TW200819938A - System and method for deburring - Google Patents

Abstract

The present invention provides a system for deburring. The system includes a computer and a database. The computer includes: a figure selecting module for selecting figures be deburred on a mold design from the database; a punch choosing module for choosing a shape of punch of a briquetting according to the figures; a working parameter setting module for setting a shape of burrs when deburring; a fixed mode setting module for setting a fixed mode of the briquetting according to the shape of punch of the briquetting; a checking module for checking whether the fixed mode of the briquetting is reasonable; a structure drawing module for drawing a structure drawing of deburring according to the shape of punch of the briquetting and the fixed mode of the briquetting when the fixed mode is reasonable. A method for deburring is also provided.

Description

200819938 Nine/Invention Description: TECHNICAL FIELD OF THE INVENTION The present invention relates to a burring system and method. [Prior Art] In ordinary life, most of the metal products used by people are smooth. If there are burrs on the metal products, they are easy to stab when used, posing a threat to the user's body, and the user's safety is Not guaranteed. Usually, the burr-free products used by people are made by watering or by hand grinding to eliminate burrs. However, in the production process of stamping products, burrs are inevitably generated in many punch punching, trimming and other processes. These burrs are difficult to sand and often stab the production staff during production and polishing, and do not meet safety production regulations. Therefore, this method of manual grinding not only wastes a lot of production time and cost, but also causes low production safety. Therefore, how to provide a system and method that saves time and cost, and can improve production safety in mold production is a problem that enterprises need to solve urgently. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a burr system and method which can press the burr of a product into a belt, which saves the grinding process and improves the safety of production. A burring system, the system comprising a computer and a database, the computer comprising: a primitive selection module, configured to select a primitive in the mold design drawing that needs to be embossed from the database; the punch form selection module is used for Selecting the punch form of the compact according to the selected element of 6200819938; the working parameter setting module is configured to set the shape of the burr to be pressed according to the need; the fixed mode setting module is used for the punch according to the selected compact Form setting the fixing method of the pressing block; the plausibility checking module is used for checking whether the set pressing method of the pressing block is reasonable; and the structure drawing module is used for selecting the pressing block to be fixed according to the selected The structure of the bristle is drawn by the punch form of the compact and the set fixing method. A method of burring, the method comprising the steps of: (a) selecting a primitive having a burr in the design; (b) selecting a punch of the compact according to the selected primitive; (c) as needed Setting the shape to be pressed by the burr; (d) setting the fixing method of the pressing block according to the punch form of the selected pressing block; (e) checking whether the set fixing method of the pressing block is reasonable; and (f) when the set pressure is set When the block fixing method is reasonable, the structural drawing of the bristle edge is drawn according to the punch form of the selected compact and the fixed manner set. Compared with the prior art, the burr system and method have a burr-forming structure in a portion where burrs are generated in the φ φ tool, so that the burr can be pressed into the belt during the punching, thereby saving The grinding process saves time and production costs while increasing production safety. [Embodiment] Referring to Figure 1, there is shown a system architecture diagram of a preferred embodiment of the burr system of the present invention. The system architecture of the preferred embodiment mainly includes a computer 1, a database 2' input device 3, and an output device 4. The database may be independent of the computer 1, or may be located within the computer 1 (such as a computer hard disk), and is used to store the mold design drawings and the embossed primitives of 200819938. The input device 3', such as a disk and/or a mouse, is used to provide operator input information. The wheel-out device 4, such as a display, is used to display related information input by the operator and to draw result information. The computer 1 can be an IBM Personal Computer (IBM PC), an Apple Mac PC, or any other suitable computer. The computer worker includes a primitive k taking module 110 'punch form selection module 120, a working parameter setting module 13 〇 'fixed mode setting module 140, a rationality checking module 15 〇, and a structural green model Group 160. The primitive selection module 110 is configured to select FIG. 7L in the mold design drawing that requires a burr. In general, the pattern selected by the mold tube has an inner hole shape and an outer shape. The shape of the inner hole refers to the inside of the template, and the burrs are located inside the template in the mold design drawing, and the “edge” of the fruit board is opposite to each other. As shown in Figure 3, the first figure of the curve shape is another

