CNC lathe environmental requirements and commissioning specifications

Ambient temperature and humidity requirements. CNC lathes generally require the use of a constant temperature environment to ensure the accuracy of the machine tool, generally requiring a constant temperature of about 20 degrees Celsius. A lot of practice has proved that in the summer high temperature period, the failure rate of the numerical control system is greatly increased and it is easy to cause a collision accident. The wet environment will also reduce the reliability of the CNC lathe operation. Therefore, the dehumidification measures should be taken for the environment of the CNC lathe in order to avoid circuit short-circuits, resulting in misoperation of the CNC system and collision accidents. At the same time, CNC lathes are required to be far away from vibration sources such as forging equipment, away from electromagnetic field interference, away from electric welding machines, and away from electric cutting machines such as wire-cutting machine tools and electric discharge machine tools.

The standardization debugging actions mainly include the following points:

1) When debugging the program, you must hit the G00 speed selector switch at F0 to allow the tool to approach the workpiece at a slow speed. Otherwise, once the tool offset is wrong, the tool moves from the tool change point to G00 in a very fast manner. At that point, there may be a strong collision with the workpiece, so that the operator is at a loss, and it is too late to rule out dangerous situations. On the contrary, when the tool is approached at a slower speed, even if the tool is misaligned, the operator has plenty of time to adjust.

2) When debugging the program, the CNC lathe must be single-stepped. After the operator executes the previous block on the CNC lathe, it must check the correctness and rationality of the next block again and make adjustment accordingly.

3) During the movement of the CNC lathe, the operator must always observe the change of the tool coordinates on the screen and whether the coordinate of the movement end point in the program is consistent with the coordinates of the actual movement of the tool.

4) During program debugging, the operator can place one finger on the cycle start button and the other finger on the cycle hold button so that the execution of the program can be stopped in an emergency. At the same time, always remember the location of the emergency button in order to meet the need.

When starting up the machine, the machine reference point setting is generally performed. The coordinate system of the machine tool workpiece should be consistent with the programmed coordinate system. If there is an error, the possibility of collision between the turning tool and the workpiece is very high. In addition, the tool length compensation must be set correctly; otherwise, it will either be empty or crashed.

5) The program's debug phase uses computer simulation capabilities. With the development of computer technology, the continuous expansion of CNC machining teaching, more and more numerical simulation simulation system, its function is increasingly perfect. It can therefore be used in preliminary inspection procedures to observe the movement of the tool to determine if a collision is possible. The use of CNC lathes comes with a graphical simulation of processing functions. Generally more advanced CNC lathes all have graphic analog processing functions. Before the automatic machining, in order to avoid program errors, the tool may collide with the workpiece or the chuck, and the entire machining process may be graphically simulated to check whether the tool path is correct.

Production process

Welding elbow production process, if the long radius of the elbow, you must first select specifications, put forward the tube material. Spread ratio, through theoretical calculation, the general expansion rate of 35% - 33%, and push back. Short radius 219mm general expanding diameter rate of 50%. Selected raw materials, in material according to the specifications of the elbow, then consider the radius of curvature, for example, 90 degree elbow, by its curvature can figure out how many materials can be processed with 90 DEG elbow. It can be calculated by theoretical calculation, and then cut off with the length of the length. Finally, the material pushing system. You may have seen the machine, the actual is very simple. It is a horn shaped mandrel or mandrel, the mandrel is changed from thin to thick, push the process is a process of expanding with bending. Behind a support pipe section to penetrate mandrel material, one behind the arch frame will be fixed mandrel. 

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Technological process

Seamless elbow: elbow is a kind of pipe fitting used for turning of pipe. In the pipeline system used in all the pipe fittings, the largest proportion, about 80%. In general, different forming processes are selected for different materials or wall thicknesses. At present, the factory used seamless elbow forming process, hot stamping, extrusion have.

Hot forming

Hot bend forming process is the special Elbow push processing machine, a core mold and a heating device, which makes in the mold blank in pushing mechanism driven by forward motion and in the movement is heating, expanding diameter and bending forming process. The deformation characteristics of the hot pushing elbow is based on the metal plastic deformation before and after constant volume law to determine the tube diameter, the tube diameter less than the diameter of the elbow, the through mandrel control the blank deformation process, the arc by the compression of the metal flow, compensation for expanding and other parts of the thin, in order to get uniform wall thickness of elbow.

The hot pushing elbow forming process has the advantages of beautiful appearance, uniform thickness and continuous operation, suitable for mass production. Therefore, it becomes the main processing method of carbon steel, alloy steel elbow, and is also used in some specifications of stainless steel elbow forming.

The heating method of forming process has the intermediate frequency or high-frequency induction heating (the heating coil can be multi circle or single ring), the flame heating and the reflection furnace heating.

Stamping forming

Stamping elbow is the earliest application in mass production, the forming process of seamless elbow, at present, in the production of the elbow of the commonly used specifications has been hot pushingpipe method or other forming techniques of alternative, but in some specifications of elbow due to less number of production, wall thickness too thick or too thin.

Products have special requirements are still in use. The stamping of the elbow is formed by using the tube blank equal to the outside diameter of the elbow.

Before stamping, the tube blank is placed on the lower die, and the inner core and the end mould are filled in the tube blank, and the upper die downward movement begins to press down.

Compared with the hot pushing process, stamping the appearance quality is inferior to the former; stamping elbow in the forming of arc in tension and other parts of excess metal is not the compensation, so outside the arc wall thickness reduction thin about 10%. However, due to the characteristics of the single piece production and low cost, the stamping elbow process is used for the manufacture of small batch and thick wall elbow.

Stamping elbow points cold stamping and hot stamping two kinds, usually based on the properties of materials and equipment selection of cold stamping or hot stamping.

Cold extrusion bend forming process is the use of special elbow forming machine, tube into the outer mold, mold clamping, under the push of tube billet reservation along the inner mould and the outer mould gap of movement and forming process.

The elbow made by cold extrusion technology of internal and external mold is beautiful, uniform wall thickness and small size, so it is used for stainless steel elbow, especially for stainless steel elbow. The precision of internal and external die used in this process is high, and the requirement for the wall thickness deviation of tube blank is also very strict.

Pipe Bend

Welded Pipe Bend,Steel Pipe Bend,Pressed Pipe Bend,Tube Bending

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