CN111311080B - Order detection revision method, order detection revision device, electronic equipment and computer readable medium - Google Patents

Abstract

The invention provides an order detection revision method, an order detection revision device, electronic equipment and a computer readable medium, which relate to the technical field of home decoration design, wherein the order detection revision method comprises the following steps: receiving a design file sent by a front end, wherein the design file comprises parameter information of an object in a three-dimensional model, and the parameter information of the object comprises envelope frame coordinate information of the object; the covering frame is a frame body for covering the object according to the coordinate information of the object; detecting parameter information of an object according to a preset detection rule to obtain a detection result; the detection result comprises overlapped coordinate information of two objects obtained according to the covering frame coordinate information of two adjacent objects; displaying the detection result; modifying parameter information of the object according to the detection result; and the method further comprises the step of carrying out overlapped coordinate combination according to the overlapped coordinate information of the two adjacent objects. The invention can improve the auditing efficiency of orders, reduce labor force and improve auditing accuracy.

Description

Order detection revision method, order detection revision device, electronic equipment and computer readable medium

Technical Field

The present invention relates to the field of home design technology, and in particular, to an order detection revision method, an apparatus, an electronic device, and a computer readable medium.

Background

Currently, in at-home design software, after the design of a designer is completed, an order is submitted, and a reviewer performs manual verification on the order submitted by the designer according to the order placing requirement technical book. During verification, a checker needs to verify each item in the order, for example, whether the size meets the requirement, whether the part is absent, whether the part is required, and the like, so that the workload is large, the working efficiency is low, the error rate is high, and once the checker makes an error, the subsequent work is easily influenced. For example, for two sets of cabinets to be connected together, if a part of the contact surfaces of the two sets of cabinets are not completely connected, the two sets of cabinets are difficult to distinguish by naked eyes, and once an order with inaccurate size is sent to a production department for production, problems of unmatched installation, reworking of factories and the like can occur, so that the problems of time and labor consumption are very high.

Disclosure of Invention

The invention aims to provide an order detection revision method, an order detection revision device, electronic equipment and a computer readable medium, which can improve the auditing efficiency of orders, reduce labor force and improve auditing accuracy.

In a first aspect, the present invention provides an order detection revision method, including:

receiving a design file sent by a front end, wherein the design file comprises parameter information of an object in a three-dimensional model, and the parameter information of the object comprises envelope frame coordinate information of the object; the covering frame is a frame body for covering the object according to the coordinate information of the object;

detecting parameter information of an object according to a preset detection rule to obtain a detection result; the detection result comprises overlapped coordinate information of two objects, which is obtained according to the covering frame coordinate information of two adjacent objects;

displaying the detection result;

and modifying the parameter information of the object according to the detection result, and carrying out overlapped coordinate combination according to the overlapped coordinate information of two adjacent objects.

In an alternative embodiment, the parameter information further includes global parameters; the front end is also provided with a global parameter inlet which is associated with a plurality of objects at the rear end; detecting parameter information of an object according to a preset detection rule, wherein the obtaining of a detection result comprises:

acquiring global parameters of a plurality of objects;

detecting whether global parameters of a plurality of objects associated with a global parameter inlet are consistent or not, and obtaining a global parameter matching result;

modifying the parameter information of the object according to the detection result comprises:

receiving a global parameter sent by a global parameter inlet;

and modifying the global parameters of the objects connected with the global parameter inlet according to the global parameters sent by the global parameter inlet.

In an alternative embodiment, the objects further include child level objects and parent level objects associated with the functions of the child level objects; the front end is provided with a parameter transmission inlet which is used for associating the child-level object with the father-level object; detecting parameter information of an object according to a preset detection rule, wherein the obtaining of a detection result comprises:

detecting whether parameter information of the sub-level object is modified or not to obtain parameter modification information of the sub-level object;

modifying the parameter information of the object according to the detection result comprises:

detecting whether an instruction for modifying the parameter information of the parent object sent by the parameter transfer inlet is received or not;

if yes, the parameter information of the parent level object is modified according to the parameter modification information of the child level object.

