Stone machinery is a widely used equipment in the industry, favored by customers. Tool is an important part of stone machinery, shoulder the stone cutting. So for stone machinery, how to choose the tool? We analyze the instructions for you.
Tool selection to consider many problems, there are many principles accordingly, such as efficiency principle, machining accuracy principle, stability principle, economic principle and so on. Let's start with the efficiency principle. The efficiency principle is inseparable from other principles, especially the economic principle. The main purpose of requiring efficiency is to ensure the economy of the whole processing. But efficiency is especially important, so let's talk about it separately.
The principle of efficiency firstly refers to the efficiency under the premise of ensuring acceptable machining accuracy and acceptable stability. Without this basic condition, efficiency is impossible. Just as we wish our means of transportation (such as cars) could give us faster speeds, safety is important. In the event of a plane crash, many people think twice about sticking to their planes, and airlines review existing safety policies. Without safety, an airplane would not be a means of transportation. The same goes for tool selection.
Secondly, we do not emphasize efficiency in all conditions. There are some constraints on the pursuit of efficiency. The improvement of the processing efficiency of a part needs to be commensurate with the efficiency of other parts, and the improvement of the efficiency of a process needs to be commensurate with the efficiency of other processes. If we ignore these constraints and only pursue efficiency, it will be thankless. What we need to solve is the "bottleneck" process in the entire assembly line. As long as the production capacity of this process is improved, it can improve the production capacity of the whole production line, improve the production capacity of the whole product, shorten the manufacturing cycle, which is expected by many enterprises. Stand-alone or flexible manufacturing systems have different requirements. They are less constrained, that is, less relevant to other processes. Due to flexibility, the shortening of the manufacturing cycle of a part or a process often means that the equipment can be put into the production of other parts or other processes, thus creating more benefits.
