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CN-122022272-A - Tire turning scheduling method and system for automatic production line and electronic equipment

CN122022272ACN 122022272 ACN122022272 ACN 122022272ACN-122022272-A

Abstract

The application discloses a tire turning scheduling method, a system and electronic equipment for an automatic production line, wherein the method comprises the steps of responding to a scheduling trigger instruction aiming at a target chassis order, acquiring tire order information of a tire order associated with the target chassis order; the method comprises the steps of determining a tire assembly configuration scheme of a target chassis order based on chassis order information, tire order information and a preset service rule library of the target chassis order, wherein the tire assembly configuration scheme comprises a tire distribution scheme and a tire turning configuration scheme, generating a tire production control instruction based on the tire assembly configuration scheme, and sending the tire production control instruction to a downstream automation production line so as to control the automation production line to execute tire processing and turning operations corresponding to the tire assembly configuration scheme. The application realizes the full-automatic decision of tire turning and scheduling, and improves the production efficiency and accuracy.

Inventors

  • ZHOU YI
  • ZHANG YU
  • GUO YAN
  • LI KE
  • LIU GANG

Assignees

  • 中科云谷科技有限公司

Dates

Publication Date
20260512
Application Date
20251231

Claims (10)

  1. 1. The tire turning scheduling method for the automatic production line is characterized by comprising the following steps of: Responding to a scheduling trigger instruction for a target chassis order, and acquiring tire order information of a tire order associated with the target chassis order; Determining a tire assembly configuration scheme of the target chassis order based on the chassis order information of the target chassis order, the tire order information and a preset service rule base, wherein the tire assembly configuration scheme comprises a tire allocation scheme and a tire turning configuration scheme; and generating a tire production control instruction based on the tire assembly configuration scheme, and sending the tire production control instruction to a downstream automatic production line to control the automatic production line to execute tire processing and turning operations corresponding to the tire assembly configuration scheme.
  2. 2. The tire turning scheduling method according to claim 1, wherein the chassis order information comprises a chassis order material number, and the preset service rule base comprises a special rule configuration table and a general scheduling rule; The determining a tire assembly configuration scheme of the target chassis order based on the chassis order information of the target chassis order, the tire order information and a preset service rule base comprises the following steps: Inquiring the special rule configuration table according to the chassis order material number, wherein a plurality of groups of special rules are maintained in the special rule configuration table in advance, and each group of special rules comprises a chassis order material number, a spare tire material number, a rear tire material number and a front tire material number; Generating the tire assembly configuration scheme according to the target special rule and the tire order information under the condition that the target special rule matched with the target chassis order exists in the special rule configuration table; and under the condition that the target special rule is not queried, generating the tire assembly configuration scheme according to the general scheduling rule by combining the chassis order information and the tire order information.
  3. 3. The tire turning scheduling method according to claim 2, wherein the generating the tire assembly configuration scheme according to the general scheduling rule in combination with the chassis order information and the tire order information includes: determining a required spare tire number based on the tire order information; Determining the total number of tires of the front axle position and the total number of tires of the rear axle position based on the chassis order information; Determining the tire allocation scheme according to a preset allocation priority rule based on the number of the required spare tires, the total number of the required front axle tires, the total number of the required rear axle tires and the number of the tire orders related to the target chassis order; Marking turning positions for rear axle tires in the tire allocation scheme according to a preset turning rule, and generating the tire turning allocation scheme.
  4. 4. A tire turning scheduling method according to claim 3, wherein said tire order information includes a tire order processing number; The determining the number of required spare tires based on the tire order information includes: And determining whether to allocate spare tires and the required number of spare tires according to the parity of the tire processing number.
  5. 5. A tire turning scheduling method according to claim 3, wherein said chassis order information comprises a chassis bridge type; The determining the total number of the front axle tires and the total number of the rear axle tires based on the chassis order information comprises the following steps: And determining the total number of the tires at the front axle position and the total number of the tires at the rear axle position, which correspond to the chassis bridge type, based on a preset mapping relation between the bridge type and the required number of the tires.
  6. 6. The tire turning scheduling method according to claim 3, wherein the preset allocation priority rule allocates a higher priority to the spare tire than to the rear axle tire, and the rear axle tire allocates a higher priority than to the front axle tire; The tire order information includes a tire order processing number, and the preset allocation priority rule further includes: when the number of tire orders associated with the target chassis order is plural, the rear axle tires are preferentially allocated from the tire orders having the larger number of tire processing.
  7. 7. The tire turning scheduling method according to claim 3, wherein the preset turning rule is to mark a turning operation for a target tire in a plurality of rear axle tires assigned to the same rear axle based on the relative position information of the rear axle tires.
  8. 8. An automated production line-oriented tire turning scheduling system, comprising: The data acquisition module is used for responding to a scheduling trigger instruction for a target chassis order and acquiring tire order information of a tire order associated with the target chassis order; The scheme determining module is used for determining a tire assembly configuration scheme of the target chassis order based on the chassis order information of the target chassis order, the tire order information and a preset service rule base, wherein the tire assembly configuration scheme comprises a tire distribution scheme and a tire turning configuration scheme; the instruction generation module is used for generating a tire production control instruction based on the tire assembly configuration scheme and sending the tire production control instruction to a downstream automatic production line so as to control the automatic production line to execute tire processing and turning operations corresponding to the tire assembly configuration scheme.
  9. 9. An electronic device, comprising: A memory configured to store instructions; a processor configured to call instructions from the memory and when executed enable the automated production line oriented tire turning scheduling method of any one of claims 1 to 7.
  10. 10. A machine-readable storage medium having instructions stored thereon for causing a machine to perform the automated production line oriented tire turning scheduling method of any one of claims 1 to 7.

