The stamping die is overhauled like this, and it is properly done!

Products made from the same mold have the same size and shape, that is, part or all of the size and shape are completed after each process. Therefore, when the product has a variation, the processing station can be found according to the variation part. And repair it to restore it to its original state. If the result of the judgment is a design error, the design must be changed. Mold maintenance is based on this principle. The following points can be used as a reference for maintenance: 1　　[一] Measure the final punched product, check the inspection standards to determine the variation, and check the LAYOUT to measure whether the project size is the same as the mold drawing, and whether the size varies or not. If necessary, it is necessary to measure the related projects before and after to accurately determine the variation and cause, and then implement countermeasures to solve it. 2　　[二] When you are unable to determine or propose countermeasures, you should ask others for advice, and do not act arbitrarily. 3 [三] The hair is too large 　　 (1) Knife edge wear: re-grind 　　 (2) The gap is too large: most of the sides are polished belts, the brightness is low, and the gap is reduced.　　 (3) The gap is too small: the secondary shear surface increases the gap.　　 (4) Conjunction cut: change the degree of joint or make a difference or reduce the gap.　　(5) Too sharp à: The product à degree is less than 75 degrees to change the engineering or gap.　　 (6) The material is too hard: replace the material or increase the gap.　　(7) Mold collapse à: Re-grind.　　 (8) Improper mold shell: local hairs or scratches. Re-calibrate or modify the mold. 4　　[四]die biting　　 (1) Mould looseness: the movement of the punch or die exceeds the unilateral gap. Adjust the combination gap.　　 (2) Die tilt: The straightness of the punch or die is not correct, or there is foreign matter between the templates, which prevents the template from being flat. Reorganize or grind correction.　　(3) Template deformation: The template is not rigid or thick, or deformed by external force. Replace with a new template or correct the method of disassembly.　　(4) Deformation of the mold base: the thickness of the mold base is not uniform or the force is uneven, and the straightness of the guide post and the guide sleeve varies. Grinding and correcting or refilling plastic steel or replacing the mold base or equalizing the force.　　(5) Die interference: Whether the size of the punch or die is correct, whether the position is correct, whether there is any deviation in the positioning of the upper and lower molds, whether it will loosen after assembly, the accuracy of the punch is not correct, and the die frame is not correct.　　(6) Punching shear deflection: The punch strength is not ì, the big and small punches are too close, the lateral force is not balanced, and the punch is semi-oblique. Strengthen the guiding and protection function of the peeling sloping plate or increase the punch, short the small punch lt increase the heel and heel length and support and guide early, pay attention to the length of the feed. 5　[五]Dimensional variation　　(1) Knife edge wear: The hair is too large or the size becomes larger (cut shape); becomes smaller (punching); flatness is not good. Re-grind or replace the die.　　(2) No guidance: The guiding pin or other positioning devices are not working, the feeder is not loosened or the guiding pin diameter is not correct, and the guiding cannot be corrected. The positioning block is worn and the feed distance is too long.　　(3) The die is too short: the bend becomes larger, the inversion is not, and the forming is incomplete.　　 (4) No escape hole ì: Squeezed or injured or deformed. Clear the escape hole or increase the escape hole and depth.　　(5) Ejection failure ì: Feeding is not smooth, the material strip is bent, the material is not well stripped, the upper die pulls the material, and the ejection is lengthened.　　 (6) Improper ejection: improper preparation of ejector pins, improper spring force or excessive ejection. Adjust the elastic force or change the position or the number of pins; pin grinding is short to match.　　 (7) Poor guide material: the length of the guide plate is not too large or the guide gap is too large, or the die and the feeder are skewed or the distance between the die and the feeder is too long.　　(8) Cutting deformation: Some bending parts cannot allow the material to overlap, and must be dropped every time, or the disc strain can be overcome by pressure pad or shearing à.　　 (9) Bending deformation: Extrusion at the upper bend; the proximal hole is deformed under tension, and the force is unevenly bent à the inclined punch is not long enough.　　 (10) Punching shear deformation: the material is distorted and uneven, the size increases or the eccentricity is asymmetrical.　　 (11) Impact deformation: The product blows out and the air pressure is too strong or the gravity falls and impacts deformation.　　 (12) Extrusion of floating chips: the extruding variation of waste materials floating up or fine chips remaining on the mold surface or foreign bodies.　　 (13) Improper material: Material width or thickness, improper material or material hardness, will also produce defects.　　 (14) Poor design: poor engineering arrangements and poor clearance settings are difficult to overcome unless the design is changed. 6　[六] Die damage　　 (1) Hot buried: The quenching temperature is too high or not, the tempering frequency and time are not appropriate, and the quenching method time cannot be grasped; the problem does not appear until after a period of use.　　 (2) Stamping and stacking: the material overlaps and continues to be stamped, usually because the stripping board is broken.　　 (3) Waste blockage: The blanking hole is not drilled or the size is not consistent, or it falls on the bed and is not cleaned in time. The punch and the lower template are more damaged.　　(4) The punch is dropped: it is not sufficiently fixed or suspended, or the screw is too thin and the strength is not strong, or the punch is broken.　　 (5) No escape hole: The size or depth of the escape hole of the punch press plate is not enough, and the escape part of the punch and stripping plate is usually damaged because the stripping plate is damaged.　　 (6) Foreign matter entering: the product bounces back when the product is blown out, the single-column hydraulic die parts collapse and fall, the screw protrudes from the die surface or other objects enter the die, which may damage the lower die, stripping plate or punch, and guide post.　　(7) Assembling error: The parts are damaged due to the wrong position and direction.　　(8) Spring factor: Insufficient spring force or breakage or unequal height sleeves make the stripping plate tilt, or the spring is not regularly configured, causing overlapping punching and damaging parts. (9) Improper stamping: the working height is adjusted too low, the guide post loses oil, the strip is misfeed or half-filled, the peripheral equipment such as the feeding, unwinding, and rewinding machine is damaged, the air pipe is not installed or opened, the punch is abnormal, etc. The damage caused.　　(10) Improper maintenance: The above-mentioned points have occurred due to the replacement but not replacement, or the screw is not tightened or restored to the original state. Related news: The characteristics of the main materials of stamping parts, the handling of common problems of stamping parts, the characteristics of scaffolding stamping parts and the importance of inspections