CN109147013B - Method, equipment and storage medium for automatically generating deep drawing of component - Google Patents

Abstract

The invention discloses a method, equipment and a storage medium for automatically generating a deepening drawing of a component, wherein the method comprises the steps of receiving a modified component layout drawing imported by a user, wherein the modified component layout drawing comprises component drawings of a plurality of components, and component information is represented in the component drawings; reading component information in each component diagram according to a preset rule; merging the components with the same component information; and generating a component template drawing and a component reinforcing bar drawing of each different component and drawing a component information table. According to the invention, the component information is directly embodied in the component diagram, and then the component template diagram and the component reinforcement diagram are directly generated according to the component diagram, so that the component deepened diagram with the marked dimension information is directly generated from the input component diagram, and the user can conveniently carry out the work of material statistics, dimension checking, drawing verification, cost calculation and the like.

Description

Method and equipment for automatically generating deep drawing of component and storage medium

Technical Field

The invention relates to the field of buildings, in particular to a method, equipment and a storage medium for automatically generating a deepened drawing of a component.

Background

When the engineering drawing is drawn, in order to facilitate subsequent works such as drawing verification and engineering cost statistics, the related data of the engineering drawing needs to be counted and checked, at present, for components such as laminated slabs, prefabricated stairs, prefabricated shear walls, laminated beams, prefabricated columns or prefabricated external wall panels, data information is generally added on the engineering drawing directly, then the reinforcement arrangement drawing is drawn automatically according to reinforcement arrangement conditions, the drawing and drawing verification workload of an engineer is increased undoubtedly, and if the designer is careless, drawing errors are prone to occur.

In order to reduce the workload of engineers, there is a method of drawing an engineering drawing data table, and then the tables are imported to generate a dimension marking chart and a reinforcement map of the component, but the drawing engineering quantity of the engineering drawing data table is large and the correctness of the data is difficult to correct, moreover, for the members with the embedded parts, the engineering drawing table cannot reflect the positions of the embedded parts, and the position and the size of the embedded parts need to be designed and marked manually in the follow-up process, and the form data is required to be adjusted at any time according to the change of the drawing when the form is drawn at the previous stage, and the intuition and the correct design of the drawing can not be reflected in the data table, so that the principle or local error is easy to occur, therefore, although the method reduces the workload of engineers to a certain extent, the operability and practicability are still not high, and the method is difficult to be applied to the design of practical engineering projects.

The prior art thus remains to be improved and enhanced.

Disclosure of Invention

In view of the above-mentioned shortcomings in the prior art, the present invention aims to provide a method, a device and a storage medium for automatically generating a component deepening map, which can directly generate a component deepening map with labeled dimension information from an input component map, and facilitate the user to perform the work of material statistics, dimension checking, drawing verification, cost calculation, etc.

In order to achieve the purpose, the invention adopts the following technical scheme:

a method for automatically generating a deepening map of a component is characterized by comprising the following steps:

receiving a modified component layout diagram imported by a user, wherein the component layout diagram comprises component diagrams of a plurality of components, and component information is represented in the component diagrams;

reading component information in each component diagram according to a preset rule;

merging the components with the same component information;

and generating a component template drawing and a component reinforcement drawing of each different component and drawing a component information table.

In the method for automatically generating the deepened drawing of the component, the component is one of a composite slab, a composite beam, a prefabricated column, a prefabricated shear wall, a prefabricated external wall panel, a prefabricated staircase, a prefabricated balcony, a prefabricated air-conditioning panel and a prefabricated parapet.

In the method for automatically generating the deepened drawing of the component, the component information at least comprises a component name, a component appearance size, reinforcement information, a reinforcement position, embedded part information, reinforcement extending length information and reinforcement extending direction information, the reinforcement information comprises reinforcement diameter and reinforcement type, and the embedded part information comprises an embedded part name, an embedded part position and an embedded part model.

