CN111368371B - Ship insulation material statistics method and system, readable storage medium and terminal - Google Patents

Abstract

The invention discloses a ship insulation amount statistical method and system, a readable storage medium and a terminal, wherein an insulation amount configuration table is formulated according to basic attribute information of a ship to be counted; acquiring an insulating three-dimensional model of a ship to be counted, and reading node information of all insulating nodes; sequentially matching node information of all the insulation nodes with an insulation amount configuration table to obtain insulation order specification, accessory order specification and accessory order quantity of each insulation node; the method comprises the steps of obtaining surface geometric figure information of each insulation node in an insulation three-dimensional model, dividing the number of blocks according to the surface geometric figure information corresponding to the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node respectively, and obtaining an insulation object statistical result of a ship to be counted; and judging whether the insulation material quantity statistical result of the ship to be counted meets the preset condition. The invention ensures the accuracy and the uniqueness of the data, greatly reduces the repeated labor of designers and improves the design quality.

Description

Ship insulation material statistics method and system, readable storage medium and terminal

Technical Field

The invention relates to the technical field of ship construction, in particular to a method and a system for rapidly counting the specification of the quantity of ship insulation, a readable storage medium and a terminal.

Background

At present, based on importance on cabin environment and life safety, the application range of insulating materials in the ship industry is wider and wider, and the functional division is thinner and thinner, so that larger-scale workload is brought to statistics of the amount of insulating materials in the ship.

The insulation material statistics work is mainly divided into flat plate ribs and curved plate ribs, in the existing insulation material statistics, a designer generally needs to judge corresponding function types according to insulation material types, then the insulation installation types are determined by combining insulation layout analysis, then the insulation material quantity is manually calculated according to corresponding specifications, finally the insulation material quantity is used as a basis, and related accessory material quantity is manually calculated by combining installation node detailed diagrams.

The whole process of counting the number of the insulating blocks lacks a quick and effective means, wherein the statistics of the material quantity completely depends on manual calculation, and particularly, similar ship type fuzzy estimation is completely referred to according to personal experience when the statistics of the material quantity is performed on the insulation of the complex structure part of the ship body, so that the time for counting the insulating material quantity is longer, and the obtained statistics result and the actual material quantity have larger errors, thereby causing material shortage or waste and increasing the ship construction cost.

Disclosure of Invention

The invention aims to solve the technical problems that the existing ship insulation quantity statistical method completely relies on manual calculation, and a similar ship fuzzy estimation process is referred according to personal experience, so that the insulation quantity statistical work consumes longer time, and the obtained statistical result and the actual quantity can have larger errors.

In order to solve the technical problems, the invention provides a ship insulation mass statistics method, which comprises the following steps:

according to basic attribute information of the ship to be counted, an insulation material quantity configuration table is formulated;

acquiring an insulation three-dimensional model of the ship to be counted, and reading node information of all insulation nodes in the insulation three-dimensional model according to attribute information in the insulation material quantity configuration table;

sequentially matching the node information with the insulation amount configuration table to obtain insulation order specification, accessory order specification and accessory order quantity of each insulation node;

acquiring surface geometric figure information of each insulation node in the insulation three-dimensional model, dividing the number of blocks according to the surface geometric figure information corresponding to the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node respectively, acquiring an insulation material statistics result of each insulation node, and summarizing the insulation material statistics results of all the insulation nodes to form an insulation material statistics result of the ship to be counted;

judging whether the insulation material quantity statistical result of the ship to be counted meets preset conditions, if so, storing node information, insulation order specification, accessory order quantity and insulation material quantity statistical result of all the insulation nodes into a memory, otherwise, formulating an insulation material quantity configuration table again according to the basic attribute information of the ship to be counted.

Preferably, the insulation amount profile is formulated to include a content range profile, a fixed profile, and a calculation rule profile;

the content range configuration file comprises an insulating material function type, a material name, a material thickness, an installation type, an insulating order specification and a touch nail specification;

the fixed configuration file comprises insulation material corner selection rules;

the calculation rule configuration file comprises an insulation accessory glue calculation rule, an aluminum foil tape calculation rule and a glass fiber cloth calculation rule.

Preferably, matching the node information of the individual insulating nodes with the insulation amount configuration table to obtain the insulation order specification, the accessory order specification, and the accessory order number of the insulating nodes includes:

matching the node information of the insulated nodes with the content range configuration file in the insulation material quantity configuration table to determine the insulation order specification of the insulated nodes;

determining an attachment order specification and an attachment order quantity for the insulation node based on the insulation order specification and the fixed profile and the calculation rule profile in the insulation amount configuration table for the insulation node.

