CN1882413B - System and method for making braces for dies - Google Patents
System and method for making braces for dies Download PDFInfo
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- CN1882413B CN1882413B CN2004800339636A CN200480033963A CN1882413B CN 1882413 B CN1882413 B CN 1882413B CN 2004800339636 A CN2004800339636 A CN 2004800339636A CN 200480033963 A CN200480033963 A CN 200480033963A CN 1882413 B CN1882413 B CN 1882413B
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Abstract
A system and method for producing braces for a cavity die having a predetermined shape are disclosed. The system includes an input file containing information about the shape of the cavity die and a bracing program running on a computer. The bracing program produces an output file based on the input file and brace parameters. The output file includes information about the design of the braces. The computer instructs a brace-making machine to produce the braces based on the information in the output file. The method includes the steps of: a) providing input information about the shape of the cavity die and the brace parameters to the computer; b) processing the input information by the computer to produce an output file containing information about the design of the braces; and c) producing the braces in accordance with the information from the output file.
Description
Technical field
The present invention relates to produce the system and method for the tie rod that is used for former.The present invention also can be applicable to the other field that must paste the edge cuts band.
Background technology
U.S. Patent No. 6,233,309 have described and can take the cutter that are connected with base plate apart.These cutter extend on every side with the tool rest of direction on base plate perpendicular to base plate.At least one elongated cross member is reinforced cutter and is extended to the other end from tool rest one end.With fastenings movably cross member is installed on the base plate.Can move apart base plate to cutter then and retighten.No.6, the described cutter of 233,309 patents do not provide any device that is used to design and produce tie rod for the cutter of wide variety of shapes.In these complete introducing U.S. Patent No. 6,233,309 references as this specification.
Therefore, need some system and methods that easier design and production are used for mould.
Summary of the invention
The objective of the invention is prior art is improved or provided for prior art the alternative of practicality.For design or produce the tie rod be used for mould (die) or some system and methods are provided also is purpose of the present invention in order to design or cut the band that is pasting the border.Following content is to be used for introducing the present invention rather than being used for limiting the present invention to the reader.The present invention can belong in this data or other parts of this data, the element that for example occurs in claims or the combination of step or local combination.
According to first kind of situation of the present invention, a kind of system that produces the tie rod be used to contain the reservation shape former is provided, this system comprises: the input file about former reservation shape information a) is housed; B) for use the data processor of tie rod application configuration from input file and a plurality of tie rod parameter generating output file, wherein output file comprises the information about the tie rod design; And c) be applicable to a kind of tie rod maker of producing tie rod, this tie rod maker is suitable for communicating by letter with data processor, and wherein data processor is applicable to and instructs the tie rod maker to produce tie rod according to the information in the output file.
According to second kind of situation of the present invention, provide a kind of equipment that is used for the tie rod of former with band production.This equipment comprises: the pedestal that a) is used to carry band; B) be used for the material feeding device of mobile material tape on first direction; C) cutting tool that can move up in the second party of crosscut material strip; And d) is used for the mobile of coordinating material feeder and cutting tool so that carry out the control system of desirable cutting at band.
According to the third situation of the present invention, provide a kind of method of producing the tie rod be used to contain the reservation shape former.This method comprises: a) provide input information to data processor, input information comprises the information about former reservation shape and tie rod parameter; B) contain output file with data processor processes input information with generation relevant for the tie rod design information; And c) produces tie rod according to information from output file.
According to the 4th kind of situation of the present invention, provide a kind of method be equipped with about the output file of the tie rod design information that is used to contain the reservation shape former that produces.This method comprises: a) provide input information to data processor, input information comprises that the tie rod parameter comprises the tie rod width about the information of former reservation shape and tie rod parameter, the initial tie rod central point from the edge, minimum tie rod spacing and maximum tie rod spacing; And b) handle input file and tie rod parameter to produce output file, wherein treatment step comprises:
I) draw a pair of have parallel center line and be positioned at from what former was lighted vertically edge tie rod center line farthest begin the edge tie rod of tie rod central spot from Edge Distance, the edge tie rod have the constant width the same with the tie rod width and by with the determined end face section of former shape meet; And
If ii) the distance between the edge tie rod is greater than maximum tie rod spacing, then draw and have the center line parallel and a plurality of rule internal bracings at interval that leave each other between the edge tie rod with the edge tie rod, quantity is to make the minimum quantity that leaves regular spaces between minimum tie rod spacing and the maximum tie rod spacing each other, internal bracing have the constant width the same with the tie rod width and by with the determined end face section of former shape meet.
According to the 5th kind of situation of the present invention, the output file that contains the tie rod design information that is useful on the reservation shape former for generation provides a kind of computer-readable media of the computer program that is equipped with thereon to be write down.The step that computer program can be carried out computer is: a) access is about the information of former reservation shape; B) access and tie rod are positioned at the tie rod parameter of pass, and the tie rod parameter comprises the tie rod width, begins the tie rod central point from the edge, minimum tie rod spacing and maximum tie rod spacing; And c) handle input file and tie rod parameter to produce output file, treatment step comprises;
I) draw a pair of have parallel center line and be positioned at from what former was lighted vertically edge tie rod center line farthest begin the edge tie rod of tie rod central spot from Edge Distance, the edge tie rod have the constant width the same with the tie rod width and by with the determined end face section of former shape meet; With
If ii) the distance between the edge tie rod is greater than maximum tie rod spacing, then draw and have the center line parallel and a plurality of rule internal bracings at interval that leave each other between the edge tie rod with the edge tie rod, quantity is to make to leave rule minimum quantity at interval between minimum tie rod spacing and the maximum tie rod spacing each other, internal bracing have the constant width the same with the tie rod width and by with the determined end face section of former shape meet.
Description of drawings
Consult following accompanying drawing now, will describe a kind of or more kinds of embodiment of the present invention by embodiment:
Fig. 1 is the isometric view of a kind of reinforcement type cutting towards film.
Fig. 2 A is until 2F is the plane of selected different shape punch die;
Fig. 3 is the signal image of tie rod manufacturing system;
Fig. 4 is continue the shape of determining tie rod and the flow chart of some steps after the position;
Step by step the flow chart of Fig. 5 in Fig. 4 step 48;
Fig. 6 is the front elevational view of tie rod maker;
Fig. 7 is the rear elevation view of tie rod maker;
Fig. 8 is the part plan view of tie rod maker;
Fig. 9 is the signal image of the terminal fixture in the tie rod maker;
Figure 10 is the signal image of the piston apparatus in the tie rod maker;
Figure 11 is that the guiding machinery schematic representation of apparatus in the tie rod maker resembles;
Figure 12,13 and 14 is signal images of the calculating control system in the tie rod maker.
Figure 15 is a flow chart of producing the tie rod method.
The specific embodiment
Fig. 1 is the isometric view of cutting punch die 10.Cutting punch die 10 is equipped with and is used in the cutter 12 that the one side contains the band formation of cutting edge 14.Make cutter 12 bend to the reservation shape or the die cavity of the sealing of determining by the point of a knife of cutting edge 14 with various angles.Cutter 12 is generally made with steel.Cutting edge 14 can have so various dissimilar bevel, so that the point of a knife of cutting edge 14 can be on center, side of deflection or an edge at cutter 12 of cutter 12 thickness.Cutter 12 can have the perforation in its side; At cutting edge 14 outsides folding otch rag, perhaps, decide with purposes at the notch cut channel of non-blade port outside.
