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CNC machining clamping workpiece

  1. Before the workpiece is clamped, the surface should be cleaned, and there should be no oil stain, iron filings and dust, and the burr on the surface of the workpiece should be removed with a file (or oilstone).
  2. The equal high-speed rail used for clamping must be grinded flat by grinding machine to make it smooth and flat. The weight iron and nut must be firm, which can reliably clamp the workpiece. For some small workpieces that are difficult to be clamped, they can be directly clamped on the vise.
  3. The worktable of the machine tool shall be clean and free of iron filings, dust and oil stains.
  4. The pad iron is generally placed at the four corners of the workpiece, and the equal height pad iron should be placed in the middle of the workpiece with too large span.

Check whether the width and height of the workpiece are qualified according to the drawing.

  1. When clamping the workpiece, according to the clamping and placing mode of the programming operation instruction, it is necessary to consider avoiding the processing position and the situation that the cutter head may encounter the fixture during the processing.
  2. After the workpiece is placed on the pad iron, pull the table according to the drawing requirements. The length direction error is less than 0.02mm, and the horizontal error of the top surface X and Y direction is less than 0.05mm. The perpendicularity of the workpiece which has been ground on six sides shall be checked to see if it is qualified.
  3. After pulling the watch, the nut must be tightened to prevent the workpiece from shifting during processing due to the loose clamping.
  4. Pull the meter again to make sure that the error does not exceed the tolerance after clamping.
  5. Workpiece collision number: for the clamped workpiece, the collision number head can be used to determine the processing reference zero position. There are two kinds of collision head: photoelectric type and mechanical type. The collision selection method can be divided into middle collision number and single side collision number, and the steps are as follows:
  6. Collision counting method: photoelectric static, mechanical speed 450 ~ 600 rpm.
  7. Manually move the x-axis of the worktable to make the colliding head touch one side of the workpiece. When the colliding head just touches the workpiece and the red light is on, set the relative coordinate value of this point as zero; then manually move the x-axis of the workbench to make the collision head collide with the other side of the workpiece, and record the relative coordinates when the collision head just touches the work piece.
  8. According to the relative value minus the diameter of the bumping head (i.e. the length of the workpiece), check whether the length of the workpiece meets the requirements of the drawing.
  9. Divide the relative coordinate number by 2, and the value is the middle value of the x-axis of the workpiece. Then move the worktable to the middle value on the x-axis, and set the relative coordinate value of the x-axis at this point to zero, which is the zero position on the x-axis of the workpiece.
  10. Carefully record the mechanical coordinate value of the zero position on the x-axis of the workpiece in one of g54 ~ G59, and let the machine tool determine the zero position on the x-axis of the workpiece. Once again, check the correctness of the data carefully.
  11. The procedure of setting the zero position of workpiece Y axis is the same as that of X axis.
  12. Prepare all tools according to the programming instruction.
  13. According to the tool data in the programming operation instruction, replace the tool to be processed and let the tool touch the height measuring device placed on the datum plane. When the red light of the measuring instrument is on, set the relative coordinate value of this point to zero.
  14. Move the tool to a safe place, manually move the tool down by 50mm, and set the relative coordinate value of this point to zero, which is the zero position of Z axis.
  15. Record the mechanical coordinate Z value of this point in one of g54 ~ G59. This completes the zero setting of the X, y, z axes of the workpiece. Once again, check the correctness of the data carefully.
  16. The one-sided collision is also to touch one side of x-axis and Y-axis of the workpiece according to the above method. Offset the relative coordinate value of x-axis and y-axis at this point. The radius of collision head is the zero position of x-axis and y-axis. Finally, the mechanical coordinates of x-axis and y-axis are recorded in one of G54-G59. Once again, check the correctness of the data carefully.
  17. Check the correctness of the zero point, move the X and Y axes to the side suspension of the workpiece, and visually inspect the correctness of the zero point according to the size of the workpiece. Two 报错 笔记

Operation steps of CNC machine tool

Confirm the model, size and allowance of processing blank according to the program sheet before operation, and sand and grind the blank

After operation, confirm the position of the workpiece and the processing sequence, and complete the table comparison

In the process of centring, if it is necessary to “split the rod”, the rotating speed is 501r / m. if the tool is used to divide the center, the speed depends on the tool. In this process, it should be noted that the data must be taken at the same height to ensure the accuracy of the split. After the separation, the “g0g54 x0y0” can be used for inspection

