CN203711638U - Multi-station stamping mold for middle-sized parts of automobile - Google Patents

Abstract

The utility model provides a multi-station stamping mold for middle-sized parts of an automobile. The multi-station mold comprises an upper mold and a lower mold, wherein the upper mold comprises an upper mold base; the lower mold comprises a lower mold base; and each of the upper mold base and the lower mold base is provided with a trimming station, a punching station and a shaping station, the trimming station comprises a trimming positioning structure and a trimming cutter, the punching station comprises a punching positioning structure and a punch, the shaping station comprises a shaping positioning structure and a shaping cutter, the trimming station and the punching station are located on two sides of the shaping station, the upper mold travel produced when the trimming cutter starts working is smaller than that produced when the punch starts working, and the upper mold travel produced when the punch starts working is smaller than that produced when the shaping cutter starts working. According to the multi-station stamping mold for the middle-sized parts of the automobile, total tonnage of single stamping part mold is reduced, mold cost investment is saved, and space requirement for mold storage are reduced.

Description

The punching press multi-station mold that a kind of automobile is medium-sized

Technical field

The utility model relates to punch forming field, is specifically related to the punching press multi-station mold of medium-sized of a kind of automobile.

Background technology

Automobile body-in-white part mostly is stamping parts, after stamping parts structural design is determined, should take into full account the economy of its processing, at utmost reduces stamping parts cost.Stamping parts cost generally includes blank plate expense, jig frequency expense, mold tooling amortization charge etc.In most factories, the external conditions such as equipment, personnel, material are substantially constant over a period to come, and will reduce stamping parts cost, mainly from the aspect of rationally arranging of Sheet Metal Forming Technology, set about.

Take automobile as example, automobile body-in-white uses the length of punching parts generally in 3 meters, and body in white 60%(weight) above part length mainly concentrates on 1 meter of left and right (300mm up and down fluctuates), this part part is commonly called medium-sized, is generally the chief component of body frame.Part normally plate, large floor member and vertical beam-like part in outer covering piece, door closure class that size is greater than medium-sized, be below referred to as large piece; The part normally small-sized connecting plate of vehicle body, mounting bracket class part that size is less than medium-sized, be below referred to as small articles.At home according to traditional Sheet Metal Forming Technology layout, large piece mainly adopts the punching press of automation line line at present, medium-sized main adopt the punching press of manual line line, small articles mainly adopt the little lathe of separate unit not the mode of line punching press produce.This three types part diel adopts single station compound die more, in one pair of mould, only contains the diel of a die cavity.

For large piece and small articles, this traditional impact style, mould mates substantially with punch line lathe tonnage and work top, wouldn't need to improve.For medium-sized, according to above-described conventional in layout, often there is the situation of the less mould of larger lathe production, cause the invisible waste of so-called " low load with strong power ".Meanwhile, also cause the bottleneck of medium-sized press machine resource anxiety of Liao Ge punching press producer, waste problems such as the waste of the overall tonnage virtual height of vehicle mould and the overall stamping parts jig frequency of vehicle cost virtual heights.

Utility model content

In order to address the above problem, the utility model provides the punching press multi-station mold of medium-sized of a kind of automobile, and it reduces the overall tonnage of single stamping part die, and the input of having saved die cost has reduced the parking space demand of mould.

The technical scheme addressing the above problem:

The punching press multi-station mold that a kind of automobile is medium-sized, it comprises upper die and lower die, described patrix comprises upper bolster, described counterdie comprises die shoe, described upper bolster, die shoe is equipped with deburring station, punching station, shaping station, deburring station comprises trimming orientation structure and knife tool, punching station comprises punching location structure and drift, shaping station comprises shaping location structure and plastic knife, described deburring station and described punching station are positioned at the both sides of described shaping station, the patrix stroke that patrix stroke when described knife tool is started working is less than described drift while starting working, the patrix stroke that patrix stroke when described drift is started working is less than described plastic knife while starting working.

