is illustrated by the user left clicking on a part or region in the three-dimensional model using a mouse button. Acquiring a part pointed by a directional element (such as a mouse) when an operation signal that a left mouse button is clicked is detected; if the directional component of the directional element is not acquired, the area pointed by the directional element is acquired. And displaying the latest detection result of the part at the part pointed by the directional element, wherein the part corresponds to the entity part of the target offshore platform. And displaying the latest detection result of the actual area corresponding to the target offshore platform in the area pointed by the directional element.
The detection result can comprise any one or more of a coating light loss grade, a coating color change grade, visual comparison, a coating chalking grade, a coating cracking grade, a coating foaming grade, surface resistivity, a rusting grade, a coating peeling grade, a contamination degree, a coating omission point, a coating thickness, a coating thinning rate, adhesion, predicted maintenance time, a predicted maintenance scheme, a coating matching system and a predicted use amount of paint.
The step can also be realized as follows: when the fact that the continuous duration of the directional element which does not move reaches the preset duration is detected, obtaining an execution area or a component of the directional element; displaying the latest detection result of the part at the part pointed by the directional element, wherein the part corresponds to the entity part of the target offshore platform; and displaying the latest detection result of the actual area corresponding to the target offshore platform in the area pointed by the directional element. That is to say, when a user needs to check the latest detection result of an actual area corresponding to a certain area, the electronic device may be triggered to provide the latest detection result of the actual area only by controlling the directional element to stay in the area for a preset time.
Optionally, the electronic device monitors the predicted maintenance time of all components and regions of all offshore platforms; and when the predicted maintenance time of any offshore platform reaches, generating a reminding message by using the name of the offshore platform, the predicted maintenance time and the hyperlink corresponding to the three-dimensional model of the offshore platform, and displaying the reminding message.
The user can view the three-dimensional model of the offshore platform by triggering the hyperlink in the reminder message. The specific implementation can be as follows: when detecting that the hyperlink in the reminding message is triggered, displaying a three-dimensional model of the offshore platform, determining a physical part and an actual area of the layer failure in the offshore platform, and displaying the part and the area of the layer failure in the offshore platform in a highlighted manner in the three-dimensional model.
The implementation manner of determining the entity component and the actual area with the layer failure in the offshore platform may refer to step 202 and step 203, and the step 204 of displaying the component and the area with the layer failure in the offshore platform in a highlighted manner in the three-dimensional model may be referred to, which is not described herein again.
Optionally, the three-dimensional model is displayed, and meanwhile, the entity part with the failed graphic layer in the offshore platform, the predicted maintenance scheme of the actual area, the coating matching system and the predicted usage amount of the paint are displayed.
Alternatively, in the case where there is an actual area or a solid part in the target offshore platform where the coating peeling level or the rusting level reaches the preset level, a hyperlink of other offshore platforms including the area or the part where the coating peeling level or the rusting level reaches the preset level is displayed simultaneously with the display of the three-dimensional model of the target offshore platform. The user can view the three-dimensional model of the other offshore platform by clicking on the hyperlink.
Optionally, in the case that an actual region or a physical part having an adhesion force lower than a predetermined value exists in the target offshore platform, a hyperlink of other offshore platforms including the actual region or the physical part having an adhesion force lower than the predetermined value is displayed while the three-dimensional model of the target offshore platform is displayed. The user can view the three-dimensional model of the other offshore platform by clicking on the hyperlink.
In summary, in the method provided in this embodiment, a three-dimensional model of a target offshore platform is displayed to a user, where each of the plurality of parts corresponds to a solid part of the target offshore platform, and each of the plurality of parts has the same shape as the corresponding solid part; acquiring a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part, or displaying the latest detection result of the area corresponding to the actual area in the target offshore platform; the user can directly check the latest detection result of the part corresponding to the entity part in the target offshore platform by selecting the part in the three-dimensional model; by selecting the area in the three-dimensional model, the latest detection result of the area corresponding to the actual area in the target offshore platform can be directly checked; the problem of complex operation of a user for inquiring the detection result of a certain part in a certain area in the offshore platform in the related technology is solved, and the effect of simplifying the operation of the user for inquiring the latest detection result of the certain part in the certain area in the offshore platform is achieved.
After the coating of the physical component or the actual area in the offshore platform fails, the electronic device can automatically alert a user that the coating of the physical component or the actual area of the offshore platform has failed. Specifically, please refer to fig. 3, which illustrates an information management method for managing an offshore platform according to another embodiment of the present invention, where the information management method may include:
step 301, when the coating peeling level and/or rusting level of the target object reaches a preset level, determining that the coating of the target object is invalid, generating a reminding message for the target object, and displaying the reminding message.