Preferably, the block number division is performed on the corresponding surface geometry information according to the insulation order specification, the accessory order specification and the accessory order number of the individual insulation nodes, and the obtaining of the insulation object statistics result of the insulation nodes includes:

based on the insulation order specification of the insulation node, performing block number segmentation on the corresponding surface geometric figure information according to a preset segmentation mode and the calculation rule configuration file to obtain the insulation block number of the insulation node;

and acquiring the edge insulation mass of the insulation node according to the fixed configuration file in the insulation mass configuration table, and taking the insulation mass and the edge insulation mass of the insulation node as the insulation mass statistical result of the insulation node.

Preferably, the preset dividing mode includes: dividing the ship length direction from the stern to the bow, and dividing the height direction from the ship top direction to the ship bottom direction; or the ship width direction is divided from the port side to the starboard side direction, and the height direction is divided from the ship top direction to the ship bottom direction; or the deck is divided from the stern to the bow, and the ship width direction is divided from the port to the starboard.

Preferably, the preset condition is: and selecting a preset number from all the insulation nodes as insulation nodes to be detected, wherein the insulation quality statistical results of all the insulation nodes to be detected meet preset sub-conditions.

Preferably, the preset sub-condition is: and the error value of the insulation material quantity statistical result of the insulation node to be detected and the corresponding artificial statistical result is smaller than a preset error value, wherein the preset error value is 10%.

In order to solve the technical problem, the invention also provides a ship insulation material quantity statistical device, which comprises an insulation material quantity configuration table making module, a node information obtaining module, an order specification obtaining module, an insulation material quantity statistical result obtaining module and a judging module;

the insulation amount configuration table making module is used for making an insulation amount configuration table according to basic attribute information of the ship to be counted;

the node information acquisition module is used for acquiring the insulated three-dimensional model of the ship to be counted and reading node information of all insulated nodes in the insulated three-dimensional model according to all attribute information in the insulated object quantity configuration table;

the order specification acquisition module is used for sequentially matching node information of all the insulation nodes with the insulation amount configuration table so as to acquire insulation order specification, accessory order specification and accessory order quantity of each insulation node;

the insulation material statistics result acquisition module is used for acquiring surface geometric figure information of each insulation node in the insulation three-dimensional model, dividing the number of blocks according to the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node, which correspond to the surface geometric figure information respectively, acquiring insulation material statistics results of each insulation node, and summarizing the insulation material statistics results of all the insulation nodes to form insulation material statistics results of the ship to be counted;

the judging module is used for judging whether the insulation material quantity statistical result of the ship to be counted meets preset conditions, if so, storing node information, insulation order specification, accessory order quantity and insulation material quantity statistical result of all the insulation nodes into a memory, otherwise, preparing an insulation material quantity configuration table according to basic attribute information of the ship to be counted again.

In order to solve the above technical problem, the present invention also provides a readable storage medium having stored thereon a computer program which when executed by a processor implements the marine vessel insulation statistics method.

In order to solve the technical problem, the present invention further provides a terminal, including: the device comprises a processor and a memory, wherein the memory is in communication connection with the processor;

the memory is used for storing a computer program, and the processor is used for executing the computer program stored in the memory so as to enable the terminal to execute a ship insulation statistics method.

One or more embodiments of the above-described solution may have the following advantages or benefits compared to the prior art:

by applying the ship insulation material quantity statistical method provided by the embodiment of the invention, the insulation material quantity-free configuration table is used as a guide, and the insulation three-dimensional model is used as a unique design data acquisition source, so that the accuracy and the uniqueness of statistical basic data are ensured; the method comprises the steps of obtaining a standard unified ordering specification by matching all node information with an insulation non-material quantity configuration table, so as to solve the problems of large errors between a statistical result and actual existence caused by fuzzy estimation in the existing purely manual ship insulation material quantity statistics; cutting the surface geometric figure information of the insulation three-dimensional model based on the ordering specification and the configuration file in the insulation non-material configuration table, so that repeated labor of designers is greatly reduced, and the design quality is improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention, without limitation to the invention. In the drawings:

FIG. 1 is a schematic flow chart of a ship insulation statistics method according to an embodiment of the invention;

fig. 2 shows a schematic structural diagram of a marine insulation statistics device according to a second embodiment of the present invention;

fig. 3 shows a schematic structural diagram of a fourth terminal according to an embodiment of the present invention.