In the method for automatically generating a deepened drawing of a component, the step of reading component information in each component drawing according to a preset rule specifically includes:

reading component names and component appearance sizes in each component diagram;

acquiring image layers, linearity and font color information in the component diagram, judging the names of embedded parts according to the image layers, judging the types and diameters of reinforcing bars according to the linearity, and judging the extending length information and the extending direction information of the reinforcing bars according to the font color;

and acquiring the size information of the embedded part and the frame of the member, the size information of the reinforcing bars and the frame of the member and the interval size information of the reinforcing bars according to the position of the embedded part and the reinforcing bar configuration in the member diagram.

In the method for automatically generating the deepening drawing of the component, the step of merging the components with the same component information comprises the following steps:

judging whether the component information of each component is completely consistent;

and merging the components with completely consistent component information into one component and numbering the component.

In the method for automatically generating the deepened drawing of the component, different components are numbered according to the merging condition of the components.

In the method for automatically generating the deepening drawing of the component, the step of generating the component template drawing and the component reinforcement drawing of each different component and drawing the component information table comprises the following steps:

marking the sizes of the components into the component drawing according to the read component information of the different components, and generating a component template drawing;

generating a component reinforcement map according to the read reinforcement positions and reinforcement information of the components;

and generating a member information table according to the member template drawing, the member reinforcement drawing and the merged member, wherein the member information table at least comprises a steel bar lofting detail drawing, steel bar quantity statistics, embedded part types, embedded part models, embedded part quantity statistics, concrete volume statistics and concrete weight statistics.

The method for automatically generating the deepening map of the component further comprises the following steps:

when the member drawings have truss rebars, detailed views of the truss rebars are also generated.

An automatic deep drawing generation device for a component comprises a processor and a memory connected with the processor, wherein the memory is stored with a computer program, and the computer program realizes the steps in the automatic deep drawing generation method for the component when being executed by the processor.

A computer-readable storage medium, in which a computer program is stored, which, when being executed by a processor, implements the steps in the method for automatically generating a deepening map of a component as described above.

Compared with the prior art, the method, the device and the storage medium for automatically generating the deepening drawing of the component provided by the invention comprise the steps of receiving a modified component layout drawing imported by a user, wherein the component layout drawing comprises component drawings of a plurality of components, and component information is represented in the component drawings; reading component information in each component diagram according to a preset rule; merging the components with the same component information; and generating a component template drawing and a component reinforcement drawing of each different component and drawing a component information table. According to the invention, the component information is directly embodied in the component diagram, and then the component template diagram and the component reinforcement diagram are directly generated according to the component diagram, so that the component deepened diagram with the marked dimension information is directly generated from the input component diagram, and the user can conveniently carry out the work of material statistics, dimension checking, drawing verification, cost calculation and the like.

Drawings

FIG. 1 is a flow chart of a method for automatically generating a deep drawing of a component according to the present invention.

Fig. 2 is a flowchart of the step S200 in the method for automatically generating a deep drawing of a component according to the present invention.

Fig. 3 is a flowchart of the step S300 in the method for automatically generating a deep drawing of a component according to the present invention.

Fig. 4 is a flowchart of the step S400 in the method for automatically generating a deep drawing of a component according to the present invention.

Fig. 5 is a block diagram of a device for automatically generating a deep drawing of a component according to the present invention.

Detailed Description

The present invention provides a method, a device and a storage medium for automatically generating a deep drawing of a component, and in order to make the purpose, technical scheme and effect of the present invention clearer and clearer, the present invention is further described in detail below by referring to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the method for automatically generating a deep drawing of a component according to the present invention includes the following steps:

s100, receiving a modified component layout diagram imported by a user, wherein the component layout diagram comprises component diagrams of a plurality of components, and component information is represented in the component diagrams.

Specifically, the template is composed of a plurality of components, and in order to facilitate data calculation and verification, the template needs to be subjected to component division, and the specific division method can be accurately divided by an engineer according to actual conditions, and after division, a component arrangement diagram of the template is drawn, wherein the component arrangement diagram comprises component diagrams of the plurality of components, and the component diagrams represent component information.

