Hollow glass equipment -- three methods for the design of two-component gluing machine:

(一)双组份打胶机机械体系规划办法

（1） Mechanical system planning method of two component gluing machine

机械体系规划足研究组成体系的各部分及其内在联系，从全体体系动身，建基本规划准则，辩证解决设汁问题的一种规划分法。体系规划办法的主要思维是在规划过程中强调体系内部和外部环境的联系，强调全体体系和分体系的联系，并以之贯穿干整个规划过程。在分解与综合中要考虑各分体系联络联系的强弱及其与全体体系相关的完整性。

Mechanical system planning is a kind of planning method that studies the parts and internal relations of the system, starts from the whole system, establishes the basic planning criteria and dialectically solves the design problem. The main thinking of the system planning method is to emphasize the connection between the internal and external environment of the system, the connection between all systems and subsystems, and to run through the whole planning process. In decomposition and synthesis, it is necessary to consider the strength of connection of each subsystem and the integrity related to the whole system.

(二)双组份打胶机优化规划办法

（2） Optimization planning method of two component gluing machine

优化规划办法是应用数学化原理解决实际问题的规划办法。针对规划使命，以结构更合理，工作性能，成本等为规划要求，在多种方案、多组参数、多种规划变量巾确认主要规划变量的取值，使之满足规划要求。在机械规划中，优化规划体现为更传规划方案的确认和规划参数的确认。

Optimization planning method is a planning method to solve practical problems by applying mathematical optimization principle. In view of the planning mission, the most reasonable structure, the best performance and the lowest cost are taken as the planning requirements. The value of the main planning variables is confirmed in a variety of schemes, groups of parameters and various planning variables to meet the optimal planning requirements. In the mechanical planning, the optimization planning is embodied in the confirmation of the best planning scheme and the confirmation of the best planning parameters.

进行双组份打胶机优化规划时，首要需要对具体的工程问题进行比较深化的了解，挑选优化核算办法，构造合适的数学模型，寻觅规划成果，找出规划参数。如减速器规划中，能够将资料更省和结构更紧凑作为规划方针。这样，在传动装置规划核算中.应该注意合理挑选热处理工，参数挑选时尽量使各部分的强度量合理。运用优化规划办法，能够加快规划过程、缩短规划周期，达到事半功倍的意图。

In the optimization planning of two-component gluing machine, it is necessary to understand the specific engineering problems, select the optimal accounting method, construct the appropriate mathematical model, search for the optimal planning results, and find out the optimal planning parameters. For example, in the planning of reducer, it can take the most economical data and the most compact structure as the planning guideline. In this way, in the planning and accounting of the transmission device, attention should be paid to the reasonable selection of heat treatment workers, and the strength of each part should be reasonable as far as possible during the parameter selection. Using optimization planning method can speed up the planning process, shorten the planning cycle, and achieve the purpose of twice the result with half the effort.

(三)双组份打胶机牢靠性规划

（3） Reliability planning of two-component beater

牢靠性是指体系在规则时刻内，在给定条件下完结规则功能的能力。产品的牢靠性需有一个定量的表述，但牢靠性的定量表述具有随机件，对任何产品来讲，在其牢靠工作与失效之间，都具有时刻上的不确认性;因而，关于不同类型的牢靠性问题，就需要不同的表述方式，常见的有牢靠度、无故障率、失效率、平均无故障时刻等。合理规划分配各部分的牢靠性指标，能够限度地发挥各部分的规划优势，保证产品在工作品质、技术标准和运用等文面达到高高质。

Reliability refers to the ability of the system to complete the rule function under given conditions in the rule time. There needs to be a quantitative expression of the product's reliability, but the quantitative expression of the product's reliability has random parts. For any product, there is uncertainty at any time between its reliable work and failure. Therefore, different expression methods are needed for different types of reliability problems, such as common reliability, failure free rate, failure efficiency, average failure free time, etc. Reasonable planning and distribution of the reliability index of each part can give full play to the planning advantages of each part and ensure the high quality of products in terms of work quality, technical standards and safe use.