Selectable, described patrix has the first elastic component, the first rigid member, described counterdie has the second elastic component, the second rigid member, described the first elastic component, described the first rigid member and upper bolster are fixed, described the second elastic component, described the second rigid member and die shoe are fixed, during punching press, described the first elastic component first coordinates with described the second elastic component, described the first rigid member and the sports limiting that coordinates to realize described upper bolster after described the second rigid member.

Selectable, described punching press multi-station mold comprises the guiding-positioning structure of realizing guide-localization between upper bolster and described die shoe, described guiding-positioning structure comprise first guide positioning plate fixing with upper bolster, with the fixing guide pillar of upper bolster, with fixing the second guide positioning plate of die shoe, with the fixing guide pin bushing of die shoe.

Selectable, described patrix has press material structure, described press material structure comprises binder body, spring, bolt, the first guide, the two ends of described spring, described bolt connect respectively press material structure and upper bolster, described the first guide and described binder body are fixed, and described upper bolster has the second guide matching with the first guide.

Selectable, described upper bolster has assembly technology hole, and described deburring station has press material structure, during dismounting, the press material structure of described deburring station is by described assembly technology hole, shift out from the back side of upper bolster, and the back side of described upper bolster refers to the opposite face of patrix knife tool place face.

Selectable, described knife tool comprise the patrix knife tool fixing with upper bolster, with the fixing counterdie knife tool of die shoe, described patrix knife tool coordinates and realizes deburring with described counterdie knife tool; Described punching cutter comprise the patrix drift fixing with upper bolster, with the fixing counterdie drift of die shoe, described patrix drift coordinates and realizes punching with described counterdie drift; Described plastic knife comprise the patrix plastic knife fixing with upper bolster, with the fixing counterdie plastic knife of die shoe, described patrix plastic knife coordinates and realizes shaping with described counterdie plastic knife; Described trimming orientation structure comprises and is positioned at the ambilateral location of counterdie edge iron backing pin, described punching location structure comprises the first location-plate that is positioned at counterdie drift both sides, described shaping location structure comprises and is positioned at counterdie plastic knife the second location-plate around, and described location backing pin, described the first location-plate, described the second location-plate are fixedly connected with described die shoe.

Selectable, described counterdie has waste material derived type structure, described waste material derived type structure comprises deburring scrap chute, shaping scrap chute, punched scrap box, described deburring scrap chute, shaping scrap chute, punched scrap box and described die shoe are fixed, described deburring scrap chute is positioned at described counterdie knife tool away from a side of counterdie plastic knife, described counterdie shaping scrap chute is positioned at described counterdie plastic knife near a side of described counterdie knife tool, and described punched scrap box is positioned at the below of described counterdie drift.

Selectable, described shaping station is positioned at the center of described punching press multi-station mold, and described deburring station and described punching station are respectively in the both sides of shaping station and equate with the centre-to-centre spacing of shaping station.

Selectable, described deburring station, punching station, shaping station are positioned at three die cavitys of same mould.

The beneficial effects of the utility model:

1. this punching press multi-station mold is integrated in the station of deburring, punching, three conventional operations of shaping on same mould, the both sides that simultaneously the larger deburring station of required stamping press and punching station are arranged in to the shaping station that required stamping press is less, have realized the stress balance of mold integral; The initial job order of controlling knife tool, drift, plastic knife, adopts reasonable stroke to arrange, and has further eliminated unbalance loading, guarantees that stamping press is evenly distributed.

2. punching press multi-station mold of the present utility model, the merging by die holder reduces the overall tonnage of single stamping part die, has saved the input of die cost, has reduced the parking space demand of mould; The operation ratio that has reduced stamping parts, has significantly improved punching press beat, has significantly saved the jig frequency expense of medium-sized; Reduce operating personnel's quantity, reduced and half-finishedly deposited and circulate, reduced generally labour intensity, effectively discharged space resources and human resources.