Strong in the right, 5 internal 'does not intersect the edge of the template, belongs to the inner hole. 浐: Description 2: The shape refers to the edge portion of the burr 7 corresponding to the selected element. As shown in FIG. 4, the edge portion of the y-picture 1L ride template 6 belongs to the punch form γ 4 H -^ ' and the selected pull group 12 所述 according to the shape of the shape, and is used according to the selected Ε =: I Head form. Among them, the punch has a punching hole, a contour shape, a rectangular shape, and the like. If the ==Fig=shape, select the inner hole of the contour or the inner hole of the rectangle: η: If the selected element is an outer shape, the punch form of the outer shape of the contour or the shape of the rectangle is selected. Wherein, the punch form of the contoured inner hole is 8 200819938, and the corresponding block shape is similar to the shape of the inner hole shape, and the pressure block surrounds the primitive of the inner hole shape. As shown in FIG. 5, it is a schematic view of a punching form of a contoured inner hole. The shaded portion in the figure is a first pressing block 71 in the form of a contoured inner hole punch, and the shape of the first pressing block 71 is modeled after the shape of the inner hole. The first primitive 51 is formed, and the first pressing block 71 surrounds the first primitive 51. The punch form of the rectangular inner bore means that the corresponding briquettes are formed by enclosing the inner bore primitive with a suitably large rectangle. As shown in FIG. 6 , it is a schematic view of a punch in the shape of a rectangular inner hole, and the shaded portion in the figure is a second pressing block 72 in the form of a rectangular inner hole punching head, and the shape of the second pressing block 72 can surround the first A rectangle of a primitive 51. The form of the punch of the contoured shape means that the corresponding shape of the compact is similar to the element of the shape, and the compact surrounds the element of the shape. As shown in FIG. 7 , it is a schematic view of a punched form of a contoured shape. The shaded portion of the figure is a third pressing block 73 in the form of a contoured punch, and the shape of the third pressing block 73 is a second shape of the outer shape. The primitive 61 is formed, and the third compact 73 surrounds the second primitive 61. The punch form of the φ rectangular shape means that the corresponding briquettes are formed by enclosing the outline elements with a rectangle of a suitable size. As shown in FIG. 8, a schematic view of a rectangular shape of a punch is shown. The shaded portion of the figure is a fourth pressing block 74 in the form of a rectangular shaped punch. The fourth pressing block 74 has a shape that surrounds the second graphic element. The rectangle of 61. The working parameter setting module 130 is configured to set a shape to be pressed by the burr according to the need, and store the set shape as the burr attribute in the database. In the preferred embodiment, the burr to be pressed can be set to a beveled shape or an arcuate shape. If you choose to press the burr into a bevel, you need to set the angle of the bevel to be pressed in 200819988. If you choose to press the burr into a circular arc, you need to set the radius of the arc to be pressed. Wherein the angle of the bevel is between more than 0° and less than 90°. The fixed mode setting module 140 is configured to set a fixing manner of the pressing block according to the punch form of the selected pressing block. The fixing method of the pressing block includes a shoulder type, a screw pressing type, a lock screw type and a pressing block type. Wherein, if the punch of the pressing block is in the form of a contoured inner hole, the fixing manner of the pressing block can be selected as a shoulder type or a locking screw type; if the punching part of the pressing piece is in the form of a rectangular inner hole, a pseudo-shaped shape or a rectangular shape The fixing method of the pressing block can be any one of a shoulder type, a screw pressing type, a lock screw type, and a pressing block type. Wherein, the shoulder type is pressed against the pressing block by a shoulder block, and if the shoulder type is selected, the length, width and height of the shoulder block are also required. As shown in FIG. 9, the shoulder block 81 is fixed to the lower side of the second inner block 72 of the rectangular inner hole shape to fix the second pressure block 72, wherein the side CD and The side FE is the length of the first shoulder block 81, and the side FC and the side ED are the width of the first φ one shoulder block 81. The screw pressing type is pressed against the pressing block by a screw, and a part of the screw is embedded in the pressing block. If the screw pressing type is selected, the screw specification (such as M5, M6, M8, etc.). As shown in Fig. 10, a schematic view of the screw pressing type is adopted. The first screw 82 is partially embedded in the second pressing block 72, and the other portions are pressed into the template 5 to fix the second pressing block 72. The lock screw type is pressed into the pressure block by a screw, and if the lock screw type is selected, the specification of the screw is also required. As shown in Fig. 11, a schematic diagram of a screw-type fixing manner is adopted, and the second screw 83 is all pressed into the second pressing block 72 to fix the second pressing block 200819938 72. The pressing block type is pressed against the m pressing block by a shoulder block of a square body, and a part of the shoulder block of the square body is embedded in the pressing block, and if the pressing block type is selected, it is also required to be set. The side of the shoulder block of the cube is long. As shown in FIG. 12, a schematic diagram of a fixed block type, a square second shoulder block 84 is partially embedded in the second pressing block 72, and other portions are pressed into the template 5 to fix the second pressing block. 72. In the practice of this embodiment, other similar fixing means may be used to facilitate the fixing of the compact to the template. The plausibility check module 150 described in the ® is used to check whether the clamp block fixing method is reasonable. Wherein, if the fixing method of the pressing block is a shoulder type, it is checked whether the length of the shoulder is greater than the length of the edge portion of the pressed pressing block, and if so, it indicates that the fixing manner is unreasonable; if not, it indicates that the fixing manner is reasonable . That is, the length of the side FE of the first shoulder block 81 in Fig. 9 cannot be greater than the length of the lower side AB of the second press block 72. If the fixing method of the pressing block is the screw pressing type, it is checked whether the part of the screw embedded in the pressing block contains the entire pressing piece, φ that the pressing piece is included in the screw, and if so, the fixing manner is unreasonable; No, it means that the fixing method is reasonable. That is, the overlapping portion of the first screw 82 and the second pressing block 72 in Fig. 10 cannot be so large as to include the entire second pressing block 72. If the clamp is fixed in the form of a lock screw, check whether the screw is beyond the range of the clamp. If it is, it indicates that the fixing method is unreasonable; if not, it indicates that the fixing method is reasonable. That is, the second screw 83 in Fig. 11 cannot exceed the range indicated by the rectangle of the second press block 72. If the fixing method of the pressing block is a briquetting type, it is checked whether the side of the square shoulder block embedded in the pressing block exceeds the range of the pressing block, and if so, it indicates that the fixing manner is not reasonable; if not, then It shows that the fixing method is reasonable. That is, the side GH of the shoulder block 84 of the square in Fig. 12 cannot exceed the range indicated by the rectangle of the second press block 72. The structure drawing module 160 is configured to draw a structure diagram of the bristle edge according to the punch punch form selected by the punch form selection module 120 and the fixed mode set by the fixed mode setting module 140. The figure can be pressed directly into the strip by stamping. As shown in Fig. 9, the punch of the pressing block is in the form of a rectangular inner hole, and the fixing manner is a shoulder-like structural drawing. As shown in Fig. ® 10, the punch of the pressing block is in the shape of a rectangular inner hole, and the fixing method is a screw pressing structure. As shown in Fig. 11, the punch of the pressing block is in the shape of a rectangular inner hole, and the fixing method is a lock screw type structural drawing. As shown in Fig. 12, the punch of the pressing block is in the shape of a rectangular inner hole, and the fixing method is a block type structural drawing. Referring to Figure 2, a flow chart of a preferred embodiment of the method of crimping burrs. First, in step S11, the primitive selection module 110 selects a primitive in the mold design drawing that requires φ to be embossed. In general, the elements selected in the mold design include the shape of the inner hole and the shape of the shape. Wherein, the shape of the inner hole means that the burrs corresponding to the selected primitive are located inside the template in the mold design, and do not intersect the edge of the template. The outer shape means that the burr corresponding to the selected element is located at the edge portion of the template in the mold design drawing. In step S12, the punch form selection module 120 selects the punch form of the compact according to the selected primitive. Wherein, the punch form of the compact comprises a contoured inner hole, a rectangular inner hole, a contoured shape and a rectangular outer shape. If the selected 12 200819938 primitive is an inner hole shape, the punch of the contour inner hole or the rectangular inner hole may be selected.