Description

Tire turning scheduling method and system for automatic production line and electronic equipment Technical Field The application relates to the technical field of intelligent manufacturing, in particular to a tire turning scheduling method and system for an automatic production line and electronic equipment. Background In current automotive manufacturing plants, the assembly of tires is one of the key processes for the assembly of chassis. The tire needs to turn over on an automatic production line, namely the installation direction of the tire is adjusted to meet the specific assembly process requirement. The traditional tire turning scheduling mode mainly relies on manual experience, namely a workshop planner needs to manually review related technical data after receiving a chassis production order, determine tire order information corresponding to the chassis, and then manually calculate and compile a tire allocation scheme and turning rules according to information such as the type of a bridge of the chassis, the specification of the tire and the like. This process is not only time consuming and laborious, but also highly error-prone. With the expansion of production scale and the increase of product types, the corresponding relation between the chassis and the tire is increasingly complex, and particularly for the situations of multi-bridge special vehicles, mixed line production and the like, the manual scheduling is difficult to meet the high-efficiency and accurate production requirements. In the prior art, although some automatic dispatching systems exist, the automatic dispatching systems are limited to simple material handling or sequence control, and the intelligent recognition and automatic generation capability of the specific process requirement of the tire turning rule is lacking. In addition, dynamic changes such as vehicle type change, process adjustment and the like often occur in the production process, the traditional hard-coded scheduling system is difficult to quickly respond, program codes often need to be modified, and the system is high in maintenance cost and poor in flexibility. Therefore, the tire turning scheduling method in the prior art has the problem of low automation degree. Disclosure of Invention The embodiment of the application aims to provide a tire turning scheduling method, a system, electronic equipment and a machine-readable storage medium for an automatic production line, which are used for solving the problem of low automation degree of the tire turning scheduling method in the prior art. In order to achieve the above object, a first aspect of the present application provides a tire turning scheduling method for an automated production line, the tire turning scheduling method comprising: responding to a scheduling trigger instruction for a target chassis order, and acquiring tire order information of a tire order associated with the target chassis order; Determining a tire assembly configuration scheme of the target chassis order based on the chassis order information, the tire order information and a preset service rule base of the target chassis order, wherein the tire assembly configuration scheme comprises a tire allocation scheme and a tire turning configuration scheme; and generating a tire production control instruction based on the tire assembly configuration scheme, and sending the tire production control instruction to a downstream automation line to control the automation line to execute tire processing and turning operations corresponding to the tire assembly configuration scheme. In the embodiment of the application, the chassis order information comprises a chassis order material number, and the preset service rule base comprises a special rule configuration table and a general scheduling rule; Determining a tire assembly configuration scheme of the target chassis order based on the chassis order information, the tire order information and a preset service rule base of the target chassis order, wherein the tire assembly configuration scheme comprises the following steps: Inquiring a special rule configuration table according to the chassis order material number, wherein a plurality of groups of special rules are maintained in the special rule configuration table in advance, and each group of special rules comprises the chassis order material number, the spare tire material number, the rear tire material number and the front tire material number; generating a tire assembly configuration scheme according to the target special rule and the tire order information under the condition that the target special rule matched with the target chassis order exists in the special rule configuration table; And under the condition that the target special rule is not queried, combining chassis order information and tire order information according to the general scheduling rule to generate a tire assembly configuration scheme. In an embodiment of the present applic