Punch die 10 also has the multi-purpose tie rod 16 of being fit to.Decide with purposes, these purposes can comprise in following one or more multinomial: (i) support cutter 12 or help to keep the punch die shape; (ii) exerting all one's strength is distributed to the base plate (not shown) from punch die 10 and (iii) is provided for punch die is installed in device on the base plate, and (iv) is provided for being installed in device on the punch die 10 resembling slitter, perforator, stamp or long and thin cutter and so on part.
Continue to consult Fig. 1, generally tie rod 16 is placed in the zone that is subjected to cutter 12 constraint in order to avoid disturb mutually with the punch die of any adjacency on being installed in same base plate.Tie rod 16 is generally made with steel and is welded mutually with other tie rods 16 or cutter 12 at its end face.Tie rod can be cut from band (being also referred to as raw material), its end face is cut into the inner surface of cutter 12 or it is mounted to any other surface of using in welding or other fixing means desired permissible variation scopes be complementary.Install to such an extent that fit in the seamless situation wanting to make punch die 10 with the base plate surface, with regard to shown in punch die 10 with regard to, make the fit seamless installation and comprise and be used to put into the eyelet 18 that resembles screw and so on fastenings of the tie rod 16 and the non-blade port of cutter 12, so that punch die 10 is fixed on the base plate.For other kind punch dies, tie rod can be placed on the different positions.For example, for being embedded to punch die in the base plate to cutter 12, when pounding cutter 12 in the base plate, can be placed on tie rod 16 on the point of a knife in the middle of two blades of cutter so that contact base plate or remain on above the base plate.Cutter 12 also can have indentation 20, is also referred to as the mark indentation, and indentation 20 for example is used for constituting collimating marks or fold indication in the material that punch die 10 will cut.Indentation 20 can only partly stretch into cutter 12 as shown or can extend to the non-blade port of cutter 12.If indentation 20 extends through the plane of tie rod 16, then tie rod 16 may make the tracing wheel profile disconnect, and avoids indentation 20 otherwise can adjust to the position of tie rod 16.
Fig. 2 A represents the plane of selected different shape punch die 10 to 2F.As shown in the figure, tie rod can have various structural forms and location.For example, the punch die 10a of Fig. 2 A is included in the tie rod 16a that extends between the surface, inside of cutter 12a.Can call the edge tie rod to expression near the left surface of punch die 10a or the tie rod 16a ' of right flank.Can " call internal bracing to other tie rods 16a.Can for example be fixed by welding in the tie rod 16P that can call support braces between other tie rods 16.Can for example be fixed by welding in other tie rods 16b that can call the connector drawstring between the surface, inside and tie rod 16a of cutter 12a.Punch die 10b among Fig. 2 B comprises one group of tie rod 16c and not parallel with tie rod 16c additional tie rod 16d and 16e of extension parallel to each other.Punch die 10c among Fig. 2 c comprises one group of tie rod 16f and the additional tie rod 16g that supports cutter 12c, and tie rod 16g can be called the lateral tie of support perforator 22.Except that perforator 22, lateral tie 16g can be fixed on the position relevant with cutter 12 resembling slitter, stamp or long and thin cutter and so on part.Can be installed to tie rod 16 to perforator 22 or other parts by the various devices that comprise welding, resemble the screw, clip or the compressing tablet that are assembled in tie rod 16 perforations and so on clamp structure.Many tie rod 16 can be used for supporting big perforator or other parts.Lateral tie 16g can be only for the discrete tie rod that perforator or other parts provide being set or can being the tie rod 16 that is provided with for subsidiary other purposes of carrying out lateral tie 16g function.
Punch die 10 described in Fig. 2 A-C and tie rod 16 are the features with most of punch die 10.Yet, the punch die 10 of unique shape appears often, and tie rod can to make the punch die 10 of unique shape firm be the reason that its unique shape produces.For example, the punch die 10d among Fig. 2 d has one group of tie rod 16h being parallel to a direction and second group of tie rod 16i of parallel another direction.Each adapts two directions with the shape of a part of punch die 10d.Though the direction that is in some other angle can be arranged some other punch die but two directions are normally orthogonal in punch die 10d.Punch die 10e among Fig. 2 E is equipped with one group of tie rod 16j ' that separates each other with constant blank spacing at double and the tie rod 16j that separates each other with different spacing ".Make and still do not need the interior corners 22 of cutting in the cutter 12f in tie rod 16j " position adjustments become the be supported on 16j " side.Tie rod 16K also can increase the peninsula part of reinforcing in the punch die 10e.Punch die 10f among Fig. 2 F is equipped with in the formation of cutter 12g the inside and resembles rectangle and so on close-shaped tie rod 16m and 16l, and they all can be called the edge tie rod.Tie rod or connector tape 16n extend to cutter 12g from tie rod 161.But tie rod 16l also extends to cutter 12g can select only to extend to edge, tie rod 16m outside.Under such situation, can add the connector tape and replace prolongation invalid among the tie rod 16l, and form or on the position identical, be connected or on some other position, be connected with cutter 12g with cutter 12g with the invalid prolongation of tie rod 16l.Can increase extra connector tape 160.Employed tie rod schematic diagram generally can be described as in Fig. 2 F has one group of close-shaped tie rod of in punch die 10f formation 16 and one group of connector tie rod 16n extending to cutter 12g, 160 and the prolongation of 16l is arranged.
Also can occur punch die 10 in practice, can select the tie rod 16 that combination or application as one or more sketch in these sketches are described for constituting reinforcing rib except Fig. 2 A shape up to the shape shown in the 2F.
Fig. 3 represents to be used for making according to the specific embodiment of the invention system 30 of tie rod.This system comprises any data processor applicatory, for example carries out the computer 31 from the instruction of the tie rod program 32 (being discussed in more detail below) of packing into thereon.Resemble keyboard 34a and driver 34b and so on input unit, perhaps some other input unit can feed to computer input file 33 and selectively import the usefulness of tie rod parameter.For example contain and relevantly will cut the output file 35 of one or more tie rod shape informations, can selectively communicate by letter with the tie rod maker 38 (also being referred to as equipment) of following detailed description description from computer 31 via any suitable communication network 36.Tie rod maker 38 receives output file, reads output file and one or more tie rods 16 of cutting of determining to cut one or more tie rod 16 shapes.In other words, can select output file to be outputed to printer or plotter 39 from computer 31 by communication network 36.Printer or plotter 39 are read output file and are produced explanation and will cut the pattern of one or more tie rod 16 shapes.Printer or plotter 39 also can produce explanation tie rod 16 and be equipped with the pattern that helps punch die 10 later assemblings at punch die 10 metas that will reinforce.
Consult Fig. 1,3 now, particularly consult Fig. 4, will describe computer 31 operations of operation tie rod program 32.
Operation beginning when step 40, input file 33 is loaded into tie rod program 32 in step 40.Input file 33 comprises about reinforcing the information of punch die 10 shapes.For the input file 33 of packing into, the user for example can browse on driver 34b in the whole text and one or more file from existing file is selected a file, perhaps drafts the file that will pack in addition.Input file 33 can be equivalent to make or the clause of production run and can contain in a large number information at the vpg connection of different punch dies.