Detailed Description

The following will describe embodiments of the present invention in detail with reference to the drawings and examples, thereby solving the technical problems by applying technical means to the present invention, and realizing the technical effects can be fully understood and implemented accordingly. It should be noted that, as long as no conflict is formed, each embodiment of the present invention and each feature of each embodiment may be combined with each other, and the formed technical solutions are all within the protection scope of the present invention.

Most of the existing ship insulation amount statistics methods still need to rely on manual calculation, the calculation methods not only waste manpower and material resources and have longer statistics period, but also have subjective errors, for example, similar ship type fuzzy estimation is completely referred to according to personal experience when insulation is performed on a complex structure part of a ship body for carrying out insulation, so that the insulation amount statistics work is long, and the obtained statistics result and the actual amount can have larger errors, thereby causing material shortage or waste and increasing the ship construction cost.

Example 1

In order to solve the technical problems in the prior art, the embodiment of the invention provides a ship insulation mass statistics method.

FIG. 1 is a schematic flow chart of a ship insulation statistics method according to an embodiment of the invention; referring to fig. 1, the marine insulation statistics method according to the embodiment of the invention includes the following steps.

Step S101, an insulation amount configuration table is formulated according to basic attribute information of ships to be counted.

Specifically, a corresponding insulation amount configuration table is firstly made according to basic attribute information of a ship to be counted, wherein the basic attribute information of the ship to be counted comprises insulation material functions, material names, material thicknesses, coating layers, installation types, a reinforcing material web height critical value, insulation order specifications, nail collision specifications and the like. The basic attribute information of the ship to be counted is set into a configuration table template one by one to form an insulation amount configuration table, wherein the basic attribute information of the ship to be counted can be stored in a Word or Excel table, the Word or Excel table can be directly imported into an identification system when the insulation amount configuration table is formulated, identification formats are respectively set for the attribute information in the Word or Excel table, for example, identification items of material names and insulation material functions are set into Chinese, identification items of material thickness and insulation specifications are set into numbers, and identification items of installation types are set into letters. The insulation amount configuration table is formulated to comprise a content range configuration file, a fixed configuration file and a calculation rule configuration file, wherein the content range configuration file is formulated to comprise attribute information such as an insulation material function type, a material name, a material thickness, an installation type, an insulation order specification, a touch nail specification and the like; formulating rules for selecting corners of insulating materials in the fixed configuration file; the calculation rule configuration file comprises calculation rules of insulation accessory glue, aluminum foil tape, glass fiber cloth and the like. The preparation of the insulation amount configuration table is used for subsequent matching with node information and segmentation of surface geometry information.

Step S102, an insulation three-dimensional model of the ship to be counted is obtained, and node information of all insulation nodes in the insulation three-dimensional model is read according to all attribute information in the insulation material quantity configuration table.

Specifically, firstly, an integral three-dimensional model of the ship to be counted is obtained, then, an insulation three-dimensional model of the ship to be counted is obtained based on the integral three-dimensional model of the ship to be counted, and then, node attribute information of all insulation nodes in the insulation three-dimensional model of the ship to be counted is read according to all attribute information in an insulation object quantity configuration table. For example, the content range configuration file of the insulation material quantity configuration table includes attribute information such as an insulation material function type, a material name, a material thickness, an installation type, an insulation order specification, a touch nail specification and the like, and the read node information of the insulation node in the insulation three-dimensional model needs to include node attribute information such as the insulation material function type, the material name, the material thickness, the installation type, the insulation order specification, the touch nail specification and the like.

Step S103, sequentially matching the node information of all the insulation nodes with the insulation amount configuration table to obtain the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node.