Before the formal processing, check and confirm whether the position of the workpiece is placed and whether the fetching is correct

C. Precautions in CNC machining

  1. Before machining in each program, it is necessary to strictly confirm whether the tool is consistent with the program
  2. When installing the tool, confirm whether the length of the tool and the selected tool holder are suitable
  3. In the same workpiece, each tool setting should be kept in the same area to ensure the accuracy of tool connection
  4. Try to blow with air in the roughening procedure and spray oil in the light knife program
  5. Clean the aluminum slag in the machine tool before the smooth knife oil injection to prevent the aluminum slag from absorbing oil
  6. During the operation of the machine tool, the operator shall not leave the machine tool or regularly check the operation status of the machine tool. If it is necessary to leave midway, relevant personnel must be designated to check
  7. If too much machining allowance is found in the process of machining, you must use “single section” or “pause” to clear x, y, Z values, and then manually mill them off, and then swing back to “zero” to let them run by themselves
  8. In case of tool collision during CNC processing, the operator must stop the machine immediately, such as pressing the “emergency stop” button or “reset key” button or setting the “feed rate” to zero
  9. It is forbidden to open the door when the machine tool is running to avoid flying knife or workpiece
  10. After the workpiece is off the machine, the burr must be removed in time
  11. When off duty, operators must make timely and accurate handover to ensure the normal follow-up processing
  12. Before shutdown, make sure that the tool magazine is in the original position and the XYZ axis is in the middle position. Turn off the power supply and the general power supply on the operation panel of the machine tool in turn
  13. In case of severe thunderstorm, the power supply must be cut off immediately to stop working

How to maintain CNC machine tools?

The key of preventive maintenance of CNC machine tool is to strengthen daily maintenance. The main maintenance work includes the following contents: daily inspection, weekly inspection, monthly inspection, quarterly inspection and half year inspection. The preventive maintenance of CNC machine tools is as follows:

  1. Daily inspection of CNC machining machine tools

Its main items include hydraulic system, spindle lubrication system, guide rail lubrication system, cooling system and air pressure system. Daily inspection is based on the normal situation of each system to detect. For example, when the process detection of the spindle lubrication system is carried out, the power light should be on, and the oil pressure pump should run normally. If the power light is not on, the spindle should be stopped and contact the mechanical engineer. Carry out maintenance.

  1. Weekly inspection of CNC machine tools

Its main items include machine parts and spindle lubrication system, which should be checked correctly every week, especially for machine parts, iron filings should be removed and external sundries should be cleaned.

  1. Monthly inspection of CNC machining machine tools

It is mainly to check the power supply and air in the dryer. Under normal conditions, the rated power supply voltage is 180v-220v, and the frequency is 50 Hz. If there is any abnormality, it should be measured and adjusted. The air dryer should be removed once a month, and then cleaned and assembled.

  1. Quarterly inspection of CNC machine tools

The quarterly inspection should be mainly carried out from the machine bed, hydraulic system and spindle lubrication system. For example, when checking the machine tool bed, it mainly depends on whether the accuracy and level of the machine tool meet the requirements in the manual. If there is any problem, contact the mechanical engineer immediately. When checking the hydraulic system and spindle lubrication system, if there is any problem, the oil should be replaced by 6ol and 20L respectively and cleaned.

  1. Semi annual inspection of CNC machine tools

After half a year, the hydraulic system, spindle lubrication system and x-axis of the machine tool should be inspected. If there is any problem, the new oil should be replaced, and then the cleaning work should be carried out. After being familiar with and mastering the knowledge of preventive maintenance, it is necessary to have a deeper understanding and necessary mastery of the causes and treatment of abnormal phenomena in the oil pressure system. For example, when the oil pump does not inject oil, the pressure is abnormal, there is noise and other phenomena, we should know what the main reasons are and what are the corresponding solutions.

The causes and treatment of abnormal phenomena in oil pressure system should be understood from three aspects

(1) The main reasons for the oil pump not injecting oil may be low liquid level in the oil tank, oil pump reverse, low speed, high oil viscosity, low oil temperature, filter blockage, excessive volume of oil suction pipe, air suction at the oil inlet, damage of shaft and rotor, etc. corresponding solutions are proposed for the main reasons, such as filling full oil, confirming the label, changing when the oil pump is reversed, etc.