In an alternative embodiment, the parameter information further includes size information of the object; detecting parameter information of an object according to a preset detection rule, wherein the obtaining of a detection result comprises:

acquiring current size information of an object;

detecting current size information of an object according to a standard size list of the object to obtain a size matching result of the object; wherein the standard size list includes standard sizes of the objects and size formula information to be satisfied by the standard sizes of the objects.

In an optional implementation manner, the preset detection rule includes standard class information of the object, and detecting parameter information of the object in the design file according to the preset detection rule, so as to obtain a detection result includes:

acquiring category information of an object in a design file;

detecting class information of objects in the design file according to the standard class information; and obtaining a category matching result of the object.

In an alternative embodiment, the preset detection rule includes standard quantity information of the objects, and parameter information of the objects is detected according to the preset detection rule to obtain a detection result; comprising the following steps:

acquiring the quantity information of objects;

and detecting the quantity information of the objects in the design file according to the standard quantity information to obtain a quantity matching result of the objects.

In a second aspect, the present invention provides an order detection revision apparatus, including:

the receiving module is used for receiving a design file sent by the front end, wherein the design file comprises parameter information of an object in the three-dimensional model, and the parameter information of the object comprises envelope frame coordinate information of the object; the covering frame is a frame body for covering the object according to the coordinate information of the object;

the detection module is used for detecting the parameter information of the object according to a preset detection rule to obtain a detection result; the detection result comprises overlapped coordinate information of two objects, which is obtained according to the covering frame coordinate information of two adjacent objects;

the display module is used for displaying the detection result;

the revising module is used for revising the parameter information of the object according to the detection result; the revising module comprises an overlapping coordinate revising module which is used for carrying out overlapping coordinate combination according to overlapping coordinate information of two adjacent objects.

In an alternative embodiment, the parameter information further includes global parameters; the front end is also provided with a global parameter inlet which is associated with a plurality of objects at the rear end; the detection module comprises:

the global parameter acquisition module is used for acquiring global parameters of a plurality of objects;

the global parameter matching module is used for detecting whether global parameters of a plurality of objects associated with the global parameter inlet are consistent or not, and obtaining a global parameter matching result;

the revision module includes:

the global parameter receiving module is used for receiving the global parameters sent by the global parameter inlet;

and the global parameter modification module is used for modifying the global parameters of the objects connected with the global parameter inlet according to the global parameters sent by the global parameter inlet.

In a third aspect, an embodiment provides an electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the method of any of the preceding embodiments when the computer program is executed.

In a fourth aspect, an embodiment provides a computer readable medium having non-volatile program code executable by a processor, the program code causing the processor to perform the method of any of the preceding embodiments.

According to the order detection revising method, the order detection revising device, the electronic equipment and the computer readable medium, the parameter information of the object in the design file is detected according to the preset detection rule by receiving the design file which is sent by the front end and contains the object parameter information, so that a detection result is obtained; then, the detection result is displayed; and modifying the parameter information of the object according to the detection result; by the principle, the embodiment detects the coordinate information of the covering frame of the object to detect whether the two objects have overlapped coordinates or not so as to combine the overlapped coordinates; the accuracy of order detection is improved. The invention can improve the auditing efficiency of orders, reduce labor force and improve auditing accuracy; reduces the work of the inspector, saves time and reduces the return rate of the factory order.

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 needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of an order detection revision method provided by an embodiment of the present invention;

FIG. 2 is another flow chart of an order detection revision method according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an order detection revision device according to an embodiment of the present invention;

fig. 4 is a schematic diagram of an electronic device according to an embodiment of the present invention.