Specifically, the matching process of the node information of all the insulation nodes and the insulation amount configuration table is sequentially performed, and the insulation order specification, the accessory order specification and the accessory order number of each insulation node are sequentially obtained respectively. Since the node information of each insulating node is the same as the matching process of the insulation amount configuration table, the matching process of the node information of a single insulating node and the insulation amount configuration table will be described in detail below as an example. Specifically, the material names and the material thicknesses in the node information of the insulating nodes are respectively matched with the content range configuration files in the insulation material quantity configuration table, and the function types of the insulating materials of the insulating nodes are obtained; acquiring an insulation order specification of the insulation node in a content range configuration file in an insulation material quantity configuration table according to a node name identifier and an insulation material function type in node information of the insulation node; and then determining the accessory order specification and the accessory order quantity of the insulation nodes according to the insulation function type of the insulation nodes, the installation type of the insulation nodes, the insulation order specification of the insulation nodes and the fixed configuration file and the calculation rule configuration file in the insulation quantity configuration table. The insulation order specification, the accessory order specification and the accessory order quantity of all the insulation nodes are obtained in the mode. Preferably, the insulating function type is generally classified into fire prevention, sound insulation and heat insulation, and the insulating installation type, the nail bumping specification and the number are limited according to the obtained insulating function. Preferably, the insulating node name identifier is divided into four types of plate frame insulation P, plate frame insulation extension PY, angle steel, flat bulb steel and other stiffening material insulation S, T section insulation T according to the installation type of the insulating node name identifier, and the insulating node name identifier is used for limiting the insulation specification.

Step S104, surface geometric figure information of each insulation node in the insulation three-dimensional model is obtained, block number segmentation is carried out according to the surface geometric figure information corresponding to the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node respectively, insulation material statistics results of each insulation node are obtained, and the insulation material statistics results of all insulation nodes are summarized to form insulation material statistics results of ships to be counted.

Specifically, the method comprises the steps of respectively obtaining the surface several graphic information of all insulation nodes in an insulation three-dimensional model of a ship to be counted, and then respectively dividing the corresponding surface geometric graphic information according to the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node so as to obtain the insulation quality counting result of each insulation node. The process of dividing the number of blocks according to the surface geometry information corresponding to the insulation order specification, the accessory order specification and the accessory order number of each insulation node is the same, so the process of obtaining the insulation statistics result of the insulation node by dividing the number of blocks according to the insulation order specification, the accessory order specification and the accessory order number of a single insulation node will be described in detail below. Firstly, based on insulation order specification of insulation nodes, performing block number segmentation on corresponding surface geometric figure information according to a preset segmentation mode and a calculation rule configuration file in an insulation amount configuration table so as to obtain the insulation block number of the insulation nodes; and then obtaining the edge insulation mass of the insulation node according to the rule of selecting and rejecting the corners of the insulation materials in the fixed configuration file in the insulation mass configuration table, and taking the obtained insulation mass and the obtained edge insulation mass of the insulation node as the insulation mass statistical result of the insulation node. The preset segmentation mode comprises the following steps: dividing the ship length direction from the stern to the bow, and dividing the height direction from the ship top direction to the ship bottom direction; or the ship width direction is divided from the port side to the starboard side direction, and the height direction is divided from the ship top direction to the ship bottom direction; or the deck is divided from the stern to the bow, and the ship width direction is divided from the port to the starboard. The specific selection of the preset division mode is selected through a plurality of graphic information types on the specific surface of each insulation node, for example, if the insulation node is a deck, the insulation node is required to be divided from the stern to the bow according to the deck, and the ship width direction is divided from the port to the starboard. And obtaining the insulation material statistics results of all the insulation nodes in the above mode. And finally, summarizing the insulation material statistics results of all the insulation nodes to form insulation material statistics results of the ship to be counted.

Step S105, judging whether the insulation statistics result of the ship to be counted meets the preset conditions, and if yes, turning to step S106; otherwise, go to step S101.

Specifically, after the insulation statistics result of the ship to be counted is obtained, the insulation statistics result is required to be judged so as to ensure that the obtained insulation statistics result of the ship to be counted is qualified. Further, judging whether the statistical result of the insulation amount of the ship to be counted meets the preset condition, if yes, turning to step S106, otherwise turning to step S101, namely, formulating an insulation amount configuration table again according to the basic attribute information of the ship to be counted. When the insulation amount configuration table is newly formulated, a designer may correspondingly adjust the installation type and the like in the original insulation amount configuration table according to actual conditions to obtain a new insulation amount configuration table, and then sequentially continue to execute subsequent steps.