(2) The pressure is abnormal, that is, the pressure is too high or too low. The main reasons are various, such as improper pressure setting, poor action of pressure regulating valve coil, abnormal pressure gauge, leakage of oil pressure system, etc. The corresponding solutions include dismantling and cleaning according to the specified pressure setting, changing a normal pressure gauge, and checking according to the system in turn.

(3) Noise is mainly produced by oil pump and valve. When the valve has noise, the reason is that the flow exceeds the rated standard, so the flow should be adjusted appropriately; when the oil pump has noise, the causes and corresponding solutions are also various, such as high oil viscosity and low oil temperature, and the solution is to raise the oil temperature; when there are bubbles in the oil, the air in the system should be discharged, etc.

Division of NC lathe working procedure

In NC lathe machining parts, the process should be divided according to the principle of process concentration, and most or all surface processing should be completed as much as possible under one clamping. According to the different structure and shape of parts, the outer circle, end face or inner hole are usually selected for clamping, and the unity of design basis, process reference and programming origin shall be ensured as far as possible. In batch production, the following two methods are commonly used to divide processes.

(1) According to the machining surface of parts. The surface with high position accuracy is arranged under one clamping to avoid the installation error caused by multiple clamping affecting the position accuracy.

(2) According to rough and finish machining. For parts with large blank allowance and high machining accuracy requirements, rough turning and finishing turning should be separated and divided into two or more processes. The rough turning is arranged on the CNC lathe with lower precision and higher power, and the fine turning is arranged on the CNC lathe with higher precision.

The division of machining process of CNC lathe mainly considers the production program, the structure and technical requirements of the equipment and parts themselves. In mass production, if the efficient machining center with multi axes and multi cutters is used, the production can be organized according to the principle of process centralization; if it is processed on the automatic line composed of modular machine tools, the process is generally divided according to the principle of decentralization

Fracture analysis of CNC machining tap

  1. Poor tap quality:

Main materials, CNC tool design, heat treatment, machining accuracy, coating quality and so on. For example, the size difference of tap section transition is too big or the transition fillet is not designed, which leads to stress concentration, which is easy to fracture at the stress concentration. The distance between the transition part of the cross-section at the junction of the handle and the edge is too close to the weld joint, which results in the superposition of the complex welding stress and the stress concentration of the cross-section transition, resulting in a large stress concentration, which leads to the fracture of the tap in use. Wechat of metal processing has good content and deserves attention. For example, improper heat treatment process. During the heat treatment of taps, cracks may occur if the taps are not preheated before quenching, overheated or overheated after quenching, not tempered in time and cleaned too early. To a large extent, this is also an important reason why the overall performance of domestic taps is inferior to that of imported taps.

  1. Improper tap selection:

High quality taps, such as cobalt containing high speed wire taps, cemented carbide taps and coated taps, should be selected for the parts with too high hardness. In addition, different tap designs are used in different work situations. For example, the number, size and angle of the chip removal slot of the tap have an impact on the chip removal performance

  1. The tap does not match with the processed material

In recent years, more and more attention has been paid to this problem. In the past, domestic manufacturers always thought that imported goods were good and expensive ones were suitable. With the increasing of new materials and the difficulty of machining, in order to meet this need, the variety of tool materials is also increasing. This requires that before tapping, select the right tap products.

  1. The diameter of bottom hole is too small

For example, when machining the M5 × 0.5 thread of ferrous metal material, the drill bit with 4.5mm diameter should be used to drill the bottom hole. If the 4.2mm drill bit is used to drill the bottom hole, the cutting part of the tap must be increased during tapping, and the tap will be broken. It is suggested to select the correct bottom hole diameter according to the types of taps and the different materials of the taps. If there is no suitable drill bit, the larger one can be selected.

  1. Material problems of the tapping parts:

The material of the tapping part is not pure, and there are some hard spots or pores in some parts, which causes the tap to lose balance and break instantly.

  1. The machine tool does not meet the accuracy requirements of taps:

Machine tool and clamping body are also very important, especially for high-quality taps, as long as a certain precision of the machine tool and clamping body can play the tap performance. It is common that the concentricity is not enough. At the beginning of tapping, the starting and positioning of the tap is not correct, that is, the spindle axis is not concentric with the center line of the bottom hole, and the torque is too large in the tapping process, which is the main reason for the tap breaking.

  1. Poor quality of cutting fluid and lubricating oil:

Many domestic enterprises have begun to pay attention to this point. Many companies that have purchased foreign cutting tools and machine tools have a very profound experience. The quality of cutting fluid and lubricating oil has problems. The quality of processed products is easy to appear burr and other adverse conditions, and the service life will be greatly reduced.