Further, before the step S100, the method further includes:

and drawing the component layout according to a pre-designed drawing rule, and checking and auditing the component layout.

Specifically, before the deepened drawing of the component is generated, the component layout drawing needs to be drawn, the component layout drawing can be drawn according to actual design requirements, the drawn component layout drawing only needs a simple two-dimensional plan view, and after the drawing is completed, the constructed layout drawing needs to be checked and audited during design so as to ensure the accuracy of the component layout drawing, and the drawing of the component layout drawing is simpler than that of a three-dimensional view, so that convenience is brought to checking and auditing of engineers.

Further, the component information at least comprises a component name, a component appearance size, reinforcement information, reinforcement positions, embedded part information, reinforcement extending length information and reinforcement extending direction information, the reinforcement information comprises reinforcement diameter and reinforcement types, and the embedded part information comprises an embedded part name, an embedded part position and an embedded part model. The diameter of the reinforcing steel bar is presented in a component diagram in a digital mode, the extending length of the reinforcing steel bar is presented in the component diagram in a digital mode, the color of the number representing the extending length of the reinforcing steel bar reaches the extending direction of the reinforcing steel bar, the position of the embedded part in the component diagram is used as actual position information, the specific position size of the embedded part can be measured directly through the position in the diagram, and the position of the reinforcing steel bar is also used as the actual position of the reinforcing steel bar drawn in the component diagram.

And S200, reading the component information in each component diagram according to a preset rule.

Specifically, since the dimensions of the components are not shown in the component diagram in the form of labels, the system also needs to first read the component information in the component diagram, and needs to preset rules before generating the deepening diagram, such as the types of the rebars corresponding to the widths of the lines, the types of the rebars corresponding to the types of the lines, the names of the embedded parts corresponding to the layers, and so on, so after importing the component diagram, the system also needs to read the component information in each component diagram according to the preset rules, thereby obtaining the dimension information and the name information of each component, and so on. A detailed flowchart of the step S200 is shown in fig. 2.

Please refer to fig. 2, which is a flowchart of the step S200, including the following steps:

s201, reading component names and component appearance sizes in each component drawing;

s202, obtaining image layers, linearity and font color information in the component images, judging the names of embedded parts according to the image layers, judging the types and diameters of reinforcing bars according to the linearity, and judging the extending length information and the extending direction information of the reinforcing bars according to the font color;

s203, acquiring the size information of the embedded part and the frame of the component, the size information of the reinforcing bars and the frame of the component and the interval size information of the reinforcing bars according to the position of the embedded part and the configuration of the reinforcing bars in the component diagram.

Specifically, the method includes the steps of firstly, directly reading the name of a component and the external dimensions of the component, such as the length, the width and the thickness of the component marked in a component diagram, judging the name of an embedded part according to a diagram layer, such as the diagram layer 1 representing a hexagon bolt and the like, directly finding the name of the corresponding embedded part according to the diagram layer, then judging the type and the diameter of a reinforcing bar according to linearity, such as a sawtooth line representing a truss reinforcing bar and the like, a straight line with the line width of 0.05mm representing a reinforcing bar with the diameter of 8 and the like, then judging the extending length information of the reinforcing bar and the extending direction information of the reinforcing bar according to the font color, such as red representing the length of the reinforcing bar extending out of the left side of the component, blue representing the length of the reinforcing bar extending out of the right side of the component and the like, then obtaining the dimension information of the embedded part and the frame of the component according to the position of the embedded part in the diagram, and measuring the dimension of the frame of the specific component of the embedded part by judging the position of the embedded part in the diagram, the interval size information of the reinforcing steel bars is obtained by measuring the detection among the reinforcing steel bars in the drawing, and various size information of the member is obtained after the information is obtained, so that the deepening drawing of the member can be further integrated.

And S300, merging the components with the same component information.

Specifically, in order to avoid repeating the deepening drawings of a plurality of identical components, the invention also merges the components with the same component information, so that only the deepening drawings of the components with different sizes are generated, and the deepening drawings of the components with the same component information are only presented in the form of quantity in the component information table. The flowchart of step S300 is shown in fig. 3.