Icon: 31-a receiving module; 32-a detection module; 33-a display module; 34-a revision module; 400-an electronic device; 401-a communication interface; 402-a processor; 403-memory; 404-bus.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Some embodiments of the present invention are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

In the existing home decoration design software, after the design of a designer is completed, an order is submitted, each item is manually checked by a single person according to the order-making requirement process book, the workload is high, and the error rate is high. Based on the method, the device, the electronic equipment and the computer readable medium, the order detection revision method, the electronic equipment and the computer readable medium are provided, through the optimization design of various parameter values, the rule self-definition is opened, the intelligent audit of most common problems is efficiently and timely solved, the error rate is reduced, and the self-audit efficiency of a designer is improved. The invention is described in detail below by way of examples.

Referring to fig. 1, the order detection revising method provided by the invention comprises the following steps:

s110, receiving a design file sent by a front end, wherein the design file comprises parameter information of an object in a three-dimensional model, and the parameter information of the object comprises envelope frame coordinate information of the object; the covering frame is a frame body for covering the object according to the coordinate information of the object.

Specifically, the application scenario of the application is: setting checking conditions at the server by an administrator, checking and starting, and finishing cabinet scheme design at the front end by a designer to generate a design file; the designer clicks the order to be detected at the front end platform, the design file is transmitted to the server to be detected according to the conditions set by the order to be detected, the detection result is obtained according to the classification of the conditions, and the detection result is displayed at the front end.

The object in the three-dimensional model in this embodiment is a three-dimensional object model. The parameter information of the object includes a Paul frame, size information, number information, and the like of the object;

the covering frame is a box which is determined according to the length, width and depth of the object and is used for wrapping the object. Specifically, when an administrator enters the furniture model in the background, a box is generated according to the length, width and depth of the furniture model, and the box is a covering frame so as to wrap the furniture. However, if two adjacent surfaces of two pieces of furniture (such as two cabinets) should be connected together, but a designer does not completely connect two objects together due to an operation error during design (i.e., the coordinates of the covering frames of the adjacent surfaces of the two objects do not completely coincide), the size parameter outputted by the single cabinet must be inaccurate, and the error cannot be observed by naked eyes when using manual inspection. In order to detect an order, the embodiment can detect the error by performing overlapping detection of the cover frame, that is, detecting whether there are overlapping coordinates in the cover frame, and the specific principle is as follows.

S120, detecting parameter information of an object according to a preset detection rule to obtain a detection result; the detection result comprises overlapped coordinate information of two objects obtained according to the covering frame coordinate information of two adjacent objects.

Specifically, the parameter information of the object in the present embodiment includes coordinate information of a two-object bounding box, global parameters, size information, category information, number information, and the like.

The covering frame coordinate information of the object comprises vertex coordinate information of the covering frame of the object; in the embodiment, if two adjacent furniture (such as two cabinets) should be connected together during order detection; then, detecting the coordinate information of the covering frames of the two objects, for example, the coordinate value of the leftmost point of the covering frame of the furniture A is (100, 0), namely, the X axis is 100, the Y axis is 100 and the Z axis is 0; the coordinate value of the rightmost point is (200, 100, 0). The coordinates of a point of the envelope frame of the furniture B adjacent to the furniture a are (199, 100, 0), and the embodiment detects that the furniture a overlaps the envelope frame of the home B when detecting.

The specific detection method for detecting the overlapped coordinate information can be to detect whether the two covering frames have the points with the completely consistent X axis, Y axis and Z axis, if so, overlapping; if not, there is no overlap.

S130, displaying a detection result;

specifically, the detection results of the present embodiment include a warning class, an error class, and a prompt class. The detection result of the error class must be repaired, then the submitted order can be clicked, and when the detection result of the prompt class exists, the order can be directly placed, and all the contents of errors, warnings and prompts which do not meet the requirements are presented.

In the embodiment, when the page displaying the detection result is opened and selected by clicking, the cabinet which does not meet the requirements can be selected, and the operations of corresponding material or style replacement, size modification, unit editing and the like are performed; and completing modification, submitting an order, and automatically generating a quotation.

And S140, modifying the parameter information of the object according to the detection result, and combining the overlapped coordinates according to the overlapped coordinate information of the two adjacent objects.