Wherein the target object refers to an actual area or a physical component in the offshore platform.
The determination of whether the coating of the target object fails in this step may be implemented as follows: acquiring a three-dimensional model of an offshore platform and a latest detection result from a database; when the peeling grade and/or the rusting grade of a coating in a certain actual area in the latest result of the offshore platform reach a preset grade, judging that the coating in the actual area fails; and when the coating peeling grade and/or the rusting grade of a certain solid part in the latest result of the offshore platform reach a preset grade, judging that the coating of the solid part fails.
The reminder generated for the target object may include any one of a name and location information of the offshore platform. The location information may include the sea area where the offshore platform is located and may also include the geographic location or number of the offshore platform in the sea area.
Optionally, if the coating peeling level of the target object reaches the preset level, the reminding message may further include the coating peeling level of the target object.
Optionally, if the rusting level of the target object reaches a preset level, the reminding message may further include the rusting level of the target object.
Optionally, if the adhesion of the target object is lower than the preset value, the reminding message may further include an adhesion detection value of the target object.
Displaying the reminder message can be achieved in several ways:
first, the display is made on the management interface of the database system.
And secondly, displaying the data on a human-computer interaction interface of the database management system.
Thirdly, acquiring the mailbox address of the technician recorded in the database system, and sending the reminding message to the mailbox of the technician.
And 302, when the adhesive force of the target object is lower than a preset value, judging that the coating of the target object is invalid, generating a reminding message for the target object, and displaying the reminding message.
Wherein the target object refers to an actual area or a physical component in the offshore platform.
The determination of whether the coating of the target object fails in this step may be implemented as follows: acquiring a three-dimensional model of an offshore platform and a latest detection result from a database; when the adhesion force of a certain actual area in the latest result of the offshore platform is lower than a preset value, judging that the coating of the actual area is invalid; and when the adhesion force of a certain solid component in the latest result of the offshore platform is lower than a preset value, judging that the coating of the solid component fails.
The reminding information generated for the target object comprises the name of the target object and can comprise any one of the name and the position information of the offshore platform. The position information comprises the sea area where the offshore platform is located, and can also comprise the geographic position or the number of the offshore platform in the sea area.
Optionally, the reminding message may further include an adhesion detection value of the target object.
Optionally, the reminding information further includes a hyperlink of the three-dimensional model corresponding to the offshore platform.
The manner of displaying the reminder message in this step can be referred to as the manner of displaying the reminder message in step 301.
One point to be described is that a plurality of reminding messages generated for the same area can form a new reminding message, and at this time, the plurality of messages before combination are not displayed any more, and only the new reminding message is displayed; the plurality of reminding messages generated aiming at the same component can be combined into a new reminding message, at the moment, the plurality of messages before combination are not displayed any more, and only the new reminding message is displayed.
In addition, step 301 and step 302 may be performed simultaneously, and after performing step 301 and/or step 302, step 303 may be performed.
Step 303, when detecting that the hyperlink in the reminding message is triggered, displaying the three-dimensional model of the target offshore platform, and highlighting the target object in the three-dimensional model.
Wherein, the step 204 of highlighting the target object in the three-dimensional model is not repeated herein.
Step 304, acquiring a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part in the target offshore platform, or displaying the latest detection result of the area corresponding to the actual area in the target offshore platform.
The implementation of this step can refer to step 205, and is not described herein again.
Summarizing by displaying to a user a three-dimensional model of a target offshore platform, the three-dimensional model of the offshore platform, each of the plurality of members corresponding to a physical member of the target offshore platform, each of the plurality of members having a shape that is the same as its corresponding physical member; acquiring a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part, or displaying the latest detection result of the area corresponding to the actual area in the target offshore platform; the user can directly check the latest detection result of the part corresponding to the entity part in the target offshore platform by selecting the part in the three-dimensional model; by selecting the area in the three-dimensional model, the latest detection result of the area corresponding to the actual area in the target offshore platform can be directly checked; the problem of complex operation of a user for inquiring the detection result of a certain part in a certain area in the offshore platform in the related technology is solved, and the effect of simplifying the operation of the user for inquiring the latest detection result of the certain part in the certain area in the offshore platform is achieved.
In addition, technicians can correspondingly store the service experience, the product construction information and the actual coating application condition of each offshore platform and the three-dimensional model of the offshore platform in a database.
In addition, a data manual of platform construction, service experience and coating products, a material safety data manual, fingerprint characteristics of coating materials, product construction information, qualified certification test data and actual coating application conditions can also be directly stored in a database.