Please refer to fig. 3, which is a flowchart of the step S300, including the following steps:

s301, judging whether component information of each component is completely consistent;

s302, merging the components with completely consistent component information into one component and numbering the component.

Specifically, the condition that the two components are completely consistent is that all size information of the two components are completely consistent, and meanwhile, the reinforcement type, reinforcement related data, embedded part type and data of the two components are completely consistent, the two components are judged to be completely consistent, at the moment, the two components are merged and numbered, the number of the same components is represented in a statistical table in a digital mode, and therefore the number of deep drawings is reduced, and convenience is brought to an engineer for checking and engineering calculation.

Preferably, the method further comprises:

and numbering different components according to the component merging condition.

Namely, one serial number is used for the same component, only one component deepening graph is generated, and each different component has the unique serial number, so that engineering calculation and verification are facilitated.

S400, generating a component template drawing and a component reinforcement drawing of each different component and drawing a component information table.

Specifically, after the component information is obtained, a component template drawing and a component reinforcement drawing can be generated, wherein each size information of the component is marked in the component template drawing, and the component template drawing can have a plurality of different views, such as a front view and a left view, and the component reinforcement drawing reflects the position and the size information of the reinforcement of the component, so that an engineer can directly perform engineering calculation, verification and other work according to the drawing. The flowchart of step S400 is shown in fig. 4.

Please refer to fig. 4, which is a flowchart of the step S400, including the following steps:

s401, marking each size of the component into the component drawing according to the read component information of each different component, and generating a component template drawing;

s402, generating a component reinforcement map according to the read reinforcement positions and reinforcement information of the components;

and S403, generating a member information table according to the member template drawing, the member reinforcement drawing and the merged member, wherein the member information table at least comprises a steel bar lofting detail drawing, steel bar quantity statistics, embedded part types, embedded part models, embedded part quantity statistics, concrete volume statistics and concrete weight statistics.

Specifically, after the component information is obtained, all dimensions of the component can be integrated into the component drawing to generate a component template drawing, the component template drawing is a plane drawing marked with all dimensions of the component, meanwhile, the reinforcement position and the reinforcement information of the component can be generated into a component reinforcement drawing, so that a user can conveniently calculate the reinforcement.

Further, the method further comprises:

when the member drawings have truss rebars, detailed views of the truss rebars are also generated.

Specifically, since the structure of the truss steel bars is more complex and calculation is convenient for a user, if the member diagram has the truss steel bars, the system also automatically generates a detailed truss steel bar diagram, so that calculation by the user is further convenient.

Based on the method for automatically generating the deep drawing of the component, the invention further provides a device for automatically generating the deep drawing of the component, which comprises a processor 1 and a memory 2, and is shown in fig. 5. Fig. 5 shows only some of the components of the mobile terminal, but it is to be understood that not all of the shown components are required to be implemented, and that more or fewer components may be implemented instead.

The memory 2 may in some embodiments be an internal storage unit of the apparatus for automatically generating a deep drawing of the component, such as a memory of a mobile terminal. The memory 2 may also be an external storage device of the automatic deep drawing generation device of the component in other embodiments, for example, a plug-in usb disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like provided on the automatic deep drawing generation device of the component. Further, the memory 2 may also include both an internal storage unit and an external storage device of the mobile terminal. The memory 2 is used for storing application software installed in the mobile terminal and various data, such as a deep drawing automatic generation program code of the component. The memory 2 may also be used to temporarily store data that has been output or is to be output. In an embodiment, the memory 2 stores thereon an automatic deep drawing generation program for a component, which can be executed by the processor 1, thereby implementing the automatic deep drawing generation method for a component in the present invention.

The processor 1 may be a Central Processing Unit (CPU), a microprocessor, a mobile phone baseband processor or other data Processing chip in some embodiments, and is configured to run program codes stored in the memory 2 or process data, for example, execute a method for automatically generating a deep drawing of the component.