Agreement can comprise and be used in the DXF file formulating or the rule of format information.For example, the tie rod program can require to make all data relevant with punch die 10 shapes to put on and the different group code coding of group code numbering of any other information hereof.So just make the tie rod program can from other punch dies 10 or title branch, explain relevant information or other information in file and identify and isolate and punch die 10 shape relevant informations.At AutoCAb
TMIn interior some files of formulating, the above is to put into the BLOCK that is surrounded by BLOCK......ENDBLK by the handle information relevant with the punch die shape to realize.As long as each punch die is included in its own branch, then in input file, just can comprise a plurality of punch dies, and make the operator can select interested punch die 10 if desired, then make ENTITIES partly can show all shapes.Agreement also comprises the rule about scale that will use and unit, and for example scale can be 1: 1, and all units can be inches.Agreement also can comprise the rule of forbidding the unapprehended any kind shape description of tie rod program, and the tie rod program can comprise for example ARC in AutoCAR or POLYLINE function.In other words, for fear of need and revising tie rod program 32 to some versions of these versions in the agreement or all versions addressing.For example, in order to read ARC or POLYLINE function and to make them be transformed into a string line segment and can revise tie rod program 32.
In order in carrying out various functions, also to comprise other rules in auxiliary tie rod program 32 agreements.For example, rule can relate to about the message structure of punch die in the branch layer.For example, can be when putting into discrete layers about the information of perforator address or other internal features of punch die, the point of a knife of the basic configuration of punch die 10 or its cutting edge 14 can be included in on one deck.This just makes tie rod program 32 can find out the needed information of some step and isolate needed information from other information that are equipped with in the complete file that is used for punch die 10.In other words, in order to answer the version that in agreement, addresses or to establish for the version that addresses in the agreement and can revise the tie rod program along separate routes so that can simplify agreement.For example, browse input file 33 and identification punch die parameter and institute and find feature in the punch die parameter, to such an extent as to do not need information is arranged on as described above branch or the interior routine of layer and can revises the tie rod program in order to comprise to resemble.
In step 42, conversion input file 33 in needs.Though step 42 is expressed as a part of tie rod program 32, discrete program also can be used for or carry out conversion before file is input to tie rod program 32 or in the time of the file that receives from the output of tie rod program.Also can be included in selection to step 42 not from user input or not under the situation of user report automatically in one or more routine the tie rod program 32 of operation.Further, step 42 can be divided into step by step various or by on subroutine other appropriate locations in whole process of one or more discrete program or tie rod program 32 or the conversion of carrying out on the distributed locations in whole process.
Step 42 can comprise the input file operation that produces according to agreement.For example, step 42 can be included in the input file information that moves between branch, so that all information of relevant punch die 10 shapes are put into the special-purpose branch that is used for each punch die 10.Resemble the non-support shape information of POLYLINE and so on and can be transformed into a series of line segments.
Step 42 also can comprise simplifies that tie rod program 32 replaces Extended Protocols or the certain operations of the work of other operations of requiring later in whole process.For example, indentation 20 can be included in punch die 10 shapes but the plane by tie rod 16 not.Therefore, do not need to remove indentation 20 for the cutting tie rod.Step 32 does not require in agreement to formulate input file but can comprise with the indentation of deletion and browses input file that is used for indentation 20 and the conversion routine that replaces indentation 20 with line segment.In order to make indentation 20 location, indentation moves routine in technology is wanted scope or be similar to the shape search of specification requirement, and indentation moves routine and can be imported or be included in the pre-configured file that is used for indentation 20 shapes by the user.Conversion routine or program also can be calculated the input file of the shape information relevant with cutting edge 14 points of a knife, in general come to this.Because cutting edge 14 points of a knife may depart from cutter 12 sides and can touch tie rod 16, therefore must estimate this skew.In punch die 10, be equipped with under the occasion of the perforator that supports with tie rod 16 or other parts similarly skew takes place.For example, can in step 42, calculate the skew relevant by the inside dimension that increases as skew requires with these inner bodies.Optional is, can be after the shape of determining tie rod some functions in the execution in step 42.For example, can calculate between annular cutter 12 sides and cutting edge 14 blade tips and be offset by regulate the tie rod shape later in definite tie rod shape.
In step 44, select the punch die 10 that to reinforce from input file.For example, by browsed punch dies 10 that all punch dies 10 show and select to want, by from the alphanumeric sign table that is equivalent to punch die 10, selecting, perhaps the BLOCK numbering of the punch die 10 that is used to want by other demonstration can be selected special-purpose punch die 10.Can on screen, show selected punch die 10 then and can ask that the user confirms to select still to elect in addition.In case for tie rod has been selected special-purpose punch die 10, initialization routine is just removed any former shape information and can be removed suitable parameter or make suitable parameter reset to default numerical value.For by the more convenient access of other routines in the tie rod program, duplicate the branch of the selected punch die of representative from input file.Also can copy to document location in the tie rod program to the name that is used for punch die 10 or sign.
In step 46, import the parameter relevant with the position with the quantity of tie rod 16.After selecting punch die 10, can import these tie rod parameters by the keyboard 34a of user by quick response.By some other method, for example be included in the total input file that extracts by tie rod program 32 by the input parameter file or parameter.Other times execution in step 46 that also can be during the course, for example, before the dress input file.The tie rod parameter can be to guarantee that tie rod is with suitable and be enough to satisfy prefabricated the fixing then that the intended purpose of punch die 10 designs.For the purposes of various ranks or type punch die 10 can be determined some tie rod parameter group in advance.Determine this rank or type punch die 10 can with the material that whether has perforator or other internal features and them to locate, install the specification requirement of punch die 10 wherein, in punch die 10, use at punch die 10 geometries, or the situation of some other factor under will use the punching press type of punch die 10 to decide.Thereby for the difformity punch dies 10 that will use in more similar application, these parameters may be summarized to be produces the qualified needed specification requirement of tie rod 16 systems.In other words, for example, to have under the occasion that similar techniques requires at most of or all punch dies 10 that will reinforce, can determine that a tie rod parameter is singly organized and be embodied in the tie rod program so that step 46 becomes part work in the tie rod program that the user can't discover.Furtherly, the tie rod program can be applicable to and reexamine punch die 10 and determine suitable attaching bar parameter according to the tie rod parameter of one group of input in the past or programming or by calculating or by selection.
The tie rod parameter group is considered the needs that are used for determining the method for tie rod shape and position is selected.For the following method that will describe, the tie rod parameter as described below.
The tie rod parameter | Describe |
The tie rod width | Material width with cut tie rod |
Begin the tie rod central point from the edge | Edge tie rod center line is to the vertical range at punch die edge |
Edge tie rod extra support length | The edge tie rod external margin maximum length that when the edge tie rod is positioned at from the initial tie rod central point of Edge Distance, is allowed |
When over-expense support parameter from the edge initial tie rod center | If surpass the vertical range that edge tie rod extra support length then will adopt from edge tie rod center line to the punch die edge |
Minimum tie rod spacing | Minimum spacing between the center line of neighboring edge tie rod or adjacent inner tie rod |
Maximum tie rod spacing | Maximum spacing between the center line of neighboring edge tie rod or adjacent inner tie rod |
The internal bracing bearing length | Be used for the length of tie rod internal edge, if surpass, then expression needs extra support to reinforce |
Tie rod installing hole diameter | If the installing hole diameter that is used for tie rod suitable for some skews of the device that is calculated control when adjusting, then will cut installing hole |
Tie rod is installed the isolated edge distance | Be used for determining the distance of some installing hole central points from the tie rod edge |
Some other parameter also may be that tie rod program 32 is desired, and can import with the same time of step 46 or at other appropriate times.For example, directly or by the material type that is used for cutter 12 being listed in inventory and being equipped with to key in some parameters of representing cutting edge 14 points of a knife that cutter 12 sides are offset to the program reference table (PRT) of different materials skew.Also can key in some parameters of representing cut point and skew of perforator side or punch die internal feature with similar method.If indentation 20 will can be keyed in some parameters of representing indentation 20 shapes so by tie rod procedure identification and removing.The indentation parameter can comprise form indentation 20 some lines wherein the minimum length, indentation 20 of lines along the maximum length of punch die periphery, the minimum angles that between first side of indentation 20 and adjacent punch die 10 parts, forms or the minimum angle of indentation 20.Some other parameter also can be used for the other feature of some other step.For example, if tie rod program 32 can detect and revise the discontinuity in punch die 10 is shaped, then, adjacent not connection line segment can accurately measure radius for being searched for.Another parameter need can indicate whether some eyelets.Various parameters can at a time all be keyed in or can import some parameters in a plurality of moment that are dispersed in whole total process.