Specifically, after the overlapping coordinates are obtained according to the covering frame information of the two objects, the overlapping coordinates are combined (i.e., collided), and thus the revision of the overlapping detection is completed.

It should be noted that, in the process of modifying the parameter information of the object in this step, after the detection in S120 is completed and the detection result is obtained, part of the parameter information may be directly modified, or when the detection result is displayed in the step S130 is executed, the designer is prompted to determine whether to modify part of the parameter information of the object according to the detection result, and then the designer performs this step after selecting and agreeing.

In this embodiment, a selection button may be opened in advance for an administrator or designer, that is, to select which parameter information to detect, so as to perform detection according to the needs of the administrator or designer. The embodiment can improve the auditing efficiency of orders, reduce labor force and improve the auditing accuracy.

Optionally, the parameter information further includes a global parameter; the front end is also provided with a global parameter inlet which is associated with a plurality of objects at the rear end; step S120 in the above embodiment further includes the following steps:

acquiring global parameters of a plurality of objects;

detecting whether global parameters of a plurality of objects associated with a global parameter inlet are consistent or not, and obtaining a global parameter matching result;

step S140 in the above embodiment includes:

receiving a global parameter sent by a global parameter inlet;

and modifying the global parameters of the objects connected with the global parameter inlet according to the global parameters sent by the global parameter inlet.

In particular, some of the parameters of the object are of global nature, for example the thickness of the sheet material of the complete set of cabinets is uniform when designing the cabinets. When a designer enters these parameters, sometimes the thickness of a portion of the sheet is not uniform with other sheets due to work errors. Based on this, the present embodiment introduces the concept of global parameters, and sets a global parameter entry at the front end, and if a designer needs to uniformly modify the thickness of a board during order detection, the board thickness is input into the global parameter entry, and the global parameters of the object associated with the global parameter entry are modified to be the input board thickness.

The present embodiment may also use an object model (accessory) as a global parameter, for example, if the doors of the cabinets in the order require the handle to be configured, while some doors in the designer's design file are not configured with the handle. After the order is detected, the detection result in step S130 shows that no handle is configured, and when the handle configuration is input at the global parameter entry, the door without the handle can be automatically identified and matched with the handle input.

The embodiment can realize unified modification of global parameters and improve the accuracy of order detection.

Optionally, the objects further comprise child level objects and parent level objects associated with functions of the child level objects; the front end is provided with a parameter transmission inlet which is used for associating the child-level object with the father-level object; detecting parameter information of an object according to a preset detection rule, wherein the obtaining of a detection result comprises:

detecting whether parameter information of the sub-level object is modified or not to obtain parameter modification information of the sub-level object;

the modifying of the parameter information of the object according to the detection result comprises:

detecting whether an instruction for modifying the parameter information of the parent object sent by the parameter transfer inlet is received or not;

if yes, the parameter information of the parent level object is modified according to the parameter modification information of the child level object.

Specifically, the partial parameters of the object of the embodiment support the parameter transfer function, and the modification of the child level parameters can be transferred to the parent level, such as the laminate width, the modification of the child level laminate width, and the modification can be transferred to the back panel width according to the setting, so that whether the back panel width value meets the standard can be detected when the order is detected.

In practical application, part of the designed cabinet body and the functional parts are complete sets, and if no parameter transmission inlet is arranged, parameters of the functional parts are modified each time, and the parameters of the cabinet body are required to be adjusted simultaneously.

It should be noted that, the parameter transfer portal in this embodiment can only associate the parent level and the subset, such as the cabinet and the laminate in the cabinet. In the specific implementation, a judging condition is set between the father level and the subset, namely whether the subset object is modified by the appointed parameter is judged, and when the subset object is modified by the appointed parameter, the appointed parameter of the father level is changed in an appointed mode. The implementation of the rule can enable a manager (brand party) to set directivity through the parameter transmission button when the manager (brand party) enters the warehouse in the background, and the naming is unique because all parameters of the whole system are unique.