V form; if the selected element is an outer shape, a punch form of a contoured or rectangular shape may be selected. In step S13, the working parameter setting module 130 is configured to set the shape of the burr to be pressed as needed, and store the set shape as the burr attribute in the database. In the preferred embodiment, the burr to be pressed can be set to a beveled shape or an arcuate shape. If you choose to press the burr into a bevel, you also need to set the angle of the bevel to be pressed. If you choose to press the burr into a circular arc, you also need to set the radius of the arc to be pressed. Wherein the angle of the bevel is between more than 0° and less than 90°. In step S14, the fixed mode setting module 140 sets the fixing mode of the compact according to the punch form of the selected compact. The fixing method of the pressing block includes a shoulder type, a screw pressing type, a lock screw type and a pressing block type. Wherein, if the punch of the pressing block is in the form of a contoured inner hole, the fixing manner of the pressing block can be selected by a shoulder type or a locking screw type; if the punching form of the pressing piece is a rectangular inner hole, a contoured outer φ shape or a rectangular shape In terms of shape, the fixing method of the pressing block can be any one of a shoulder type, a screw pressing type, a lock screw type and a pressing block type. In step S15, the plausibility check module 150 checks whether the clamp fixing method is reasonable. Wherein, if the fixing method of the pressing block is a shoulder type, it is checked whether the length of the shoulder is greater than the length of the edge portion of the pressed pressing block, and if so, it indicates that the fixing manner is unreasonable; if not, it indicates that the fixing manner is reasonable . If the fixing method of the pressing block is a screw pressing type, it is checked whether the portion of the screw embedded in the pressing block contains the entire pressing block, that is, the pressing block is included in the screw, and if so, the fixing manner is unreasonable; if not , which indicates that the fixed party 13 200819938 will meet. If the clamp is fixed in the form of a lock screw, check whether the screw is beyond the range of the clamp. If it is, it indicates that the fixing method is unreasonable; if not, it indicates that the fixing method is reasonable. If the fixing method of the pressing block is a briquetting type, it is checked whether the side of the square shoulder block embedded in the pressing block exceeds the range of the pressing block, and if so, it indicates that the fixing manner is unreasonable, and if not, it indicates that The fixing method is reasonable. In step S16, if the clamping block is fixed in a reasonable manner, the structure drawing module 160 is configured according to the shape of the pressing block selected in step S12 and the structural drawing of the fixed burr in the step si4. This structural drawing can directly press the burrs into the strip by stamping. In step S15, if the briquetting fixing method is reasonably unreasonable, returning to step S14 to reselect the fixing mode. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a system architecture of a preferred embodiment of the burring system of the present invention. Figure 2 is a flow diagram of a preferred embodiment of the burring method of the present invention. Figure 3 is a schematic view of the inner hole type burr. Figure 4 is a schematic view of the outer form of the burr. Figure 5 is a schematic view of the punch form of the contoured inner bore. Figure 6 is a schematic view of a punched form of a rectangular inner bore. Figure 7 is a schematic view of a punched form of a contoured shape. Figure 8 is a schematic view of a punch form of a rectangular shape. Figure 9 is a schematic view of the shoulder-mounted manner. Fig. 1 is a schematic view of the system of the screw pressing type. 200819938 _ Figure 11 is a schematic diagram of the locking screw type fixing method. Figure 12 is a schematic view of a clamp type fixing method. [Main component symbol description] Computer 1 Database 2 Input device 3 Output device 4 Primitive selection module 110 Punch form selection module 120 Operating parameter setting module 130 Fixed mode setting module 140 Rationality checking module 150 Structure drawing Module 160 15

