What is gap compensation-machine tool,CNC mill

What is gap compensation?

The intrinsic characteristic of the machine tool is the reaction. The space in the joint between adhesion, friction and elasticity and rotating machinery is the result of it, such as the ball screw. We compensate the fpc4 scanner, in the X and Y direction, and we are opposed to a consistent method. Fpc4 assembles a Mosaic of the capture algorithm always such that it is always close to each photograph and positive X and Y axis movement so that the machine can be rebound from fpc5 can be effectively isolated

We can look at figure 8. What is the gap compensation algorithm?

In figure 9. By reducing the field of view, the numerical control scanner simulates a distant lens system and improves the orthographic property of the image. This can be seen from improved splicing, especially those features, above or below the focal plane.

Calibrate the image with the numerical control motion.

Usually, we calibrate the image by placing a reference scale in the image field.

However, the unique fpc2 scanner, if you want to scale the image, can be achieved through the movement of the CNC mill. During execution, this method is simpler and more accurate because the resolution is equal to the resolution of the mill.

When the scan object is not convenient to place the reference scale, it is particularly convenient to move the zoom, only the recognition point feature is needed. We know that this could be a corner, a center of a hole, or even a bit of corrosion or abrasion on the surface of the object.

We can also measure the angular error by means of motion, and the effect can be automatically corrected in each image

Let’s look at figure 10. When calibrating the image size we use known linear dimensions.

Figure 11. The calibration of our image scale is accomplished by the precision mechanical movement. And identifiable point moving distance is within the microscope’s field of view of mobile Δ X Y is a known distance. The position change and the actual motion of the machine are both observed by the fpc2 scanner and used to determine the scale.

What is modularity-drill/mill,machine tool

What is modularity? — sales of fpc1

Fpc2 is widely used in various applications. Although, most of the basic machine tools can be designed to meet the demand, the details, such as the type of coolant and shell style that can’t be satisfied because they need to be more variable. Open machines like drill/mill or Bridgeport are used by some applications, while others are more suitable for closed machining centers.

What determines the variability of the application? It is determined by another dimension, “make” and “buy”. Though for small shopkeepers, want to let them make their own machine tools, this sounds very unrealistic, but, for a user, can achieve is to build a small machine tool a booth or shell.

In order for the widest community to be satisfied, we have also made a decision that machines, stands and fences, and other accessories can be provided as discrete projects. Here, all of your stuff is available: but you only need to buy what you really need.

What is the frame?

As we all know, light vertical fpc1 and fpc2 are the most common machine designs. What is a kneecap factory? It is usually a manual workshop: the general standard is Bridgeport’s design. Because of the design, the Z movement was forced to make a decision, which is very difficult, and fpc5 is different from fpc1 because it is not so common. The designer provides computer manipulation. It can be done on a knee or a feather pen. When the knee is moving, it will greatly increase the cost of the control system, because it involves quality problems. The X and Y motion systems need to be moved by it, including the whole table, the tool fixture, and the working parts themselves. When a feather pen is moved, the range of motion is strictly limited, usually about 6 inches or less. If the feather pen is designed for longer, the mechanical rigidity will be lost to the system.