According to the embodiment, by setting the parameter transfer entrance, when the parameters of the function piece are modified, only the content to be modified is required to be modified, the parameters of the father level associated with the parameter transfer entrance are correspondingly changed, errors are avoided, and the order accuracy is improved.

Optionally, the parameter information further includes size information of the object; detecting parameter information of an object according to a preset detection rule, wherein the obtaining of a detection result comprises:

acquiring current size information of an object;

detecting current size information of the object according to a standard size list of the object to obtain a size matching result of the object; wherein the standard size list includes standard sizes of objects and size formula information that the standard sizes of objects need to satisfy.

Specifically, the present embodiment can monitor whether an object in the three-dimensional model meets a preset standard size. For example, when the size of the door plate is detected, a special parameter is added to the specified door plate, a standard size list of the specified door plate is input in a corresponding formula record mode in a parameter list of the special parameter, the standard door plate is a standard door plate when the standard size list is met, and the standard door plate is a non-standard door plate when the standard size list is not met.

In the embodiment, the standard detection of the door panel is based on the calculation mode of the formula which needs to be met by the parameters, the standard value is input, the client can configure the parameters of the door panels, and the appointed standard size of each door panel is freely set, so that universality is realized. For example, the manager sets the area of some door panels to a preset value, i.e., the length and width of the door panels must satisfy the corresponding area formula.

Optionally, the preset detection rule includes standard class information of the object, detecting parameter information of the object in the design file according to the preset detection rule, and obtaining the detection result includes:

acquiring category information of an object in a design file;

detecting category information of objects in the design file according to the standard category information; and obtaining a category matching result of the object.

Specifically, the standard class information in this embodiment may be a preset class of the object, and the class information of the object is compared with the preset class during detection. Or may be a standard category for the entire order.

For example, referring to FIG. 2, the standard category information for a certain order is that no universal cabinet can be set, but a skirting must be set, then if there is no skirting in one order, and if there is a universal cabinet in one order, a prompt is made.

Optionally, the preset detection rule comprises standard quantity information of the objects, and parameter information of the objects is detected according to the preset detection rule to obtain a detection result; comprising the following steps:

acquiring the quantity information of objects;

and detecting the quantity information of the objects in the design file according to the standard quantity information to obtain a quantity matching result of the objects.

Specifically, the standard class information in this embodiment may be a preset number of objects, and the number information of the objects is compared with the preset number during detection. But also a number that matches the number of other objects.

For example, the detection of the coincidence of the number of moving doors and the number of pulleys in fig. 2 is a number detection. The number of sliding doors and the number of pulleys are provided with preset proportion, and standard number information of the pulleys can be obtained according to the number of the sliding doors.

Preferably, the parameter information of the present embodiment further includes material information; step S120 of the present embodiment further includes:

acquiring material information of an object;

and detecting the material information of the object according to the standard material information to obtain an object material matching result.

Specifically, the standard texture information may be preset texture information according to a customer requirement, and when the order detection condition is set, the preset texture information may be preset as the standard texture information in advance. The consistency detection of the materials among the objects can be realized, and whether the objects belong to one of the preset materials or not can be realized.

For example, the labeling material information is a material in a style gallery. When detecting, detecting that an order only allows one cabinet material, reading material information (material name) and judging, detecting whether all materials are materials in a style library, if so, not allowing ordering, and executing step S130 to carry out list prompt.

For another example, detecting that an order only allows one type of door panel material, reading material information (material category) and judging, detecting whether all materials are materials in a style library, if not, a plurality of ways are reserved, ordering is not allowed, and list prompt is made.

In addition, the preset detection rules of the present embodiment further include scene item detection, brand detection, and the like, for example, when there is an item outside the scene, prompt is made. When more than two hinge brands exist at the same time, prompting is performed.

Referring to fig. 2, in the implementation of the embodiment, an order detection process includes the following specific operation steps:

the administrator sets the check conditions in the background production check module and checks the enablement.