In step 48, determine the quantity and the position of tie rod.Step 48 can be divided into shown in Figure 5 each step by step.
Consulting Fig. 1,3 and 5 now, is that some discontinuities in the punch die parameter are verified punch die 10 when step 50.If detect some discontinuities, then can call subroutine and search for and provide the method that connects line segment the adjacent line segment that does not connect in the scope of accurately measuring radius.If do not produce as not satisfied effect as shown on the screen if the adjacent connection that do not connect line segment or provided is provided, the operator can stop this program so.Also can handle possible discontinuity according to the part steps of step 42 or by the continuous shape of request in the input file agreement.
In step 52, the reference direction relevant with punch die 10.Though can adopt the some other reference direction that is fit to adjustment, in the following description, reference direction is assumed to horizontal plane.In order to adjust punch die 10 orientations, the rectangular profile line formation of punch die 10 is had near punch die 10 outer peripheral horizontal side and vertical side.Punch die 10 can be contained in the rectangle fully, but this rectangle is not more than to holding punch die 10 desired rectangles fully.Then to turn over the incremental rotation punch die 10 of a specific angle of rotation.On each angle, form a new rectangle and measure new rectangular area face and store.After punch die 10 is turned over specific rotational angle, the rectangular area when more at every turn rotating and punch die recover to be rotated so that produce the rectangle of minimum area.Can automatically perform this step fully by drafting agreement or importing agreement down on this occasion, can make punch die 10 horizontal alignments or slewing area feel that even as big as making the people punch die 10 is random orientations usually at input file.In the change that operating personnel participate in, the operator can make punch die 10 turn at the very start and it seems as drawing permission of minimum rectangle or punch die 10 shape facilities or position vertical or level.Can come execution in step 52 by a bigger limited slewing area like that as previously discussed then.In case find minimum rectangle, if necessary, just rotate punch die 10 again, so that the longest edge of minimum area rectangle is a level.
In step 54, determine the position and the shape of edge tie rod 16.This is to be undertaken by the tie rod 16 of at first drawing two special tie rod width.These are leaving being vertical and being to leave each other at interval from the supercentral edge of the initial tie rod of Edge Distance tie rod 16 center lines of Far Left point and rightmost point on the punch die 10.By determining the end surface shape of edge tie rod 16 with the peripheral meet of punch die 10.Determine the length at edge, every edge tie rod 16 outside then.If any edge tie rod has the edge, outside greater than edge tie rod extra support length, the position of deckle edge tie rod again then, if on the support distances from the Far Left of punch die 10 or rightmost edge when suitable begin the tie rod center from the edge so that its center line is in.Owing to as described in, (describe below) and can increase connector tie rod 16 in step 58, therefore overspend support apart from the time begin the tie rod center greater than begin the tie rod central point from Edge Distance from the edge.
In step 56, determine quantity, shape and the position of internal bracing 16.For this reason, determine horizontal range between edge tie rod 16 center lines.This section horizontal range is divided into a plurality of parts that are equal to that are created in the minimum number internal bracing 16 that leaves the interval between maximum tie rod spacing and the minimum tie rod spacing each other.It is vertical and by horizontal range being divided into some internal bracings 16 of the cut-point that is equal to part to draw its center line.By determining the end surface shape of internal bracing 16 with punch die 10 parameter meets.
In step 58, determine the quantity of some connector tie rods 16, shape and position.For this reason, determine the position over-expense support apart from the time begin the outward flange length of the arbitrary edge tie rod 16 at tie rod center from the edge.Suppose that such length greater than edge tie rod extra support length, then will be provided with connector tie rod 16.If so, then use edge tie rod extra support length except that such length and an integer of desired connector tie rod 16 quantity of resulting numerical value truncation one-tenth representative.Then by adding-determine these positions along the connector tie rod 16 of edge tie rod 16 with these integer division edge tie rod 16 external margin length.Connector tie rod 16 is in the position of its center line level by cut-point.An end face of every connector 16 is cut into square, by with determine the other end shape towards film 10 peripheral meets.
In step 60, determine the quantity of some support braces 16, shape and position.For this reason, need to consider every pair of adjacent vertical tie rod 16, will consider internal bracing 16 by two pairs of parts and 16 in edge tie rod is considered by a pair of part.With regard to every counter brace 16, determine the right hand edge length of left side tie rod 16 and the left hand edge length of the right tie rod 16.If any edge then will increase some support braces 16 greater than the internal bracing bearing length.In order to determine the position of support braces 16, long edge is become to represent that integer to vertical tie rod 16 desired support braces 16 quantity divided by the internal bracing bearing length and resultant numerical value truncation.Then longer edges is added one and increase with its center line level some support braces by cut-point divided by this integer.The end face of every support braces 16 has foursquare section configuration.Also can use the standby routine that support braces is set.For example, this program can be earlier to the right hand edge of the left side of centering tie rod 16 provide support and the left hand edge of the right tie rod of checking this centering then to determine whether also to need more support braces 16.
In step 62, determine quantity, position and the shape of some lateral ties.For this reason, verify be equipped with about according to layerings in the input file 33 of the information of the perforator of agreement or other inner bodies to have determined whether some parts like this.The full-size of any internal feature add any the supposition suitable skew and tie rod width make comparisons.Less than the tie rod width, increase makes its center line along the shortest vertical line of arbitrary other tie rod 16 or the lateral tie 16 of horizontal line orientation for internal feature.For bigger internal feature, form two or more tie rods abreast to constitute desired width.For very large internal feature, the user can improve the transversely strengthening of being determined by program at the appropriate time.
In step 64,, then automatically installing hole 18 is arranged on tie rod 16 ends with punch die 10 parameter meets if needs are arranged.When input parameter is delivered to program, whether to there be some eyelets to depend on the purposes of punch die 10.The tie rod program is calculated the orientation of installing hole 18 with following method: serve as that tie rod 16 is divided into the longitudinal centre line that two half widths are searched tie rod (i); (ii) each tie rod half width is searched perpendicular to the straight line of tie rod center line by innermost half width meet punch die parameter point; (iii), installing hole 18 is set from the vertical inside tie rod mounting distance of above-described straight line with inside from tie rod 16 edge levels.Processing has the installing hole 18 of tie rod installing hole diameter." then installing hole 18 also is arranged on the center of tie rod 16 if tie rod length is greater than 10.If tie rod length is less than 1.5 " and two end faces all with punch die parameter meet, then two installing holes 18 are provided with in the center of tie rod 16.When finishing tie rod and place automatically, discern tie rod to the tie rod numbering or with method for distinguishing.