Further, in this embodiment, the criterion for judging whether the statistical result of the insulation material of the ship to be counted is qualified is to compare the statistical result with the error value of the artificial statistical result, but if the statistical result of the insulation material of all the insulation nodes in the ship to be counted is compared with the artificial statistical result, the initial intention of repeated labor of the designer is obviously overcome. The preset conditions set in this embodiment are: selecting a preset number from all the insulation nodes as insulation nodes to be detected, wherein the insulation quality statistical results of all the insulation nodes to be detected meet preset sub-conditions; the further set preset conditions are: the error value of the insulation material quantity statistical result of the insulation node to be detected and the corresponding artificial statistical result is smaller than a preset error value, wherein the preset error value is 10%.

And step S106, sequentially storing the node information, the insulation order specification, the accessory order quantity and the insulation quantity statistical result of all the insulation nodes obtained in the step S into a memory, so that a user can extract the insulation quantity statistical result of the needed insulation nodes into a needed form.

According to the ship insulation material quantity statistical method provided by the embodiment of the invention, the insulation material quantity-free configuration table is used as a guide, and the insulation three-dimensional model is used as a unique design data acquisition source, so that the accuracy and uniqueness of statistical basic data are ensured; the method comprises the steps of obtaining a standard unified ordering specification by matching all node information with an insulation non-material quantity configuration table, so as to solve the problems of large errors between a statistical result and actual existence caused by fuzzy estimation in the existing purely manual ship insulation material quantity statistics; cutting the surface geometric figure information of the insulation three-dimensional model based on the ordering specification and the configuration file in the insulation non-material configuration table, so that repeated labor of designers is greatly reduced, and the design quality is improved.

Example two

In order to solve the technical problems in the prior art, the embodiment of the invention provides a ship insulation mass statistics device.

Fig. 2 shows a schematic structural diagram of a marine insulation statistics device according to a second embodiment of the present invention; referring to fig. 2, the ship insulation statistics device according to the embodiment of the invention includes an insulation configuration table making module, a node information obtaining module, an order specification obtaining module, an insulation statistics result obtaining module and a judging module.

The insulation material quantity configuration table making module is used for making an insulation material quantity configuration table according to basic attribute information of the ship to be counted;

the node information acquisition module is used for acquiring an insulation three-dimensional model of the ship to be counted, and reading node information of all insulation nodes in the insulation three-dimensional model by referring to all attribute information in the insulation object quantity configuration table;

the order specification acquisition module is used for sequentially matching the node information of all the insulation nodes with the insulation amount configuration table so as to acquire the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node;

the insulation material statistics result acquisition module is used for acquiring surface geometric figure information of each insulation node in the insulation three-dimensional model, dividing the corresponding surface geometric figure information according to the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node to acquire insulation material statistics results of each insulation node, and summarizing the insulation material statistics results of all insulation nodes to form insulation material statistics results of a ship to be counted;

the judging module is used for judging whether the insulation material quantity statistical result of the ship to be counted accords with preset conditions, if so, node information, insulation order specification, accessory order quantity and insulation material quantity statistical result of all insulation nodes are stored in the memory, otherwise, an insulation material quantity configuration table is formulated again according to basic attribute information of the ship to be counted.

According to the ship insulation material quantity statistics device provided by the embodiment of the invention, the insulation non-material quantity configuration table is used as a guide, and the insulation three-dimensional model is used as a unique design data acquisition source, so that the accuracy and uniqueness of statistics basic data are ensured; the method comprises the steps of obtaining a standard unified ordering specification by matching all node information with an insulation non-material quantity configuration table, so as to solve the problems of large errors between a statistical result and actual existence caused by fuzzy estimation in the existing purely manual ship insulation material quantity statistics; cutting the surface geometric figure information of the insulation three-dimensional model based on the ordering specification and the configuration file in the insulation non-material configuration table, so that repeated labor of designers is greatly reduced, and the design quality is improved.

Example III

To solve the above-mentioned technical problems in the prior art, an embodiment of the present invention further provides a readable storage medium storing a computer program, where the computer program when executed by a processor can implement all the steps in the ship insulation statistics method in the first embodiment.

The specific steps of the ship insulation statistics method and the beneficial effects obtained by applying the readable storage medium provided by the embodiment of the invention are the same as those of the first embodiment, and are not described in detail herein.

It should be noted that: the readable storage medium includes: various media that can store program code, such as ROM, RAM, magnetic or optical disks.

Example IV

In order to solve the technical problems in the prior art, the embodiment of the invention also provides a terminal.

Fig. 3 is a schematic diagram of a fourth terminal structure according to an embodiment of the present invention, and referring to fig. 3, the terminal of the present embodiment includes a processor and a memory that are connected to each other; the memory is used for storing a computer program, and the processor is used for executing the computer program stored in the memory, so that the terminal can realize all the steps in the ship insulation statistics method in the first embodiment when executing the computer program.