The designer completes the cabinet solution design at the front end.

Click order detection.

And detecting according to the conditions set by the ordering detection, and displaying detection results (displaying errors or prompts) according to the classification of the conditions, wherein the errors can be repaired and then the submitted orders can be clicked, and when only prompts exist (after repair), the orders can be directly ordered.

Referring to fig. 2, the specific step flow of order detection is:

step S201, detecting whether the cabinet body material is only one.

Specifically, only one cabinet material is allowed by reading the materialName to detect an order, and the materials in the style library are required to be all the materials, or a plurality of cabinet materials are required to be used, the order is not allowed, and list prompt is carried out.

Step S202, detecting whether the door panel materials are only one, and if yes, performing the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, detecting an order only allows one type of door panel material, reading the material CategoryName judgment, and taking the material as the material in the style library, or taking multiple ways, not allowing ordering, and making list prompt.

Step S203, detecting whether the door panel size meets the standard, if so, proceeding to the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, whether the door panel meets the standard size is detected. The standard size setting mode is to add special parameters to the appointed door panel, input the standard size list of the appointed door panel in the parameter list of the special parameters in a corresponding formula recording mode, wherein the standard door panel is the standard door panel when the standard size list is met, and the nonstandard door panel is not met.

Step S204, detecting whether skirting lines exist in the order, and if so, performing the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, if there are no skirting lines in an order, a prompt occurs.

Step S205, detecting whether a universal cabinet exists in the order, and if so, performing the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, if there is a universal cabinet in an order, a prompt is made.

Step S206, detecting whether an object exists outside the scene in the order, if so, carrying out the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, when the order has an item outside the scene, a prompt is made.

Step S207, detecting whether the hinge brand is compliant, if so, proceeding to the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, a prompt is given when more than two or more hinge brands are present at the same time.

Step S208, detecting whether a unit or a cabinet weight exists in the order, and if so, performing the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, a hint occurs when there is an overlap in this order.

Step S209, detecting whether a handle exists in the order, if so, performing the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, when this order has no handle, a prompt occurs.

Step S210, detecting whether the size of the designated door panel meets the standard, and if so, proceeding to the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, a prompt occurs when a portion of the door panels of the order do not meet the criteria.

Step S211, detecting whether the number of the sliding doors is consistent with the number of the pulleys, and if so, performing the next step; otherwise, step S212 is executed, and the prompt is recorded and the next detection is performed.

Specifically, a prompt occurs when the number of gates and the number of pulleys in the order are inconsistent.

Step S213, presenting a prompt but can be ordered, and selecting an error unit to correct.

And step S214, completing correction, ordering and exporting corresponding CAD drawings and quotation.

Preferably, when the detection result is displayed, displaying all the contents of errors, warnings and prompts which do not meet the requirements, opening a selection button, and selecting the cabinet which does not meet the requirements when clicking the selection button, and performing operations such as corresponding material or style replacement, size modification, unit editing and the like.

The detection rules in this embodiment can be configured in a self-defined manner in the production detection of the background of the administrator, and the detection rules can be set freely by the user, for example, when the specified parameters are detected to be in specified values, specified contents are presented in specified prompt boxes.

The embodiment can carry out background self-defined configuration according to the user requirements, is accurate and efficient, improves the order accuracy, reduces the work of the inspector, saves time and reduces the factory order return rate. The method has the advantages that the free design expansibility is good, the complexity of user requirements is considered, the free configuration and the custom rules are adopted, errors caused by a designer in the design process are efficiently and accurately reduced, the self-checking work of the designer is optimized, the work of a person reviewing the order is reduced, the effectiveness of the order is greatly improved, and the working cost of the user is reduced.