  1. Unreasonable cutting speed and feed rate:

When machining problems occur, most of the domestic users reduce the cutting speed and feed rate, so that the driving force of the tap is reduced, and the thread accuracy is greatly reduced, which increases the surface roughness of the thread, and the thread diameter and thread accuracy can not be controlled. Of course, burr and other problems are inevitable. However, if the feeding speed is too fast, the torque caused by it is too large, and it is easy to break the tap. The cutting speed of machine tapping is generally 6-15m / min for steel, 5-10m / min for Quenched and tempered steel or hard steel, 2-7m / min for stainless steel and 8-10m / min for cast iron. In the same material, the smaller the tap diameter is, the higher the tap diameter is, the lower the larger tap diameter is.

  1. The operator’s technology and skills did not meet the requirements:

The above problems need operators to make judgment or feedback to technical personnel, but at present, most operators in China do not pay enough attention to them. When the operator is not aware of the tapping speed, for example, when the tap is not forced to enter the hole, or the tap is still not in contact with the bottom of the hole, the tapping speed is not realized. It is suggested that operators should strengthen their sense of responsibility.

Improper CNC process arrangement

Using CNC processing equipment to process, high efficiency, good quality, but if the process design is not properly arranged, it can not reflect its advantages. From the experience of some CNC processing plants, there are some problems as follows:

  1. CNC machining process is too scattered

The reason for this problem lies in the fear of complexity (refers to the preparation time), simple programming, simple operation and processing, easy adjustment of tool setting by using a knife, and being used to ordinary processing. As a result, the product quality (position tolerance) is not easy to guarantee and the production efficiency can not be brought into full play. Therefore, CNC processing personnel and operators should be fully familiar with the knowledge of CNC machining, try more to master the relevant knowledge, as far as possible to use the method of process concentration for processing, more use, will naturally reflect its advantages. After adopting the centralized process, the unit processing time increases. We arrange two equipment face-to-face to realize the operation of two equipment by one person, which greatly improves the efficiency and ensures the quality.

  1. CNC machining sequence is unreasonable

Some CNC processing operators consider some problems in preparation, and often arrange the processing sequence irrationally. NC machining is usually carried out according to the requirements of general machining process planning, such as first coarse and then fine (tool change), first inside and then outside, reasonable selection of cutting parameters, so that the quality and efficiency can be improved.

Be careful to use G00 (g26, G27, g29) fast positioning instructions. G00 instructions bring great convenience to programming and use. However, if it is not set and used properly, it will often lead to over impact when returning to zero due to too large speed setting, the precision will be reduced, and the equipment guide rail surface will be strained. If you don’t pay attention to the return to zero route, it is easy to cause safety accidents of collision between workpiece and equipment. Therefore, when considering the use of G00 instruction, we should consider carefully, not at will.

In the process of NC machining, it is especially important to strengthen the retrieval and trial operation of the program. After the program is input into the control system, the operator should use Sch key and ↑, ↓, ←, → mobile keys for uncertain and definite retrieval, and modify the program if necessary to ensure the accuracy of the program. At the same time, before the formal implementation of the program processing, must go through the program trial run (open power amplifier), to confirm whether the processing route is consistent with the design route.

The above are some common problems and solutions when using CNC processing equipment. There may be some other problems in the actual work, but as long as the CNC processing engineers and operators gather their wisdom and master the relevant knowledge and skills of numerical control, the CNC equipment will be able to play the greatest benefit for the enterprise.

Correct use of cutting fluid in CNC machining

There are two kinds of cutting fluids used in CNC machining: one is oil-based cutting fluid, the other is water-based cutting fluid;

There are four kinds of cutting fluids used in CNC machining: cutting oil, emulsion, semi synthetic fluid and synthetic fluid,

Cutting oil, emulsion (sometimes called soapy water in some places) and synthetic fluid (called environmental protection fluid by many people) are commonly used, but they may know less about semi synthetic night;

How do you choose cutting fluid in the machining process? Let’s look at the advantages and disadvantages of each cutting fluid

  1. Cutting oil for CNC machining:

advantage:

a. Very high physical lubrication

b. Suitable for low speed, less cutting allowance

c. Provides a very good surface finish

Disadvantages:

a. Poor heat transfer

b. Fire hazard

c. High cost of use

d. Smoke / fog

  1. The emulsion used in CNC processing:

advantage:

Better lubrication

a. For polymetallic safety

b. It has better cooling than cutting oil

c. Good erosion ability of scrap iron

d. Lower cost than cutting oil

e. Good rust prevention

f. Easy sewage treatment

Disadvantages:

a. Increased dosage

b. It also emulsifies dirty oil

c. Poor odor control

d. Dirty equipment

e. Poor hydraulic stability

f. Poor filtration

g. Poor mixing

  1. Semi synthetic liquid used in CNC processing:

advantage;

a. Better cooling than emulsion

b. Good rust protection

c. Cleaner than emulsion

d. Good filtration

e. It is more suitable for hard water and dirty oil

f. It is more suitable for hard water and dirty oil

g. It has better antibacterial property than emulsion

Disadvantages:

a. There is a tendency to blister in soft water

b. Oil repellency is worse than synthetic liquid

c. When used in high concentration, may have skin allergy tendency

  1. Synthetic solution for CNC processing:

advantage:

a. Very good cleanliness

b. It doesn’t stink

c. High acceptance of operators

d. Low consumption turnover (12-20 weeks)

e. Very good cooling performance

f. Completely oil repellent

g. Hypovacuole

h. Long service life

i. Very good filtration / fast settling performance

Disadvantages:

a. Low physical lubrication

b. Difficulty in sewage treatment

c. Sticky residue, especially in hard water

d. Compatibility with emulsions

e. It reacts with some polycarbonate

f. May damage the paint of the machine tool

Machining slender rod-shaped cutting tools with CNC lath

The following is the accuracy analysis of CNC lathe machining slender rod-shaped tools: the improvement of the accuracy of rod-shaped tools,

The main reason is that the effective part of the tool is too long and the cutting edge is too far from the clamping part.

Because the cutting edge is too far away from the clamping part, and the clamping accuracy of the collet is generally 0.002-0.005mm, so before grinding, the cutting edge is too far away from the clamping part,

The radial circle runout at the cutting edge of the tool may have reached 0.005mm-0.01mm (or even greater).

Since the powerful grinding process is used to grind the cutting tools, especially when grinding the tool groove, the grinding force is large and the elastic deformation of the cutter is large, which will cause many problems in the machining process,

If the groove shape of the tool is not symmetrical, the size of the tool’s outer circle, the parameters of the cutting edge and the shape error do not meet the requirements, and even the tool is broken.

The following is a simple analysis of the accuracy of the tool when machining slender rod-shaped tools by CNC lathe.

1、 The influence of machine tools on tool accuracy. The influence of machine tool accuracy on tool accuracy when manufacturing any tool, the accuracy of machine tool is the key to determine the accuracy of tool,

Rod shaped tools are no exception. The support block is mainly used for NC machining slender rod-shaped tools,

Its position can be adjusted both horizontally and vertically, and can be positioned according to the actual situation. If the position of the support block in the transverse direction (i.e. the axial direction of the tool) is not reasonable,

The qualified slender rod-shaped tool cannot be machined. If the support block is too low, the support force to the tool is not enough, which will cause the tool groove to form an inverted cone in the axial direction; if the support block is too high, the tool groove will form an inverted cone,

If the support block is hard against the tool, the tool groove will form a cone along the axial direction. Therefore, the accurate positioning of the support block is also very important to the accuracy of the tool.

2、 The influence of CNC machining on grinding wheel accuracy. All parameters of the tool are determined by the relative motion between the grinding wheel and the tool,

Therefore, the diameter of the grinding wheel, the angle of the grinding wheel directly participating in cutting, the flange length of the grinding wheel shaft, the wear of the grinding wheel and the grain size of the grinding wheel all affect the accuracy of the cutting tool.

The accuracy of grinding wheel angle measurement or input may cause: the width of the blade edge belt does not meet the requirements; the step surface angle of the step tool does not meet the requirements; the angle of the step surface of the step tool does not meet the requirements;

There is an angle error in the position of the tool.

3、 The cooling effect of the coolant on the grinding area will directly affect the accuracy of the cutting tool when machining hardware parts.

The selection of coolant with good performance and proper cooling pressure is conducive to the coolant entering the grinding zone, which can take away the cutting heat and chips in time, and effectively reduce the surface roughness of the tool.