The specific steps of the ship insulation statistics method and the beneficial effects obtained by the terminal provided by the embodiment of the invention are the same as those of the first embodiment, and are not repeated here.

It should be noted that the memory may include a random access memory (Random Access Memory, abbreviated as RAM) and may further include a non-volatile memory (non-volatile memory), such as at least one magnetic disk memory. The same processor may be a general processor, including a central processing unit (Central Processing Unit, CPU for short), a network processor (Network Processor, NP for short), etc.; but also digital signal processors (Digital Signal Processing, DSP for short), application specific integrated circuits (Application Specific Integrated Circuit, ASIC for short), field programmable gate arrays (Field Programmable Gate Array, FPGA for short) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components.

Although the embodiments of the present invention are disclosed above, the embodiments are only used for the convenience of understanding the present invention, and are not intended to limit the present invention. Any person skilled in the art can make any modification and variation in form and detail without departing from the spirit and scope of the present disclosure, but the scope of the present disclosure is still subject to the scope of the present disclosure as defined by the appended claims.

Claims (10)

1. A marine insulation statistics method, comprising:

according to basic attribute information of the ship to be counted, an insulation material quantity configuration table is formulated;

acquiring an insulation three-dimensional model of the ship to be counted, and reading node information of all insulation nodes in the insulation three-dimensional model according to attribute information in the insulation material quantity configuration table;

sequentially matching the node information with the insulation amount configuration table to obtain insulation order specification, accessory order specification and accessory order quantity of each insulation node;

acquiring surface geometric figure information of each insulation node in the insulation three-dimensional model, dividing the number of blocks according to the surface geometric figure information corresponding to the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node respectively, acquiring an insulation material statistics result of each insulation node, and summarizing the insulation material statistics results of all the insulation nodes to form an insulation material statistics result of the ship to be counted;

judging whether the insulation material quantity statistical result of the ship to be counted accords with a preset condition, if so, storing node information, insulation order specification, accessory order quantity and insulation material quantity statistical result of all the insulation nodes into a memory, otherwise, preparing an insulation material quantity configuration table again according to basic attribute information of the ship to be counted;

the block number division of the corresponding surface geometric figure information according to the insulation order specification, the accessory order specification and the accessory order quantity of the insulation node comprises the following steps:

based on the insulation order specification of the insulation node, performing block number segmentation on the corresponding surface geometric figure information according to a preset segmentation mode and a calculation rule configuration file in an insulation mass configuration table so as to obtain the insulation block number mass of the insulation node; and then obtaining the edge insulation mass of the insulation node according to the rule of selecting and rejecting the corners of the insulation materials in the fixed configuration file in the insulation mass configuration table, and taking the obtained insulation mass and the obtained edge insulation mass of the insulation node as the insulation mass statistical result of the insulation node, wherein the preset segmentation mode comprises the following steps: dividing the ship length direction from the stern to the bow, and dividing the height direction from the ship top direction to the ship bottom direction; or the ship width direction is divided from the port side to the starboard side direction, and the height direction is divided from the ship top direction to the ship bottom direction; or the deck is divided from the stern to the bow, and the ship width direction is divided from the port to the starboard.

2. The statistical method of claim 1, wherein the insulation amount configuration table comprises: content scope configuration files, fixed configuration files, and calculation rule configuration files;

the content range configuration file comprises an insulating material function type, a material name, a material thickness, an installation type, an insulating order specification and a touch nail specification;

the fixed configuration file comprises insulation material corner selection rules;

the calculation rule configuration file comprises an insulation accessory glue calculation rule, an aluminum foil tape calculation rule and a glass fiber cloth calculation rule.

3. The statistical method of claim 2, wherein matching the node information of the individual insulated nodes with the insulation quantity configuration table to obtain insulation order specifications, accessory order specifications, and accessory order quantity of the insulated nodes comprises:

matching the node information of the insulated nodes with the content range configuration file in the insulation material quantity configuration table, and determining the insulation order specification of the insulated nodes;

determining an attachment order specification and an attachment order quantity for the insulation node based on the insulation order specification and the fixed profile and the calculation rule profile in the insulation amount configuration table for the insulation node.