In step 66, the user can be by moving, and interpolation or deletion tie rod 16 improve reinforcing.For this reason, on the screen of computer 31, show the reinforcing situation to the user.The user can add with some easy input units then, moves or deletion tie rod 16.Just give tie rod 16 numberings again and can be a kind of other tie rods in case rearrange or add, be i.e. automatic adjustment of internal bracing or artificial the adjustment.Before permission interpolation or mobile tie rod 16, tie rod program 32 can be verified according to locating rule, for example following rule: (i) tie rod 16 keeps flat in punch die 10, (ii) tie rod 16 can not be placed in tie rod 16 scopes that have in advance, (iii) tie rod 16 end faces cannot with another tie rod 16 and punch die 10 outside both meets, and (iv) angle type tie rod 16 can not be overlapping with other tie rods 16, or the like.Requirement at the horizontal tie rod of another side interpolation of another tie rod 16 or vertical tie rod 16 can be interpreted as requirement to a plurality of tie rods 16 in straight line.Can add tie rod 16, move or delete some tie rods 16 so that reach B, the described effect of 2b, 2E or 2F as Fig. 2.When the user can carry out these changes in the description embodiment, can alternately adjust program so that reach effect same.
An a kind of embodiment of special circumstances is a kind of punch dies that resemble L shaped shape punch die and so on, the rectangular pattern that this punch die is not suitable for using in the method.Can be used as such punch die and be into two discrete rectangular areas, some tie rods of the minimum dimension that is parallel in that zone are housed in each zone, can be for L shaped shape punch die is set by some respond well tie rod 16 length are compared the tie rod program 32 of improving, surpass parameter if find length increment, then rotate and be used in the end the reference direction of an area above the tie rod (before big tie rod length increment) and repaint the tie rod that is used for that area.Some punch dies with long inner projection portion or turning need to support in these corners.Some tie rods on these punch dies must be configured to support interior corners.In such certain situation, dispose some tie rods according to above method, but but in tie rod, do not have on the other hand to move wherein internal bracing under the situation of otch, if also meet minimum and the maximum spacing rule just until till this internal bracing support turning.This also can enough tie rod programs 32 reach by these signature search being made then nearest tie rod move up to supporting the turning towards feature with very little stride.Then, verify the punch die parameter so that determine whether to increase the not bearing length of cutter 12 any parts so that need to determine whether additional tie rod.On all four sides, can reinforce rectangle or the square punch die that has in a large number greater than 8 inches very small scale with the vertical connector tie rod that pedestal is connected with the punch die lateral surface.Should make vertical connector tie rod leave spacing each other according to above method.
Consult Fig. 1,3 and 4 again, be provided for shape, quantity and the position of the tie rod 16 in a kind of given punch die 10 according to the output in the step 49.This output can be adopted any easy mode.For example, this output can be to be suitable for resembling the output file 35 that the further mode of handling of tie rod maker 38 and so on produces.In other words, the tie rod situation that tie rod program 32 is produced is for example at the drafting document of tie rod 16 or print pattern or the drafting document of the punch die 10 reinforced or print in the pattern directly perceived the demonstration.Before output, if former program number of no use, so can with from left to right and order from top to bottom automatically give some tie rods 16 numberings.
The tie rod maker 38 (also being referred to as equipment) of tie rod 16 is preferably cut in Fig. 6-8 expression from band (not expressing).This band is generally made with steel.At the various width that in about 5/8 to 2 inch or bigger scope, change, can obtain to use at all thickness that in about 1/8 to 1/4 inch scope, changes with at the band that can optional length from about 8 to 16 feet scope be suitable for tie rod.Every tape is normally straight, but in general along its some bending of length in two planes vertical and parallel with strip width.
A series of piston in combination parts 112 are installed on the frame 102 and this to material strip is pressed to say so on the roller very practical.
Consult Fig. 6 and Figure 10 now, piston in combination parts 112 are equipped with the pneumatic cylinder 118 that is fixed on the piston installation bracket 120, and piston installation bracket 120 is used for piston component 112 is installed in frame 102.Cylinder 118 driven plunger axles 122 move in control interval device 124 so that the axis of the piston 122 tops remain in the plane of feeder 104 bottoms or below.Docking facilities 126 one of projection on the axis of the piston 122 tops highly makes it can be engaged on the wall scroll material strip on the feeder bottom and does not touch the second tape.Driving pneumatic cylinder 118 can stretch out the axis of the piston 122 and docking facilities 126 can be pressed to material strip on the roller 110.
Consult Fig. 6-8 again and particularly consult Fig. 8, roller 110 is equipped with the benchmark edge of determining stand 108 and the flange 114 that prevents from material strip was pushed away the benchmark edge.A series of guiding mechanical devices 116 are installed on the stand relative with the benchmark edge 108 another edges.
Consult Fig. 6 and 11 now, guiding mechanical device 116 is equipped with the vertical roller 128 that is installed in the oblique angle piece 130.With the skewed popularity that makes vertical roller 128 tendency tie rod makers 38 fronts vertical roller 128 is installed on the oblique angle piece 130.When material strip was on stand 108, vertical 128 pairs of strip edges of roller are exerted pressure so that the flange 114 of material strip tendency stand 108 central rolls 110.Yet oblique angle piece 130 itself just is installed on the guide seats 132 by spring, so the weight by material strip and piston in combination parts 112 pressure that material strip is pressed to stand 108 from feeder 104 makes oblique angle piece 130 fall to side.Upwards return with back bevel angles piece 130 on stand 108 at tape and to make vertical roller 128 can touch strip edges., just on frame 102, guide seats 132 is installed by pivot 134 although but the moving range of vertical roller 128 is limited to hold the band material of different in width.Can turn thumbscrew 136 makes guide seats 132 slide into the position that is suitable for the different in width tape along pivot 134.Although the elastic biasing of the still vertical roller 128 of band some bucklings in the material width plane makes band can keep the state of band against the benchmark edge of stand 108.
Consult Fig. 6-8 again and especially consult Fig. 8, can remain on a blank tape on the stand 108 with any one anchor clamps in two anchor clamps.First anchor clamps are the front jigs that are placed on stand 108 fronts.
Consult Fig. 6 and 9, front jig 138 comprises and is used for supporting each parts of front jig 138 and is used for fore-clamp 138 is installed in installation bracket 140 on the frame 102.Front jig device 138 also have the material strip that will cut can against wearing plate 142.A pair of fastening roller bearing 144 passes wearing plate 142 and is installed on the chuck actuator 146.Chuck actuator 146
Computer 31 also can be used for Artificial Control tie rod maker 38.For Artificial Control, computer 31 provides the interface that the information that is provided by some inputs shown in Figure 13 and some other systematic function indicator can be provided to the operator.Computer 31 also make the operator in can direct control commander Figure 13 servo control mechanism 158,166 or output separately shown in Figure 14.For example, for select from the distance of correcting action and some outputs shown in Figure 14 and other can turn on and off, advance or withdraw, mesh or unclamp, startup and non-startup can make servo control mechanism 158,166 repositions or shift servo mechanism 158,166.Computer 31 also allows the operator can key in the order that can surmount or be modified in the automatic function on the PLC 502.For example, the operator can make PLC 502 or again set or response alarm carry out that ongoing running stops, time-out or reset operation.These different commands that computer 31 is keyed in the operator are transformed into some signals of commander PLC 502.Computer 31 can also provide or change the various machineries that are stored in the PLC 502 controls parameters.These parameters can comprise the project that resembles the extreme limit of travel that is used for servo control mechanism 158,166 or desirable servo control mechanism speed and so on.These parameters also can comprise and resemble between the center that near the proximity switches the cutting tool 164 180 and cutting tool 164 cut or settle various the departing from of spacing between the benchmark edge of the cutting tool 164 of proximity switches 180 and stand 108 and so on.These depart from PLC 502 usefulness to come the information that becomes the physical location of relevant material strip, cutting tool 164 or the charging anchor clamps 148 that cutting from the information conversion of proximity switches 180.