Accompanying drawing explanation

Fig. 1 is the three-dimensional structure diagram of the patrix of the utility model embodiment;

Fig. 2 is the three-dimensional structure diagram of the counterdie of the utility model embodiment;

Fig. 3 is the three-dimensional structure diagram of the multi-station mold of the utility model embodiment;

Fig. 4 is the left view of the multi-station mold of the utility model embodiment;

Fig. 5 is the A-A cutaway view of Fig. 4;

Fig. 6 is the three-dimensional structure diagram of press material structure of the deburring station of the utility model embodiment;

Fig. 7 is the three-dimensional structure diagram of press material structure of the punching station of the utility model embodiment.

Description of reference numerals: 100-patrix, 101-upper bolster, 102-the first elastic component, 103-the first rigid member, 104-patrix knife tool, 105-patrix drift, 106-patrix plastic knife, 107-binder body, 108-spring, 109-bolt, 110-the first guide, 111-assembly technology hole, the 112-back side, 113-the first guide positioning plate, 114-guide pillar, 115-cover plate, 200-counterdie, 201-die shoe, 202-the second elastic component, 203-the second rigid member, 204-counterdie knife tool, 205-counterdie drift, 206-counterdie plastic knife, 207-locates backing pin, 208-the first location-plate, 209-the second location-plate, 210-deburring scrap chute, 211-shaping scrap chute, 212-punched scrap box, 213-the second guide positioning plate, 214-guide pin bushing.

The specific embodiment

Below in conjunction with accompanying drawing, specific embodiment of the utility model is described in detail.

As Fig. 1, shown in 2, the punching press multi-station mold that automobile is medium-sized comprises patrix 100 and counterdie 200, patrix 100 comprises upper bolster 101, counterdie 200 comprises die shoe 201, upper bolster 101, die shoe 201 is equipped with deburring station, punching station, shaping station, deburring station comprises trimming orientation structure and knife tool, punching station comprises punching location structure and drift, shaping station comprises shaping location structure and plastic knife, deburring station and punching station are positioned at the both sides of shaping station, the patrix stroke that patrix stroke when knife tool is started working is less than drift while starting working, the patrix stroke that patrix stroke when drift is started working is less than plastic knife while starting working.Patrix stroke refers to the distance that patrix moves downward from top dead-centre.

The knife tool of deburring station can be taked wavy edge, to reduce whole offset loading force.During mould punching, respectively the process part processing of three stations is put at correspondence position, a punching press completes three operation contents of a part; Then in order each process part processing is moved on to next station, complete punching press next time, by that analogy.And circulate by the interior shifting of process part processing, realize the continuous high-efficient of stamping parts and produce.

While being stamped into the end, the control of upper bolster 101 strokes can be realized by location structure in the limit inferior position of patrix 100.Preferably, patrix 100 has the first elastic component 102, the first rigid member 103, counterdie 200 has the second elastic component 202, the second rigid member 203, the first elastic component 102, the first rigid member 103 are fixed with upper bolster 101, the second elastic component 202, the second rigid member 203 are fixed with die shoe 201, during punching press, the first elastic component 102 first coordinates with the second elastic component 202, the first rigid member 103 and the rear sports limiting that coordinates to realize upper bolster 101 of the second rigid member 203.Adopt two rigid members to realize the sports limiting of upper bolster 101, adopt two elastic components first to contact the impact that is conducive to cushion 101 pairs of die shoes 201 of upper bolster.

