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CN-122015734-A - Method and device for checking and optimizing allowance bent pipe, electronic equipment and medium

CN122015734ACN 122015734 ACN122015734 ACN 122015734ACN-122015734-A

Abstract

The application discloses a method, a device, electronic equipment and a medium for checking and optimizing a residual bent pipe, wherein the method comprises the steps of acquiring bent pipe checking information through a pre-designed bent pipe checking and counting tool, wherein the bent pipe checking information comprises a residual bent pipe and an un-residual bent pipe, screening the residual bent pipe from the bent pipe checking information through a bent pipe residual header configured in the bent pipe checking and counting tool, and optimizing the residual bent pipe through a bent pipe residual optimizing model to optimize the residual bent pipe into a corresponding un-residual bent pipe. The embodiment of the application can effectively avoid the problem of residual waste generated during manufacturing the assembly pipe, does not need to spend more time for cutting the waste, reduces the residual output of the bent pipe, and can effectively save the material and the cost of workers and improve the productivity of the bent pipe without the residual.

Inventors

  • Yu Guiguang
  • ZHANG CHENGLONG
  • LIANG SHA

Assignees

  • 广船国际有限公司

Dates

Publication Date
20260512
Application Date
20260121

Claims (10)

  1. 1. A method for inspecting and optimizing a marginally curved tube, the method comprising: Obtaining bend pipe inspection information through a pre-designed bend pipe inspection and statistics tool, wherein the bend pipe inspection information comprises a surplus bend pipe and a non-surplus bend pipe; Screening the pipe bending checking information to obtain the pipe bending with allowance through the pipe bending allowance title configured in the pipe bending checking and counting tool; and optimizing the rest bent pipe through a bent pipe rest optimization model so as to optimize the rest bent pipe into a corresponding non-rest bent pipe.
  2. 2. The method of claim 1, wherein the screening the excess bend from the bend inspection information by the bend excess bend header configured in the bend inspection and statistics tool comprises: Responding to the triggering operation of a title display control in the pipe bending inspection and statistics tool, displaying a pipe bending allowance title corresponding to the pipe bending inspection information, wherein the pipe bending allowance title is used for describing a pipe bending allowance state, the pipe bending allowance state is allowance or non-allowance, the screened display pipe bending is the pipe bending with allowance when the pipe bending allowance state is allowance, and the screened display pipe bending is the pipe bending without allowance when the pipe bending allowance state is non-allowance; and responding to the selected operation of the pipe bending allowance title corresponding to the allowance, and screening the pipe bending allowance checking information to obtain the pipe bending with allowance.
  3. 3. The method of claim 1, wherein before optimizing the marginally curved tube by a curved tube margin optimization model, further comprising: And displaying the pipe section area of the pipe bending model corresponding to the pipe bending with allowance on the pipe bending allowance parameter of the pipe bending with allowance.
  4. 4. The method of claim 1, wherein the excess bend comprises a plurality of bends to be optimized, wherein optimizing the excess bend by a bend excess optimization model comprises: acquiring head end allowance parameters and tail end allowance parameters corresponding to the bent pipe to be optimized from the bent pipe inspection information; determining a target optimized bent pipe from a plurality of bent pipes to be optimized according to the head end allowance parameter and the tail end allowance parameter corresponding to each bent pipe to be optimized; optimizing the target optimized elbow through an elbow allowance optimization model so as to optimize the target optimized elbow into a non-allowance elbow preferentially.
  5. 5. The method according to claim 1, wherein the method further comprises: Responding to the selected operation of the pipe bending allowance title corresponding to the pipe bending allowance without allowance, screening the pipe bending allowance checking information to obtain the pipe bending without allowance; Determining the quantity ratio of the non-allowance bent pipes according to the quantity of the bent pipes of the non-allowance bent pipes and the total bent pipe quantity of all the bent pipes in the bent pipe inspection information, and evaluating the optimization degree of the non-allowance bent pipes according to the quantity ratio of the non-allowance bent pipes.
  6. 6. The method according to claim 1, wherein the method further comprises: And if the pipe bending detection information is detected to have the pipe bending without the pipe number, generating a pipe number abnormal alarm to prompt the pipe bending model correction of the pipe bending without the pipe number.
  7. 7. The method according to claim 1, wherein the method further comprises: and in the running process of the pipe bending inspection and statistics tool, responding to the triggering operation of a tool description control in the pipe bending inspection and statistics tool, and displaying a tool description corresponding to the pipe bending inspection and statistics tool in a corresponding area of a current interface.
  8. 8. A device for inspecting and optimizing a pipe bend with a margin, the device comprising: The acquisition module is used for acquiring bend pipe inspection information through a predesigned bend pipe inspection and statistics tool, wherein the bend pipe inspection information comprises a surplus bend pipe and a non-surplus bend pipe; the screening module is used for screening the pipe bending allowance titles configured in the pipe bending checking and counting tool from the pipe bending checking information to obtain the pipe bending with allowance; And the optimizing module is used for optimizing the rest bent pipe through the bent pipe rest optimizing model so as to optimize the rest bent pipe into a corresponding non-rest bent pipe.
  9. 9. An electronic device, comprising: one or more processors; A memory for storing one or more programs, When the one or more programs are executed by the one or more processors, the one or more processors are caused to implement the method of marginally curved tube inspection and optimization as claimed in any one of claims 1 to 7.
  10. 10. A storage medium having stored thereon a computer program, which when executed by a processor implements the method of checking and optimizing a pipe bend with margin according to any one of claims 1 to 7.