Claims (1)

200819938 * X. Patent application scope 1. A burr system, including a computer and a database, the computer includes: a primitive selection module for selecting a primitive in the mold design drawing that needs to be embossed from the database; The head form selection module is configured to select a punch form of the press block according to the selected picture element; the work parameter setting module is configured to set the shape of the flash to be pressed according to the need; — the fixed mode setting module is used according to the The punch form of the selected compact block sets the fixing mode of the pressure block; the rationality check module is used to check whether the set pressure block fixing mode is reasonable; and the structure drawing module is used to set the clamp block fixing mode. When it is reasonable, the structure diagram of the bristle edge is drawn according to the punch form of the selected compact and the fixed manner set. φ 2. The burr system according to claim 1, wherein the working parameter setting module is further configured to store the set burr shape in the database. 3. The burr system of claim 1, wherein the element comprises an inner hole shape and an outer shape. 4. The burr system of claim 3, wherein the punch form of the compact comprises a contoured inner bore, a rectangular inner bore, a contoured shape, and a rectangular outer shape. 5. The burr system according to the first aspect of the patent application, the pressure 16 200819938 # block fixing method includes a shoulder type, a screw pressing type, a lock screw type and a clamp type. 2, a burr method, the method comprises the following steps: selecting a primitive in the mold design drawing that needs to be embossed; selecting a punch form of the compact according to the selected primitive; setting the shape of the burr according to need Setting the fixing method of the pressing block according to the punch form of the selected pressing block; checking whether the set pressing method of the pressing block is reasonable; and when the setting method of the pressing block is reasonable, the punch according to the selected pressing block The form and the fixed method set to draw the knot diagram of the bristle. 7. The method according to claim 6, wherein the method further comprises the step of: storing the set shape of the burrs to be stored in a database 0, 8, as in claim 6 In the burr method, the punch form of the compact comprises a contoured inner hole, a rectangular inner hole, a contoured shape, and a rectangular outer shape.乂 9. The burr method according to claim 6, wherein the ghosting method comprises a shoulder type, a screw pressing type, a lock screw type, and 17