Consult Figure 12 again, will more go through each parts of PLC 502 now.Power supply 504 is provided for the electric power of PLC 502.All processing among the CPU 506 control PLC 502.Servo control mechanism controller 508 control cutting tool servo control mechanism 166 and charging servo control mechanisms 158.Cutting tool servo control mechanism 166 advances cutting tool 164 or withdrawal and charging servo control mechanism 158 advances material feeding device 150 or withdraws.Communication card 510 makes PLC 502 be connected with hub 518 and therefore controls computer 31.The a plurality of input units as shown in figure 13 of input controller 512 controls.Each input unit is determined the situation of a kind of parts in the tie rod maker 38.This input is included in a large amount of aforesaid proximity switches of combining in the dashed rectangle in Figure 13 180.Other inputs comprise air pressure switch 522 and the emergent stop signal button 524 of master relay.Air pressure switch 522 is determined any other fur lacing machine 38 parts whether air is pressed is enough to operate cylinder 118 or pneumatically driving.Whether master control stop signal button 524 detecting operation persons have pushed emergent stop signal button, if so, then cut off the power supply of machine 38.Can add some other input as desired.
Various parts in the o controller 514 control machines 38, as shown in figure 14.Generally be to control these parts by the various accessories of not expressing.For example, chuck actuator 146, exhaust unit 174, cutting tool 164 and charging anchor clamps 148 all are with power-actuated.O controller 514 is controlled these parts by various switches or relay.Cylinder 118 is that pneumatically drives and o controller 514 comes control cylinder 118 by the base part that appropriate combination resembles relay, solenoid and valve.For being provided, some other function can add some other control.For example, in order to add printing machine at a part of number of seal or a string number on the trade mark of the every tie rod that is cut or can to add remover in order to remove these tie rods before leaving machine 38 at some tie rods.Also can before the cutting tie rod, remove and code.
Figure 15 represents the cutting process 600 that control system 500 is carried out.In step 602, make control system 500 and 38 initialization of tie rod maker.This step comprises each sub-steps that control system 500 and tie rod maker 38 can be started at any time.For example, make servo control mechanism 158 and 166 correcting actions and whether its leading edge is below cutting tool 164 on stand 108 in order to determine material strip, whether whether communication link opened to await orders with tie rod maker 38 starts and verifies.For the fault that overcomes some initial stages is carried out some steps, for example, if on stand 108, do not have whatever, the strip material tape or can make material strip on the stand 108 move forward at least one section minimum aperture distance of then can packing into so that its front edge is in below the cutting tool 164.
In step 604, PLC 502 waits for the output file 35 that will download.In case reception file, processing procedure just forward the information that folding is got relevant tie rod 16 to, can be the step 606 of the information of first tie rod 16 that will cut or next bar tie rod 16.If in PLC 502 input files that are computer 31 output files 35, comprise a plurality of tie rods 16, the PLC 502 tie rod total quantity that can set up index to write down or calculate will to cut then.Whether counter needs to cut more Duola's bar when making PLC 502 can determine below the step 620 described.
In step 608, verify the position of material feeding device 150 in case check material feeding device 150 whether on the material strip top and for next bar tie rod 16 cutting tool 164 of cutting from whether enough far.If two conditions do not satisfy, then processing procedure forwards step 622 to, makes material feeding device 150 move backward to the one section the same long distance of total length that adds the minimum operation space at least with the tie rod 16 that will cut in cutting tool 164 fronts in step 622.For mobile material feeder 150, at first make front anchor clamps 138 engagement and make charging anchor clamps 148 unclamp therefore that material strip can not move.Starting material feeding device 158 then moves material feeding device 150 backward.In step 624, verify, checking whether material feeding device 150 can ensure is enough to satisfy the band be used for next bar tie rod 16.This verification can comprise monitoring and determine whether material feeding device 150 has crossed proximity sense 180.If the operator attempts to cut the range greater than material feeding device 150, the tie rod less than the operation space of material feeding device 150 then overtravel may occur.This possibility also can be verified some tie rods 16 that are used for the overlength degree before this tie rod and avoids attempting to cut by the computer 31 that is equipped with or PLC 502.
In other words, control system 500 goes for cutting some bigger tie rods 16 by material feeding device 150 can itself be reorientated with respect to the tape that just is being cut when cutting wall scroll tie rod 16.In the present embodiment, material feeding device 150 remains on the only position tape that will cut when carrying out all cuttings for tie rod 16.
In order to check whether material is held also to verifying at charging anchor clamps 148 proximity sense 180 nearby.If it is too short to be used for cutting the material strip of tie rod 16 on stand 108, that just can not expose material.Under these circumstances, process proceeds to from stand 108 and extrudes existing material and put into the step 626 and 628 of new material strips.Can carry out the too short step 626 of tape by computer 31 by the operator of alertness.The operator re-moves material strip and keys in the instruction that the indication process can enter into step 626 by computer 31 then then.
In other words, step 626 and 628 can automatically perform.Move the material feeding device 150 that is used for automated procedure so that can catch approaching edge, tape back.Unclamp front anchor clamps 138, turn on charging anchor clamps 148, make material feeding device 150 move to its forward stroke boundary farthest then.This just makes material strip move to position in the front of the new tape of will packing into.The front anchor clamps 138 that close are then opened charging anchor clamps 148 and material feeding device 150 turns back to its correcting action.Cylinder 118 is advanced to be pressed to new tape on the stand 108.Close at charging anchor clamps 148 and withdrawal cylinder 118 on the new tape.Proximity switches 180 is verified the check that all cylinders advance and withdraw as requested.If new then tape below the cutting tool 164 of also catching the old tape by cutting chamber 162 fronts, then moves forward material feeding device 150 by presetting the distance that is enough to put down front edge.
In step 608, travel limit will not verified the existing position of material feeding device 150 yet before and after can not running into when guaranteeing during cutting mobile steel part.Verification like this is increased to the existing position of material feeding device 150 and the result that verified to the summit of the head that is cut to vertex distance so that guarantee the boundary that can not run into material feeding device 150.If can run into, then mobile material feeder 150 and not mobile as requested feed stock need not reorientated with respect to charging at the material feeding device 150 of making of cutting midway so that can cut.
When having satisfied the condition of some verifications in step 608, process proceeds to step 610.The head or the front edge of cutting tie rod 16 in step 610.In order to cut, PLC 502 produces the cutting section figure and the instruction array of servo control mechanism 158,166.Make servo control mechanism 158,166 move to first coordinate system in the sectional drawing.Connecting cutting tool 164 and servo control mechanism 158,166 then moves by their profile transmission.Turn-off cutting tool 164 then.