Optionally, the electronic device may further record the last detection time of each offshore platform, and predict the next detection time; and when the next detection time is up, generating a reminding message by using the name of the offshore platform, wherein the generated reminding message is used for indicating that the offshore platform needs to be detected.
Referring to fig. 4, an information management apparatus for an offshore platform according to an embodiment of the present invention is shown, where the information management apparatus is applicable to an electronic device, and the information management apparatus may include: a first display module 401 and a second display module 402.
A first display module 401 for displaying a three-dimensional model of a target offshore platform, the three-dimensional model comprising a plurality of members, each member of the plurality of members corresponding to a solid member of the target offshore platform, each member of the plurality of members having a shape identical to a shape of its corresponding solid member;
a second display module 402, configured to obtain a selected component or area in the three-dimensional model, and display a latest detection result of an entity component corresponding to the component, or display a latest detection result of an actual area of the area in the target offshore platform;
the detection result at least comprises one of coating light loss grade, coating color change grade, visual comparison test, coating pulverization grade, coating cracking grade, coating foaming grade, surface resistivity, rusting grade, coating peeling grade, contamination degree, coating omission point, coating thickness, coating thinning rate and adhesive force.
Referring to fig. 5, the information management apparatus may further include: a first judging module 403 and a third displaying module 404.
A first judging module 403, configured to judge that a coating of a target object fails when a coating peeling level and/or a rusting level of the target object reaches a preset level, where the target object is any one entity component or an actual area in the target offshore platform;
a third display module 404, configured to generate a reminding message by using the name of the target object, the coating peeling level, the rusting level, and basic information of the target offshore platform, and display the reminding message, where the basic information at least includes one of the name and the position information of the target offshore platform.
Referring to fig. 5, the information management apparatus may further include: a second judging module 405 and a fourth displaying module 406.
A second determining module 405, configured to determine that a coating of a target object is failed when an adhesion force of the target object is lower than a predetermined value, where the target object is any one of a physical component or an actual area in the target offshore platform;
a fourth display module 406, configured to generate a reminding message by using the name of the target object and basic information of the target offshore platform, and display the reminding message, where the basic information at least includes one of the name and the location information of the target offshore platform.
Optionally, the first display module 402 is further configured to display a three-dimensional model of the target offshore platform and highlight a component or a region corresponding to the target object in the three-dimensional model when detecting that the hyperlink displayed by the third display module or the fourth display module is triggered.
Optionally, the second display module 402 includes a first display sub-module 4021 and a second display sub-module 4022.
The first display sub-module 4021 is configured to display hyperlinks of the three-dimensional models corresponding to other offshore platforms including an actual area or a solid part in which a coating peeling level or a rusting level reaches a preset level, in a case where the actual area or the solid part in which the coating peeling level or the rusting level reaches the preset level exists in the target offshore platform;
the second display sub-module 4022 is configured to display hyperlinks of the three-dimensional models corresponding to other offshore platforms including the actual regions or the physical components having the adhesion force lower than the predetermined value, in case that there is a physical region or a partial physical component having the adhesion force lower than the predetermined value in the target offshore platform.
In summary, the information management apparatus for offshore platform provided by the method displays the three-dimensional model of the target offshore platform, the three-dimensional model of the offshore platform, each of the plurality of parts corresponding to one solid part of the target offshore platform, and each of the plurality of parts has the same shape as the corresponding solid part; acquiring a selected part or area in the three-dimensional model, and displaying the latest detection result of the part corresponding to the entity part, or displaying the latest detection result of the area corresponding to the actual area in the target offshore platform; the user can directly check the latest detection result of the part corresponding to the entity part in the target offshore platform by selecting the part in the three-dimensional model; by selecting the area in the three-dimensional model, the latest detection result of the area corresponding to the actual area in the target offshore platform can be directly checked; the problem of complex operation of a user for inquiring the detection result of a certain part in a certain area in the offshore platform in the related technology is solved, and the effect of simplifying the operation of the user for inquiring the latest detection result of the certain part in the certain area in the offshore platform is achieved.
It should be noted that: in the above embodiment, when managing the information of the offshore platform, the information management apparatus of the offshore platform is only illustrated by dividing the program modules, and in practical applications, the function distribution may be completed by different program modules according to needs, that is, the internal structure of the electronic device is divided into different program modules to complete all or part of the above described functions. In addition, the information management device of the offshore platform provided by the above embodiment and the information management method embodiment of the offshore platform belong to the same concept, and specific implementation processes thereof are detailed in the method embodiments and are not described herein again.
The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.
It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.