Referring to fig. 3, the order detection revision device provided by the present invention includes:

the receiving module 31 is configured to receive a design file sent by the front end, where the design file includes parameter information of an object in the three-dimensional model, and the parameter information of the object includes coordinate information of a covering frame of the object; the covering frame is a frame body for covering the object according to the coordinate information of the object;

the detection module 32 is configured to detect parameter information of an object according to a preset detection rule, so as to obtain a detection result; the detection result comprises overlapped coordinate information of two objects obtained according to the covering frame coordinate information of two adjacent objects;

a display module 33, configured to display the detection result;

a revising module 34, configured to revise parameter information of the object according to the detection result; the revising module comprises an overlapping coordinate revising module which is used for carrying out overlapping coordinate combination according to overlapping coordinate information of two adjacent objects.

Optionally, the parameter information further includes a global parameter; the front end is also provided with a global parameter inlet which is associated with a plurality of objects at the rear end; the detection module 32 includes:

the global parameter acquisition module is used for acquiring global parameters of a plurality of objects;

the global parameter matching module is used for detecting whether global parameters of a plurality of objects associated with the global parameter inlet are consistent or not, and obtaining a global parameter matching result;

the revision module 34 includes:

the global parameter receiving module is used for receiving the global parameters sent by the global parameter inlet;

and the global parameter modification module is used for modifying the global parameters of the objects connected with the global parameter inlet according to the global parameters sent by the global parameter inlet.

Optionally, the objects further comprise child level objects and parent level objects associated with functions of the child level objects; the front end is provided with a parameter transmission inlet which is used for associating the child-level object with the father-level object; the detection module 32 includes:

the sub-level parameter detection module is used for detecting whether the parameter information of the sub-level object is modified or not to obtain parameter modification information of the sub-level object;

the revision module 34 includes:

the parameter receiving detection module is used for detecting whether an instruction for modifying the parameter information of the parent object sent by the parameter transfer inlet is received or not;

the parent-level parameter revising module is used for revising the parameter information of the parent-level object according to the parameter revising information of the child-level object when receiving the instruction for revising the parameter information of the parent-level object sent by the parameter transfer inlet.

Optionally, the parameter information further includes size information of the object; the detection module 32 includes:

the size information acquisition module is used for acquiring the current size information of the object;

the size matching module is used for detecting the current size information of the object according to the standard size list of the object to obtain a size matching result of the object; wherein the standard size list includes standard sizes of objects and size formula information that the standard sizes of objects need to satisfy.

Optionally, the preset detection rule includes standard class information of the object, and the detection module 32 includes:

the category information acquisition module is used for acquiring category information of objects in the design file;

the category matching module is used for detecting category information of objects in the design file according to the standard category information; and obtaining a category matching result of the object.

Optionally, the preset detection rule includes standard quantity information of the objects, and the detection module 32 includes:

the quantity information acquisition module is used for acquiring quantity information of the objects;

the quantity matching module is used for detecting quantity information of the objects in the design file according to the standard quantity information to obtain a quantity matching result of the objects.

Referring to fig. 4, the embodiment of the present invention further provides an electronic device 400, including a communication interface 401, a processor 402, a memory 403, and a bus 404, where the processor 402, the communication interface 401, and the memory 403 are connected by the bus 404; the memory 403 is used for storing a computer program supporting the processor 402 to execute the order detection revision method, and the processor 402 is configured to execute the program stored in the memory 403.

Optionally, an embodiment of the present invention further provides a computer readable medium having a non-volatile program code executable by a processor, the program code causing the processor to perform the order detection revision method as in the above embodiment.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (8)