In step 612 and 614, control system 500 verifies whether need eyelet 18, if so talk about, just cuts eyelet 18.Verify the eyelet that whether has some to cut for convenience, 502 couples of PLC will cut the sum of eyelet and append notes to and maintenance counter when each eyelet 18 of cutting.To cut each eyelet 18 with described similar fashion aspect the head of cutting in the tie rod 16.During perforation 18, process enters into step 616, cuts tie rod 16 afterbodys in similar mode of how to cut tie rod 16 heads in step 616 having cut.Along with the cutting afterbody, tie rod 16 falls down by the front of cutting chamber 162.
After cutting tie rod 16, the material feeding device is moved forward is enough to guarantee to cut the space distance of next bar tie rod 16 head.Calculate apart from the width that cuts with cutting tool 164 in the space.The possibility that space distance will be calculated also in the end that the afterbody that cuts on the tie rod may extend forward towards the end direction of cutting and extend back from the benchmark edge of stand 108.Under these circumstances, the overall width of material is not under the stroke approach of cutting tool 164 and at cutting tool 164 proximity sense 180 nearby and can not be used for determining how many tapes need send to for getting rid of this problem.
Though space distance can not be provided in agreement with cause in some tie rods of problem the space distance can be set.In other words, tie rod 16 total length information can be used for determining the space of every tie rod in input file.Replace method with another kind, computer 31 can be made comparisons the head of tie rod 16 and afterbody cutting profile, and is considering to be identified under the situation of cutting width distance that material feeding device 150 moves and this distance is counted input file in step 618.In such method, thereby owing to have at the afterbody of a tie rod 16 and will cut in the certain situation of the similar shape of head of tie rod 16 PLC 520 with next bar and can reduce the space distance and save band.
After step 618, process changes step 620 over to, in step 620, for checking that whether having more Duola's bar to cut consults index, if so, then process is just returned step 606, if if not so, then process is returned step 604.Thereby process is continuous, but the operator can pass through computer 31 termination procedures when cutting tie rod when the operator finishes.
Though described the present invention with reference to some specific embodiment, can carry out various conversion and not do not break away from as the spirit and scope of the present invention described in claims below.Particularly, except without limits, can update routine 32, can use some other form cutters, some changing type systems can be used for mobile material tape and cutter, can change the configuration of machine, can use dissimilar anchor clamps, actuator, guide rail or piston in combination device, some other parts can be replaced the parts that are suitable for carrying out same task, can change agreement and can the performed order of steps of conversion.Further, be used for some system and methods that the tie rod of punch die uses, can revise in some other situation of a tape blank that coincide on design or cutting and border or use them though described in manufacturing, or the some parts in them.
Claims (40)
1. a production is used to have the system of tie rod of the former of reservation shape, and this system comprises:
A) contain input file relevant for the information of former reservation shape;
B) be configured to from the data processor of input file and a plurality of tie rod parameter generating output files according to the tie rod program, wherein output file comprises the information about the tie rod design; And
C) be applicable to the tie rod maker of producing tie rod, this tie rod maker is suitable for communicating by letter with data processor;
Wherein data processor is applicable to and instructs the tie rod maker to produce tie rod according to the information in the output file,
Wherein the tie rod maker comprises:
I) be applicable to the stand of the band that support will be cut;
The feeder that ii) is used for mobile band on first direction;
Iii) cutting tool movably on across the second direction of band; With
Iv) be applicable to the program logic controller that receives the instruction of cutting tie rod from the computer of foundation output file configuration, program logic controller is applicable to feeder and cutting tool and sends instruction.
2. according to the system of claim 1, wherein input file comprises the information that is used for multiple former.
3. according to the system of claim 1 or 2, further comprise the user's interface device that is used for selecting former from multiple former.
4. according to the system of claim 1 or 2, wherein input file comprises the DXF file.
5. according to the system of claim 1 or 2, wherein said a plurality of tie rod parameters comprise the tie rod width, begin the tie rod central point from the edge, minimum tie rod spacing and maximum tie rod spacing.
6. according to the system of claim 5, wherein said a plurality of tie rod parameters further comprise one or more structural elements of selecting from following group: (i) begin the tie rod center when over-expense support parameter from the edge; (ii) internal bracing bearing length; (iii) tie rod installing hole diameter; And (iv) tie rod is installed the isolated edge distance.
7. according to the system of claim 1 or 2, wherein data processor comprises computer.
8. according to the system of claim 1 or 2, wherein stand comprises a series of rollers.
9. according to the system of claim 1 or 2, further comprise being applicable to band being pressed to piston in combination device on the stand from loader.
10. according to the system of claim 1 or 2, further comprise the guiding mechanical device that is connected with stand, the mechanical device that wherein leads is applicable to the benchmark edge that makes band deflection stand.
11. according to the system of claim 1 or 2, wherein cutting tool comprises plasma torch.
12. according to the system of claim 1 or 2, wherein the tie rod maker further comprises cutting tool servo control mechanism that is applicable to mobile cutting tool and the charging servo control mechanism that is applicable to mobile magnetic holding device.
13. according to the system of claim 1 or 2, wherein program logic controller is applicable to that into the cutting tie rod receives instruction from computer, program logic controller is applicable to feeder and cutting tool and sends instruction.
14. according to the system of claim 13, wherein program logic controller comprises the servo control mechanism controller that is operatively connected with charging servo control mechanism and cutting tool servo control mechanism.
15. according to the system of claim 7, wherein computer and tie rod maker are got in touch with via communication.
16. one kind is used for the equipment of the tie rod of former with band production, described equipment comprises:
A) be used to support the stand of band;
B) be used for the feeder of mobile band on first direction;
C) cutting tool movably on across the second direction of band; And
D) be used to the control system of in band, carrying out desirable cutting and making the moving hormany of feeder and cutting tool, and
E) the guiding mechanical device that is connected with stand, the mechanical device that wherein leads are applicable to the benchmark edge that makes band deflection stand.
17. according to the equipment of claim 16, wherein stand comprises a series of rollers.
18., further comprise being applicable to band being pressed to piston in combination device on the stand from loader according to the equipment of claim 16 or 17.
19. according to the equipment of claim 16 or 17, wherein cutting tool comprises plasma torch.
20., further comprise the cutting tool servo control mechanism that is applicable to mobile cutting tool and be applicable to the charging servo control mechanism that moves forward into glassware according to the equipment of claim 16 or 17.
21. according to the equipment of claim 16 or 17, wherein control system comprises program logic controller, program logic controller is applicable to that into the cutting tie rod receives instruction from computer, program logic controller is applicable to feeder and cutting tool and sends instruction.
22. according to the equipment of claim 21, wherein program logic controller comprises the servo control mechanism controller that is operatively connected with charging servo control mechanism and cutting tool servo control mechanism.
23. equipment according to claim 16 wherein also comprises a plurality of flanges, described flange is installed in described stand first side and limits the benchmark edge, and the mechanical device that wherein leads is installed in described stand second side relative with described flange.
24. equipment according to claim 16, wherein also comprise the piston in combination device, described piston in combination device is installed on second side of described stand, and is adjacent with described guiding mechanical device, described piston in combination device constitutes band is pressed on the described stand from loader
Wherein said guiding mechanical device can move between the primary importance and the second place, be lowered under the described stand at the above guiding mechanical device of described primary importance, described piston in combination device is pressed to the band on the described guiding mechanical device on the described stand, and on the described second place, at least one guiding mechanical device leans against on the band on the stand, makes band deflection benchmark edge.