CNC machining experience sharing (Part 3)

  1. Sharpening knife:

The shapes of computer gongs are different, and it is often necessary to grind all kinds of knives. When all kinds of forming knives are worn, they also need to be grinded. To achieve the following several percentages, a usable knife 1 can be grinded. The four corners of the tool should be the same height 2. Point a is higher than point D. the front (face) of tool 3 is higher than the back, that is, there is a certain back angle.

  1. Over cutting check:

Overcutting is a common problem in MasterCAM. Be careful. Overcutting may occur in the process of multi curved surface opening, smooth knife, cutting path trimming, shape and groove digging, even if the parameter setting and stereogram of chest are correct, some are software errors. The main inspection method is to simulate the cutter path once again, and check repeatedly in the top view and side view. The tool path without inspection is not allowed to be used. In the process of contour milling, if the position of the lower tool is not selected properly, it will be over cut, which can be avoided by changing the lower tool position.

  1. Milling direction:

Computer gongs are generally downmilling, unlike milling machine reverse milling, because the rigidity of computer gongs is better, it is not easy to let the cutter, the back clearance is small, milling shape or inner groove are left compensation. When processing symmetrical shapes, the tool path can not be mirrored, otherwise the processing effect will be bad on the side where the mirror passes. In order to communicate with the operator of the machine tool, the program paper should include 1) program name 2. Tool size and length 3. Tool path method 4. Machining allowance 5. Rough or smooth knife 6. Drawing file name 18. Graphic management Computer drawings should be properly classified and managed. It is better to create a catalog for a product and give a specific name for each part. For example, the name of the Copper drawing is A10, the name of the back die drawing can be a10c, the name of the front die drawing is a10cav, and the name of the loose Copper drawing is a10s1. 19. Format conversion between different softwares: communication with AutoCAD, the version above mastcam7 can read the DWG file directly, and the version lower than 7 can be converted to DXF format in AutoCAD. Other cam software such as cimtron, Pro / E, UG can be converted to IGS format.

  1. DNC usage:

After the completion of the program, after checking, no problem can be copied to the DNC computer for actual processing. There are two ways to copy the program: one is to copy from disk; the other is to transmit it through LAN. Then start DNC software, find the program to run, and press enter.

  1. Coordinate system:

There are three kinds, mechanical coordinate system, machining coordinate system and temporary coordinate system. In the mechanical coordinate system, the mechanical zero point is a reference point on the machine. After each power on, the zero point is determined after the zero point is returned to zero. The position of the mechanical zero point is determined by the machinery factory and should not be changed. The machining coordinate system is used for workpiece processing, which is the sub coordinate system of the mechanical coordinate system. Take a point in the mechanical coordinate system (generally the center point of the workpiece) as the coordinate origin, record the mechanical coordinate value of this point as the origin of the machining coordinate series, and then set the machining coordinate system. Temporary coordinate system: reset each point as the coordinate origin at any time. There are also three coordinate values corresponding to coordinate values: mechanical coordinate value, machining coordinate value and temporary coordinate value (also called relative coordinate value)

  1. Common filter values:

The commonly used filtration values are 0.001 ~ 0.02, and the filtration radius r = 0.1 ~ 0.5. The larger the rough cutting path, the smaller the smooth surface path, the larger the surface radius and the smaller the larger the surface radius. Filtering can effectively reduce the program capacity and make the tool feed smoother, but if it is too large, the machining accuracy will be affected.

CNC machining experience sharing (Part 2)

  1. Common problems encountered in the die after processing:

The cutting tool should be made of the same material as that of the large one. The back die drawing is usually made of Copper drawing, which is made by reducing the material level plus PL surface, pillow position and the original body. If the material level is relatively uniform, negative material level can be directly reserved in the processing information, but pl (parting surface), pillow position and impact surface can not shrink the material level. At this time, you can first correct these surfaces by a material level or draw a section. One of the problems encountered by the original body department is that the ball knife can not clear the sharp angle. At this time, the flat knife can be used to process the sharp angle of the curved surface. For example, if the inlay section is used, the back mold is divided into the hidden frame and the core. When adding the Tibetan section, pay attention to the empty knife several times, otherwise the frame will have a slope, the upper edge is accurate, and the lower side is small, so it is difficult to match the mold. Especially for the deeper frame, we must pay attention to this problem, and the smooth frame knife should be new and good And choose a larger knife. If the core is too high, you can turn it over to process the frame, and then assemble it into the frame, and then process the shape. Sometimes there is a branch mouth. Be careful not to over cut. When using a ball knife to polish the shape, you must protect the edge steps. In order to facilitate the matching mode, the frame size can be smaller than the overall dimension of the core-0.02/s, and the tolerance and step distance of the core optical knife can be slightly larger, the tolerance is 0.01 ~ 0.03, and the feed is 0.2 ~ 0.5.