The work cutter of each station is comprised of two parts, and two parts lay respectively at the lower surface of upper bolster 101 and the upper surface of die shoe 201.Location structure is for the location of workpiece, and location structure can adopt location-plate, alignment pin, positioning fixture etc.Preferably, knife tool comprise the patrix knife tool 104 fixing with upper bolster 101, with the fixing counterdie knife tool 204 of die shoe 201, patrix knife tool 104 coordinates and realizes deburring with counterdie knife tool 204; Punching cutter comprise with upper bolster 101 be fixed to patrix drift 105, with the fixing counterdie drift 205 of die shoe 201, patrix drift 105 coordinates and realizes punching with counterdie drift 205; Plastic knife comprise the patrix plastic knife 106 fixing with upper bolster 101, with the fixing counterdie plastic knife 206 of die shoe 201, patrix plastic knife 106 coordinates and realizes shaping with counterdie plastic knife 206; Trimming orientation structure comprises the location backing pin 207 that is positioned at counterdie knife tool 204 both sides, punching location structure comprises the first location-plate 208 that is positioned at counterdie drift 205 both sides, shaping location structure comprises and is positioned at counterdie plastic knife 206 the second location-plate 209 around, and location backing pin 207, the first location-plate 208, the second location-plate 209 are fixedly connected with die shoe 201.The location that adopts location backing pin 207 to realize shaping station, simple in structure, convenient operation.

The waste material derived type structure of three stations can adopt the structures such as chute, waste material box, and the layout of waste material derived type structure can arrange any suitable location of die shoe 201.Preferably, counterdie 200 has waste material derived type structure, waste material derived type structure comprises deburring scrap chute 210, shaping scrap chute 211, punched scrap box 212, deburring scrap chute 210, shaping scrap chute 211, punched scrap box 212 are fixed with die shoe 201, deburring scrap chute 210 is positioned at counterdie knife tool 204 away from a side of counterdie plastic knife 206, counterdie shaping scrap chute 211 is positioned at counterdie plastic knife 206 near a side of counterdie knife tool 204, and punched scrap box 212 is positioned at the below of counterdie drift 205.The waste material derived type structure of each station is convenient to skidding off smoothly of stampings, and is conducive to improve manually-operated security, convenience.

As shown in Fig. 3～5, the overall size of the press material structure of deburring station generally all can surpass trimming line profile, from positive inconvenience, takes out press material structure.Preferably, upper bolster 101 has assembly technology hole, and deburring station has press material structure, during dismounting, take off cover plate 115, the press material structure of deburring station is shifted out to the back side of upper bolster 101 from assembly technology hole, the back side of upper bolster 101 refers to the opposite face of patrix knife tool 104 place faces.When the assembly technology hole increasing can be avoided tearing press material structure open, tear edge iron piece open, press material structure can be split out from the back side of upper bolster 101.

Between upper bolster 101 and die shoe 201, can set up guide frame and realize the guiding that upper bolster 101 moves downward, preferably, punching press multi-station mold comprises the guiding-positioning structure of realizing guide-localization between upper bolster 101 and die shoe 201, guiding-positioning structure comprise first guide positioning plate fixing with upper bolster 101, with the fixing guide pillar 114 of upper bolster 101, with fixing the second guide positioning plate 213 of die shoe 201, with the fixing guide pin bushing 214 of die shoe 201.Adopt guide positioning plate to realize thick guiding, adopt guide pillar 114 and guide pin bushing 214 to realize essence guiding, guaranteed the kinetic stability of upper bolster 101, strengthened the centering of upper bolster 101 with each station cutter of die holder.

The spacing of deburring station, shaping station, punching station is provided with multiple choices.Preferably, shaping station is positioned at the center of punching press multi-station mold, and deburring station and punching station are respectively in the both sides of shaping station and equate with the centre-to-centre spacing of shaping station.Adopt above-mentioned setting, further guaranteed the stress balance of mold integral.

Three stations can be positioned at different moulds, and preferred, deburring station, punching station, shaping station are positioned at three die cavitys of same mould.Adopt this structure, be convenient to processing, cost-saving.