1. An order detection revision method, comprising:

receiving a design file sent by a front end, wherein the design file comprises parameter information of an object in a three-dimensional model, and the parameter information of the object comprises envelope frame coordinate information of the object; the covering frame is a frame body for covering the object according to the coordinate information of the object;

detecting parameter information of an object according to a preset detection rule to obtain a detection result; the detection result comprises overlapped coordinate information of two objects, which is obtained according to the covering frame coordinate information of two adjacent objects;

displaying the detection result;

modifying the parameter information of the object according to the detection result, and carrying out overlapped coordinate combination according to the overlapped coordinate information of two adjacent objects;

the parameter information also comprises global parameters; the front end is also provided with a global parameter inlet which is associated with a plurality of objects at the rear end; detecting parameter information of an object according to a preset detection rule, wherein the obtaining of a detection result comprises:

acquiring global parameters of a plurality of objects;

detecting whether global parameters of a plurality of objects associated with a global parameter inlet are consistent or not, and obtaining a global parameter matching result;

modifying the parameter information of the object according to the detection result comprises:

receiving a global parameter sent by a global parameter inlet;

and modifying the global parameters of the objects connected with the global parameter inlet according to the global parameters sent by the global parameter inlet.

2. The method of claim 1, wherein the objects further comprise child level objects and parent level objects associated with functions of the child level objects; the front end is provided with a parameter transmission inlet which is used for associating the child-level object with the father-level object; detecting parameter information of an object according to a preset detection rule, wherein the obtaining of a detection result comprises:

detecting whether parameter information of the sub-level object is modified or not to obtain parameter modification information of the sub-level object;

modifying the parameter information of the object according to the detection result comprises:

detecting whether an instruction for modifying the parameter information of the parent object sent by the parameter transfer inlet is received or not;

if yes, the parameter information of the parent level object is modified according to the parameter modification information of the child level object.

3. The method of claim 1, wherein the parameter information further comprises size information of an object; detecting parameter information of an object according to a preset detection rule, wherein the obtaining of a detection result comprises:

acquiring current size information of an object;

detecting current size information of an object according to a standard size list of the object to obtain a size matching result of the object; wherein the standard size list includes standard sizes of the objects and size formula information to be satisfied by the standard sizes of the objects.

4. The method according to claim 1, wherein the preset detection rule includes standard class information of the object, and detecting parameter information of the object in the design file according to the preset detection rule, to obtain a detection result includes:

acquiring category information of an object in a design file;

detecting class information of objects in the design file according to the standard class information; and obtaining a category matching result of the object.

5. The method according to claim 1, wherein the preset detection rule includes standard quantity information of the objects, and the detection result is obtained by detecting parameter information of the objects according to the preset detection rule; comprising the following steps:

acquiring the quantity information of objects;

and detecting the quantity information of the objects in the design file according to the standard quantity information to obtain a quantity matching result of the objects.

6. An order detection revision apparatus, comprising:

the receiving module is used for receiving a design file sent by the front end, wherein the design file comprises parameter information of an object in the three-dimensional model, and the parameter information of the object comprises envelope frame coordinate information of the object; the covering frame is a frame body for covering the object according to the coordinate information of the object;

the detection module is used for detecting the parameter information of the object according to a preset detection rule to obtain a detection result; the detection result comprises overlapped coordinate information of two objects, which is obtained according to the covering frame coordinate information of two adjacent objects;

the display module is used for displaying the detection result;

the revising module is used for revising the parameter information of the object according to the detection result; the revising module comprises an overlapping coordinate revising module, and the overlapping coordinate revising module is used for carrying out overlapping coordinate combination according to overlapping coordinate information of two adjacent objects;

the parameter information also comprises global parameters; the front end is also provided with a global parameter inlet which is associated with a plurality of objects at the rear end; the detection module comprises:

the global parameter acquisition module is used for acquiring global parameters of a plurality of objects;

the global parameter matching module is used for detecting whether global parameters of a plurality of objects associated with the global parameter inlet are consistent or not, and obtaining a global parameter matching result;

the revision module includes:

the global parameter receiving module is used for receiving the global parameters sent by the global parameter inlet;

and the global parameter modification module is used for modifying the global parameters of the objects connected with the global parameter inlet according to the global parameters sent by the global parameter inlet.

7. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the method of any of the preceding claims 1 to 5 when the computer program is executed.

8. A computer readable medium having non-volatile program code executable by a processor, the program code causing the processor to perform the method of any one of claims 1 to 5.

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