  1. Problems in bulk copper processing:

Sometimes it is difficult to process the whole copper male, there is a dead angle that cannot be processed, or it is difficult to process. If the required tool is too long or too small, it can be considered to divide another copper male. Sometimes, it is necessary to clear the angle clearing copper male. However, it is not difficult to process this kind of copper male. However, it is necessary to make sure the deviation of flame time and check the benchmark.

  1. Processing of thin disk copper male:

This kind of copper male is easy to be opened during processing. A new knife should be used. The knife should be small and the feed should not be too large. When processing, the length a should be set correctly, but D should be left with a large allowance (such as 1.0 mm) and then walk on both sides. Each time, the depth h = 0.2 ~ 1. The depth feed should not be too much, nor should it be moved around the knife, but should be divided into two sides.

  1. Direction of left and right parts and one out two parts:

Sometimes a set of mold will produce two parts, for the left and right parts, the graphics can be produced by mirror. If two identical parts are produced, the figure must be balanced or rotated in XY, and must not be mirrored. Be careful not to reverse the direction.

  1. CNC machining direction:

The four guide bolt holes of the die are not completely symmetrical, and one of them is asymmetric. Therefore, it is not clear when processing the front and rear dies. There is a benchmark on each template. When the front and rear dies are closed, they must be based on the datum, especially on the original die. When drawing, pay attention to the direction. The direction of the copper male is consistent with that of the front view (top view), the direction of the core of the family and the frame of the Tibetan family is the same as that of the copper male, while the direction of the front model is opposite. Some decorative lines such as grooves or boss on the surface are not easy to process because they are relatively narrow. For the groove, we generally avoid the groove empty, that is, milling deeper, and then add a loose male to make the sink surface. Generally, the boss can only be made into a loose joint separately, and the large copper male can not be made, so as to ensure the quality.

  1. Fitting tolerance of mould and product:

A set of products usually has several or more than ten parts. The main matching dimensions of these parts are guaranteed by computer gong processing. It is very important to select reasonable tolerance, especially some product design drawings do not consider the matching problem. For the fit of bottom and surface shell, the shape is no doubt 0-0 fit, and the positioning is guaranteed by the support mouth. The tolerance of concave and convex support is generally 0.1 mm, single side. The shape of the accessories on the large body, such as transparent mirror, is 0.1 ~ 0.2 smaller than the size of the large body. The shape of the movable parts on the large body, such as buttons, is 0.1 ~ 0.5 smaller than that of the large body. The surface shape of the accessories on the big body should be consistent with the surface shape of the large body, and it can come down from the surface of the body.

  1. Draft angle (draft angle)

Plastic mold must be made to the mold slope, otherwise it will be scratched. If the drawing does not indicate, you can consult with the mold maker. The mold angle is generally 0.5 ~ 3 degrees. If the etched mold, the mold angle should be larger, 2 ~ 5 degrees, depending on the thickness of the etch.

  1. Cutting problem:

Most of the time, when the blade is just milled, the cutting amount is relatively large, which is easy to cause the knife to break and snap. At this time, you can first open the lower cutter position, or lift the knife away, or cut the knife outside the material in the daytime. In short, we should fully consider this problem. When the processing capacity is relatively large, the knife clip is too long and the knife is too small. It is easy to happen when the processing amount is relatively large, especially when there are more concentration feed. For example, if the smooth side depth h = 50 mm and the diameter is 3 / 4 cutter, we can process it in 25 mm twice, which is not easy to happen. If the tool holder is too long, the length of the tool installation is very important for processing. It should be as short as possible. Beginners can easily ignore this problem. The clamping length of the tool must be marked on the program paper. It is easy to grab the knife when turning the corner. The solution is to clean the corner with a smaller knife layer by layer, and then change the large knife to smooth the side. For the semicircular groove with diameter 8 as shown in the figure, if it is directly processed with R4 cutter, the cutting position is easy to grab the knife. The solutions are: (1) use R3 to scan the tool path; (2) use R3 to roughen first, and finally use R4 knife to clear the angle.

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