25. a production is used to have the method for the tie rod of reservation shape former, is used for the described system of claim 1, this method comprises:
A) provide input information to data processor, input information comprises the information about former reservation shape and tie rod parameter;
B) import information contains the information that designs relevant for tie rod with generation output file with data processor processes; And
C) produce tie rod according to information from output file,
Wherein production stage further comprises:
I) band that will cut is supported on the stand;
Ii) make band join feeder to, this feeder can be operated with mobile band on first direction;
Iii) be provided at across cutting tool movably on the second direction of band; With
Iv) coordinate moving of feeder and cutting tool so that in band, carry out desirable cutting by control system.
26. according to the method for claim 25, wherein input information comprises the input file that contains about the information of former reservation shape.
27. according to the method for claim 26, wherein input file comprises the DXF file.
28. according to each method in the claim 25 to 27, wherein coordinate step and adopt programmable logic controller (PLC), wherein this programmable logic controller (PLC) is operationally connected to cutting tool servo control mechanism and charging servo control mechanism.
29., wherein coordinate step and further may further comprise the steps according to the method for claim 28:
If a) be ready to cutting of web, then cut out the tie rod head from band;
B) cut out the tie rod afterbody from band; And
C) tie rod of one or more if desired, then to every tie rod repeating step (a) that will cut to (b).
30. according to the method for claim 25, if wherein former needs one or more tie rod, then treatment step further comprises the quantity and the position of calculating these tie rods.
31. according to the method for claim 30, wherein calculation procedure comprises:
A) the discontinuous place of inspection in the former periphery;
B) if find any discontinuous place, then proofread and correct these discontinuous places;
C) former is oriented on the reference direction;
D) determine the position and the shape of edge tie rod;
E) determine quantity, position and the shape of internal bracing;
F) if necessary, then determine quantity, shape and the position of connector tie rod;
G) if necessary, then determine quantity, shape and the position of support braces;
H) if necessary, then determine quantity, shape and the position of support braces; And
I) be provided for the installing hole of every tie rod.
32. according to the method for arbitrary claim in the claim 25,30 or 31, wherein the tie rod parameter comprise the tie rod width, begin the tie rod central point from the edge, minimum tie rod spacing and maximum tie rod spacing.
33. according to the method for arbitrary claim in the claim 25,30 or 31, wherein treatment step further comprises:
I) draw a pair of have parallel center line and be positioned at from the former solstics vertical with edge tie rod center line begin the edge tie rod of tie rod central spot from Edge Distance, the edge tie rod have the constant width the same with the tie rod width and by with the determined end face section of former shape meet; And
If ii) the distance between the edge tie rod is greater than maximum tie rod spacing, then draw and have the center line parallel and between the edge tie rod, leave rule a plurality of internal bracings at interval with the edge tie rod, the quantity of internal bracing is to make to leave rule minimum quantity at interval between minimum tie rod spacing and the maximum tie rod spacing, internal bracing have the constant width the same with the tie rod width and by with the determined end face section of former shape meet.
Design the method for output file of the information of tie rod 34. a generation is used to the former of reservation shape, be used for the described system of claim 1, this method comprises:
A) provide input information to data processor, wherein input information comprises about the information of former reservation shape and tie rod parameter, tie rod parameter and comprises the tie rod width, begins the tie rod central point from the edge, minimum tie rod spacing and maximum tie rod spacing; And
B) handle input file and parameter to produce output file, wherein treatment step comprises:
I) draw a pair of have parallel center line and be positioned at from the former solstics vertical with edge tie rod center line begin the edge tie rod of tie rod central spot from Edge Distance, the edge tie rod have the constant width the same with the tie rod width and by with the determined end face section of former shape meet; And
If ii) the distance between the edge tie rod is greater than maximum tie rod spacing, then draw and have the center line parallel and between the edge tie rod, leave rule a plurality of internal bracings at interval with the edge tie rod, the quantity of internal bracing is to make to leave rule minimum quantity at interval between minimum tie rod spacing and the maximum tie rod spacing, internal bracing have the constant width the same with the tie rod width and by with the determined end face section of former shape meet.
35. according to the method for claim 34, wherein input information comprises the input file that contains about the information of former reservation shape.
36. according to the method for claim 35, wherein input file comprises the DXF file.
37. according to the method for arbitrary claim in the claim 34 to 36, wherein output file comprises the drafting file of tie rod.
38. according to the method for arbitrary claim in the claim 34 to 36, wherein output file comprises the computer-readable instruction that is used for tie rod maker production tie rod.
39. according to the method for arbitrary claim in the claim 34 to 36, wherein the tie rod parameter further comprises one or more structural element of selecting from following group: (i) when over-expense support parameter, begin the tie rod center from the edge; (ii) internal bracing bearing length; (iii) tie rod installing hole diameter; And (iv) tie rod is installed the isolated edge distance.
40. according to the method for arbitrary claim in the claim 34 to 36, wherein treatment step further comprises:
A) discontinuity of inspection in the former periphery, and if find discontinuous place, these discontinuous places then proofreaied and correct;
B) former is oriented on the reference direction;
C) if necessary, then determine quantity, shape and the position of connector tie rod;
D) if necessary, then determine quantity, shape and the position of support braces;
E) if necessary, then determine quantity, shape and the position of support braces; And
F) be provided for the installing hole of every tie rod.
Applications Claiming Priority (7)
Application Number | Priority Date | Filing Date | Title |
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US50986703P | 2003-10-10 | 2003-10-10 | |
US50986803P | 2003-10-10 | 2003-10-10 | |
US60/509,868 | 2003-10-10 | ||
US60/509,867 | 2003-10-10 | ||
CA002470029A CA2470029A1 (en) | 2003-10-10 | 2004-06-04 | System and method for making braces for dies |
CA2,470,029 | 2004-06-04 | ||
PCT/CA2004/001809 WO2005035181A1 (en) | 2003-10-10 | 2004-10-08 | System and method for making braces for dies |
Publications (2)
Publication Number | Publication Date |
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CN1882413A CN1882413A (en) | 2006-12-20 |
CN1882413B true CN1882413B (en) | 2010-08-04 |
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ID=37520163
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2004800339636A Expired - Fee Related CN1882413B (en) | 2003-10-10 | 2004-10-08 | System and method for making braces for dies |
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CN (1) | CN1882413B (en) |
ZA (1) | ZA200602857B (en) |
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2004
- 2004-10-08 CN CN2004800339636A patent/CN1882413B/en not_active Expired - Fee Related
-
2006
- 2006-04-07 ZA ZA200602857A patent/ZA200602857B/en unknown
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4998206A (en) * | 1988-07-29 | 1991-03-05 | The Boeing Company | Automated method and apparatus for fabricating sheet metal parts and the like using multiple manufacturing stations |
US4951217A (en) * | 1988-08-05 | 1990-08-21 | Pmx, Inc. | System and process for generating a tool path offset |
US5117366A (en) * | 1989-06-28 | 1992-05-26 | Stong Jerald W | Automated carving system |
US6473671B1 (en) * | 2000-09-11 | 2002-10-29 | He Yan | 3-D modeling of prototype garments |
Also Published As
Publication number | Publication date |
---|---|
CN1882413A (en) | 2006-12-20 |
ZA200602857B (en) | 2007-09-26 |
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