As shown in Figure 6,7, patrix 100 need to arrange the compression that press material structure is realized workpiece punching press chamber, preferably, patrix 100 has press material structure, press material structure comprises binder body 107, spring 108, bolt 109, the first guide 110, the two ends of spring 108, bolt 109 connect respectively press material structure and upper bolster 101, the first guides 110 are fixing with binder body 107, and upper bolster 101 has the second guide matching with the first guide 110.Above-mentioned compressing structure is provided with guide frame, can take into account simultaneously and compress and guiding, guarantees that applying of thrust is stable.

A kind of How It Works of punching press multi-station mold, described multi-station mold is above-mentioned punching press multi-station mold, during punching press, described die shoe 201 is fixing, described upper bolster 101 moves the punching press that realizes each station near die shoe 201, described knife tool, described drift, described plastic knife are started working successively.The start node of this mould various piece running is relevant with the stroke of upper bolster 101, introduces for example the stroke principle of multi-station mold of the present utility model in a complete jig frequency below.

The sequence of operations with the punching press multi-station mold of guiding-positioning structure, deburring press material structure, punching press material structure, the first elastic component 102, the first rigid member 103, the second elastic component 202, the second rigid member 203 is:

When patrix 100 moves downward from top dead-centre, 130mm before closed, the first guide positioning plate contacts importing at first with the second guide positioning plate 213, and mold integral does not stress, and only depends on guide positioning plate guiding;

Patrix 100 continues downwards, 90mm before closed, and guide pillar 114 starts to import guide pin bushing 214, and mold integral does not stress, by guide pin bushing 214 and guide pillar 114, and the first guide positioning plate and the second guide positioning plate 213 integrated guidances;

Patrix 100 continues downwards, 30mm before closed, the press material structure of deburring station and punching station contacts workpiece simultaneously, start binder, in this section of stroke, deburring station is stressed stressed larger than punching station, mould, by guiding-positioning structure integrated guidance, carrys out producing balanced forces by die holder, and mould guide plate overcomes offset loading force;

Patrix 100 continues downwards, 7mm before closed, patrix knife tool 104 starts to contact with workpiece, deburring starts, and the first elastic component 102 contacts with the second elastic component 202 and compresses to reduce impulsive force, relies on guide to overcome remaining a small amount of unbalance loading simultaneously, and rely on the accurate guiding of guide pillar 114 to guarantee punching precision, this punching comes the flight distribution of stamping-out back segment, makes in theory unbalance loading in the last stroke of stamping-out eliminate, and is conducive to protect drift;

Patrix 100 continues downwards, 3mm before closed, and drift starts to contact workpiece;

In 3mm before on earth, trimming process step completes residue deburring and waste material cuts off, and the station of punching simultaneously completes punching, and in last stroke on earth, shaping station completes the shaping of product, and the first rigid member 103 coordinates the termination that has realized patrix 100 motions with the second rigid member 203.

Stroke node is not limited to above-mentioned numerical value, can carry out corresponding change according to the required stamping press of each station.

After patrix 100 motions stop, the punching press content of a jig frequency all completes, and patrix 100 moves upward afterwards, and deburring station presses core and punching station to press core to rely on respectively spring 108 dischargings separately; Complete after discharging, mould oppositely moves upward to top dead-centre to be stopped, and after operating personnel complete process part processing displacement, repeats next jig frequency operation.

Although the utility model is described in conjunction with above embodiment, but the utility model is not limited to above-described embodiment, and be only subject to the restriction of claims, those of ordinary skills can easily modify to it and change, but do not leave essence design of the present utility model and scope.

Claims (9)

1. the punching press multi-station mold of medium-sized an of automobile, it is characterized in that, it comprises upper die and lower die, described patrix comprises upper bolster, described counterdie comprises die shoe, described upper bolster, die shoe are equipped with deburring station, punching station, shaping station, deburring station comprises trimming orientation structure and knife tool, punching station comprises punching location structure and drift, shaping station comprises shaping location structure and plastic knife, and described deburring station and described punching station are positioned at the both sides of described shaping station; The patrix stroke that patrix stroke when described knife tool is started working is less than described drift while starting working, the patrix stroke that patrix stroke when described drift is started working is less than described plastic knife while starting working.