Description

Method and device for checking and optimizing allowance bent pipe, electronic equipment and medium Technical Field The embodiment of the application relates to the technical field of industrial equipment optimization, in particular to a method and a device for checking and optimizing a balance bent pipe, electronic equipment and a medium. Background The optimization of the allowance bent pipe can effectively reduce the allowance bent pipe rate of the ship production, thereby reducing the pipe waste, saving the material cost and the labor cost of allowance cutting, and achieving the cost reduction and synergy of the ship manufacturing. In carrying out the present application, the applicant has found that at least the following problems exist in the prior art: In the prior art, the process of laying out the pipeline is mainly based on the experience of a designer to manually check and optimize the pipe with the allowance to the pipe without the allowance. However, the lack of means for efficiently inspecting the excess bend in this process often results in the omission of many excess bends that can be optimized to be non-excess bends, resulting in excess scrap when making the assembly line, and also requiring more time for scrap cutting, which increases material and worker costs due to the unavailability of excess. Disclosure of Invention The application provides a method, a device, electronic equipment and a medium for checking and optimizing a balance-free bent pipe, which can effectively save materials and labor cost and improve the productivity of the balance-free bent pipe. In a first aspect, an embodiment of the present application provides a method for inspecting and optimizing a pipe with allowance, the method including: Obtaining bend pipe inspection information through a pre-designed bend pipe inspection and statistics tool, wherein the bend pipe inspection information comprises a surplus bend pipe and a non-surplus bend pipe; Screening the pipe bending checking information to obtain the pipe bending with allowance through the pipe bending allowance title configured in the pipe bending checking and counting tool; and optimizing the rest bent pipe through a bent pipe rest optimization model so as to optimize the rest bent pipe into a corresponding non-rest bent pipe. Preferably, the step of screening the pipe bending with allowance from the pipe bending inspection information by using the pipe bending allowance header configured in the pipe bending inspection and statistics tool includes: Responding to the triggering operation of a title display control in the pipe bending inspection and statistics tool, displaying a pipe bending allowance title corresponding to the pipe bending inspection information, wherein the pipe bending allowance title is used for describing a pipe bending allowance state, the pipe bending allowance state is allowance or non-allowance, the screened display pipe bending is the pipe bending with allowance when the pipe bending allowance state is allowance, and the screened display pipe bending is the pipe bending without allowance when the pipe bending allowance state is non-allowance; and responding to the selected operation of the pipe bending allowance title corresponding to the allowance, and screening the pipe bending allowance checking information to obtain the pipe bending with allowance. Preferably, before the optimizing the pipe with the allowance by the pipe allowance optimizing model, the method further comprises: And displaying the pipe section area of the pipe bending model corresponding to the pipe bending with allowance on the pipe bending allowance parameter of the pipe bending with allowance. Preferably, the pipe bending with allowance comprises a plurality of pipe bending to be optimized, and the optimizing the pipe bending with allowance by the pipe bending allowance optimizing model comprises the following steps: acquiring head end allowance parameters and tail end allowance parameters corresponding to the bent pipe to be optimized from the bent pipe inspection information; determining a target optimized bent pipe from a plurality of bent pipes to be optimized according to the head end allowance parameter and the tail end allowance parameter corresponding to each bent pipe to be optimized; optimizing the target optimized elbow through an elbow allowance optimization model so as to optimize the target optimized elbow into a non-allowance elbow preferentially. Preferably, the method further comprises: Responding to the selected operation of the pipe bending allowance title corresponding to the pipe bending allowance without allowance, screening the pipe bending allowance checking information to obtain the pipe bending without allowance; Determining the quantity ratio of the non-allowance bent pipes according to the quantity of the bent pipes of the non-allowance bent pipes and the total bent pipe quantity of all the bent pipes in the bent pipe inspection inform