4. The statistical method of claim 2, wherein the block number segmentation is performed on the corresponding surface geometry information according to the insulation order specification, the accessory order specification and the accessory order number of the individual insulation nodes, and the obtaining the insulation quality statistical result of the insulation nodes comprises:

based on the insulation order specification of the insulation node, performing block number segmentation on the corresponding surface geometric figure information according to a preset segmentation mode and the calculation rule configuration file to obtain the insulation block number of the insulation node;

and acquiring the edge insulation mass of the insulation node according to the fixed configuration file in the insulation mass configuration table, and taking the insulation mass and the edge insulation mass of the insulation node as the insulation mass statistical result of the insulation node.

5. The statistical method of claim 4, wherein the preset segmentation method comprises: dividing the ship length direction from the stern to the bow, and dividing the height direction from the ship top direction to the ship bottom direction; or the ship width direction is divided from the port side to the starboard side direction, and the height direction is divided from the ship top direction to the ship bottom direction; or the deck is divided from the stern to the bow, and the ship width direction is divided from the port to the starboard.

6. The statistical method according to claim 1, wherein the preset condition is: and selecting a preset number from all the insulation nodes as insulation nodes to be detected, wherein the insulation quality statistical results of all the insulation nodes to be detected meet preset sub-conditions.

7. The statistical method of claim 6, wherein the preset sub-conditions are: and the error value of the insulation material quantity statistical result of the insulation node to be detected and the corresponding artificial statistical result is smaller than a preset error value, wherein the preset error value is 10%.

8. The ship insulation material quantity statistical device is characterized by comprising an insulation material quantity configuration table making module, a node information obtaining module, an order specification obtaining module, an insulation material quantity statistical result obtaining module and a judging module;

the insulation amount configuration table making module is used for making an insulation amount configuration table according to basic attribute information of the ship to be counted;

the node information acquisition module is used for acquiring the insulated three-dimensional model of the ship to be counted and reading node information of all insulated nodes in the insulated three-dimensional model according to all attribute information in the insulated object quantity configuration table;

the order specification acquisition module is used for sequentially matching node information of all the insulation nodes with the insulation amount configuration table so as to acquire insulation order specification, accessory order specification and accessory order quantity of each insulation node;

the insulation material statistics result acquisition module is used for acquiring surface geometry figure information of each insulation node in the insulation three-dimensional model, dividing the number of blocks according to the insulation order specification, the accessory order specification and the accessory order quantity of each insulation node, which correspond to the surface geometry figure information respectively, so as to acquire insulation material statistics results of each insulation node, and summarizing the insulation material statistics results of all the insulation nodes to form insulation material statistics results of the ship to be counted;

the judging module is used for judging whether the insulation material quantity statistical result of the ship to be counted accords with preset conditions, if so, storing node information, insulation order specification, accessory order quantity and insulation material quantity statistical result of all the insulation nodes into a memory, otherwise, preparing an insulation material quantity configuration table according to basic attribute information of the ship to be counted again;

the block number division of the corresponding surface geometric figure information according to the insulation order specification, the accessory order specification and the accessory order quantity of the insulation node comprises the following steps:

based on the insulation order specification of the insulation node, performing block number segmentation on the corresponding surface geometric figure information according to a preset segmentation mode and a calculation rule configuration file in an insulation mass configuration table so as to obtain the insulation block number mass of the insulation node; and then obtaining the edge insulation mass of the insulation node according to the rule of selecting and rejecting the corners of the insulation materials in the fixed configuration file in the insulation mass configuration table, and taking the obtained insulation mass and the obtained edge insulation mass of the insulation node as the insulation mass statistical result of the insulation node, wherein the preset segmentation mode comprises the following steps: dividing the ship length direction from the stern to the bow, and dividing the height direction from the ship top direction to the ship bottom direction; or the ship width direction is divided from the port side to the starboard side direction, and the height direction is divided from the ship top direction to the ship bottom direction; or the deck is divided from the stern to the bow, and the ship width direction is divided from the port to the starboard.

9. A readable storage medium, on which a computer program is stored, characterized in that the program, when being executed by a processor, implements the ship insulation statistics method as claimed in any one of claims 1 to 7.

10. A terminal, comprising: the device comprises a processor and a memory, wherein the memory is in communication connection with the processor;

the memory is used for storing a computer program, and the processor is used for executing the computer program stored in the memory, so that the terminal executes the ship insulation statistics method according to any one of claims 1 to 7.

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