2. the punching press multi-station mold of medium-sized of automobile according to claim 1, it is characterized in that, described patrix has the first elastic component, the first rigid member, described counterdie has the second elastic component, the second rigid member, described the first elastic component, described the first rigid member and upper bolster are fixed, described the second elastic component, described the second rigid member and die shoe are fixed, during punching press, described the first elastic component first coordinates with described the second elastic component, described the first rigid member and the sports limiting that coordinates to realize described upper bolster after described the second rigid member.

3. the punching press multi-station mold of medium-sized of automobile according to claim 2, it is characterized in that, described punching press multi-station mold comprises the guiding-positioning structure of realizing guide-localization between upper bolster and described die shoe, described guiding-positioning structure comprise first guide positioning plate fixing with upper bolster, with the fixing guide pillar of upper bolster, with fixing the second guide positioning plate of die shoe, with the fixing guide pin bushing of die shoe.

4. the punching press multi-station mold of medium-sized of automobile according to claim 3, it is characterized in that, described patrix has press material structure, described press material structure comprises binder body, spring, bolt, the first guide, the two ends of described spring, described bolt connect respectively press material structure and upper bolster, described the first guide and described binder body are fixed, and described upper bolster has the second guide matching with the first guide.

5. the punching press multi-station mold of medium-sized of automobile according to claim 4, it is characterized in that, described upper bolster has assembly technology hole, described deburring station has press material structure, during dismounting, the press material structure of described deburring station is by described assembly technology hole, shift out from the back side of upper bolster, and the back side of described upper bolster refers to the opposite face of patrix knife tool place face.

6. according to the punching press multi-station mold of medium-sized of the automobile described in any one in claim 1～5, it is characterized in that, described knife tool comprise the patrix knife tool fixing with upper bolster, with the fixing counterdie knife tool of die shoe, described patrix knife tool coordinates and realizes deburring with described counterdie knife tool; Described punching cutter comprise the patrix drift fixing with upper bolster, with the fixing counterdie drift of die shoe, described patrix drift coordinates and realizes punching with described counterdie drift; Described plastic knife comprise the patrix plastic knife fixing with upper bolster, with the fixing counterdie plastic knife of die shoe, described patrix plastic knife coordinates and realizes shaping with described counterdie plastic knife; Described trimming orientation structure comprises and is positioned at the ambilateral location of counterdie edge iron backing pin, described punching location structure comprises the first location-plate that is positioned at counterdie drift both sides, described shaping location structure comprises and is positioned at counterdie plastic knife the second location-plate around, and described location backing pin, described the first location-plate, described the second location-plate are fixedly connected with described die shoe.

7. according to the punching press multi-station mold of medium-sized of the automobile described in any one in claim 1～5, it is characterized in that, described counterdie has waste material derived type structure, described waste material derived type structure comprises deburring scrap chute, shaping scrap chute, punched scrap box, described deburring scrap chute, shaping scrap chute, punched scrap box and described die shoe are fixed, described deburring scrap chute is positioned at described counterdie knife tool away from a side of counterdie plastic knife, described counterdie shaping scrap chute is positioned at described counterdie plastic knife near a side of described counterdie knife tool, described punched scrap box is positioned at the below of described counterdie drift.

8. according to the punching press multi-station mold of medium-sized of the automobile described in any one in claim 1～5, it is characterized in that, described shaping station is positioned at the center of described punching press multi-station mold, and described deburring station and described punching station are respectively in the both sides of shaping station and equate with the centre-to-centre spacing of shaping station.

9. according to the punching press multi-station mold of medium-sized of the automobile described in any one in claim 1～5, it is characterized in that, described deburring station, punching station, shaping station are positioned at three die cavitys of same mould.