The present invention also provides a computer-readable storage medium storing one or more programs, which are executable by one or more processors (in this embodiment, the processor 1) to implement the steps in the method for automatically generating the depth map of the component according to the present invention.

In summary, in the method, the device and the storage medium for automatically generating the deepening drawing of the component provided by the invention, the method includes receiving a modified component layout drawing imported by a user, wherein the component layout drawing includes component drawings of a plurality of components, and component information is represented in the component drawings; reading component information in each component diagram according to a preset rule; merging the components with the same component information; and generating a component template drawing and a component reinforcement drawing of each different component and drawing a component information table. According to the invention, the component information is directly embodied in the component diagram, and then the component template diagram and the component reinforcement diagram are directly generated according to the component diagram, so that the component deepened diagram with the marked dimension information is directly generated from the input component diagram, and the user can conveniently carry out the work of material statistics, dimension checking, drawing verification, cost calculation and the like.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the scope of the appended claims.

Claims (3)

1. A method for automatically generating a deepening map of a component is characterized by comprising the following steps:

drawing a component layout according to a pre-designed drawing rule, and checking and auditing the component layout; wherein the component layout is a two-dimensional plan view;

receiving a modified component layout diagram imported by a user, wherein the component layout diagram comprises component diagrams of a plurality of components, and component information is represented in the component diagrams; the component is one of a laminated slab, a laminated beam, a prefabricated column, a prefabricated shear wall, a prefabricated external wall panel, a prefabricated staircase, a prefabricated balcony, a prefabricated air-conditioning panel and a prefabricated parapet;

reading component information in each component diagram according to a preset rule; the preset rule is the type of the steel bar corresponding to the width of the line, and the name of the embedded part corresponding to the image layer;

the component information at least comprises a component name, a component appearance size, reinforcement information, a reinforcement position, embedded part information, reinforcement extending length information and reinforcement extending direction information, wherein the reinforcement information comprises reinforcement diameter and reinforcement type, and the embedded part information comprises an embedded part name, an embedded part position and an embedded part model;

the step of reading the component information in each component diagram according to the preset rule specifically includes:

reading component names and component appearance sizes in each component diagram;

acquiring image layers, linearity and font color information in the component diagram, judging the names of embedded parts according to the image layers, judging the types and diameters of reinforcing bars according to the linearity, and judging the extending length information and the extending direction information of the reinforcing bars according to the font color;

acquiring size information of the embedded part and a component frame, size information of the reinforcing bars and the component frame and interval size information of the reinforcing bars according to the position of the embedded part and the reinforcing bar configuration in the component diagram;

merging the components with the same component information;

the step of merging components with the same component information comprises the following steps:

judging whether the component information of each component is completely consistent;

merging the components with completely consistent component information into one component and numbering the component;

generating a component template drawing and a component reinforcement drawing of each different component and drawing a component information table;

the step of generating the component template drawing and the component reinforcement drawing of each different component and drawing the component information table comprises the following steps:

marking the sizes of the components into the component drawing according to the read component information of the different components, and generating a component template drawing;

generating a component reinforcement map according to the read reinforcement positions and reinforcement information of the components;

generating a member information table according to the member template drawing, the member reinforcement drawing and the merged member, wherein the member information table at least comprises a steel bar lofting detail drawing, steel bar quantity statistics, embedded part types, embedded part models, embedded part quantity statistics, concrete volume statistics and concrete weight statistics;

when the member drawing has the truss steel bars, a detailed drawing of the truss steel bars is also generated;

wherein the component template map has a plurality of different views; the member reinforcement map reflects reinforcement position and size information of the member.

2. An automatic deep drawing generation device for a component, comprising a processor and a memory connected to the processor, wherein the memory stores a computer program, and the computer program is executed by the processor to realize the steps of the automatic deep drawing generation method for a component according to claim 1.

3. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, carries out the steps in the method for automatically generating a deepening map of a component according to claim 1.

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