CN209550388U - Stamping parts and processing assembly - Google Patents

Abstract

The utility model discloses a kind of stamping parts and processing assembly, and wherein processing assembly includes stamping parts, stamping parts for continuous stamping die to form irregular part, including the first bridge, for forming the standard module of the irregular part；Second bridge, for forming the deformed module of the irregular part；And bridging structure, it is set between first bridge and second bridge, to removable connection first bridge and the second bridge.The stamping parts of technical solutions of the utility model has the processing cost when producing irregular part low, the unrestricted advantage of processing length.

Description

Stamping parts and processing assembly

Technical field

The utility model relates to punch forming technical field, in particular to a kind of stamping parts and processing assembly.

Background technique

The progressive die refers to press machine in a punching stroke, using band-like or strip punching press raw material, in a secondary mould The cold stamping punch die of multi-step forming processes is completed at the same time on tool with several different stations, primary, material strip is completed in the every punching press of mold Fixed-distance moving is primary, until product is completed.

Continuous stamping die is in the special-shaped totally-enclosed or semiclosed product of production, since traditional part is integral type knot Structure is limited to by machine table, so that within the scope of the length of irregular part is defined to specifically, and the profiled portion of part is only It can be processed by the way of electro-discharge machining, not only processing cost is high, long processing time, and machining accuracy can not verify.

Utility model content

The main purpose of the utility model is to propose a kind of stamping parts, it is intended to it is high to solve existing irregular part processing cost The technical issues of.

To achieve the above object, the utility model proposes stamping parts, for continuous stamping die to form irregular part, Including

First bridge, for forming the standard module of the irregular part；

Second bridge, for forming the deformed module of the irregular part；And

Bridging structure is set between first bridge and second bridge, to removable connection described first Bridge and the second bridge.

Optionally, the bridging structure includes the first clamping portion and the second clamping portion, and first clamping portion and second block Socket part is respectively formed on first bridge and the second bridge, and is clamped adaptation.

Optionally, first clamping portion is formed in first bridge towards the side of second bridge, and described Two clamping portions are formed in second bridge towards the side of first bridge.

Optionally, first clamping portion is the card slot being formed on first bridge, and the card slot is in described first Bridge forms card interface towards the side of second bridge, and second clamping portion is the fixture block being set on the second bridge.

Optionally, the card slot forms access port, the access port and institute in at least side side wall of first bridge It states card interface to be connected, so that the fixture block slides into the card slot.

Optionally, the two opposite cell walls of the card slot are convexly equipped with stop block, two stop blocks to other side cell wall respectively Between have spacing, to form the card interface；The fixture block includes fastener and interconnecting piece, and the fastener is placed in the card It in slot, and is abutted against with the stop block, the interconnecting piece is connected between the fastener and second bridge, and is passed through The card interface.

Optionally, the stamping parts further includes position limiting structure, and the position limiting structure is set to first bridge and the second material Between bridge, to limit the relative position of first bridge and the second bridge.

Optionally, the position limiting structure includes the first groove body, the second groove body and spacer pin, first groove body and the second slot Body is respectively formed on first bridge and the second bridge, and can be interconnected to form slot, and the extension of the slot Glide direction of the direction with the fixture block along the card slot intersects, and the spacer pin is inserted in the slot.

Optionally, the bridging structure further includes third clamping portion and the 4th clamping portion, and the third clamping portion is set to institute Side of first bridge far from first clamping portion is stated, can be mutually clamped with the first clamping portion of another first bridge, with It is removable to connect adjacent first bridge；

4th clamping portion is set to side of second bridge far from second clamping portion, can be with another described the Second clamping portion of two bridges is mutually clamped, with adjacent second bridge of removable connection；

The third clamping portion is adapted to the 4th clamping portion clamping.

The utility model also proposes that a kind of processing assembly, the processing assembly include stamping parts and fulcrum bearing, the punching press Part includes the first bridge, for forming the standard module of the irregular part；Second bridge, for forming the irregular part Deformed module；And bridging structure, it is set between first bridge and second bridge, to described in removable connection First bridge and the second bridge；The fulcrum bearing is to support first bridge.

Technical solutions of the utility model are added using the standard module of the working special-shaped part of the first bridge using the second bridge The deformed module of work irregular part, and by the removable connection between the first bridge and the second bridge, so that the special-shaped portion of part Point can also punch forming, reduce the processing cost of irregular part, it is provided herein compared with existing integration stamped casting die Stamping parts, without using the processing method of electro-discharge machining, cost is more cheap.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of one embodiment of the utility model processing assembly；

Fig. 2 is the explosive view of processing assembly in embodiment illustrated in fig. 1.

Drawing reference numeral explanation:

Label	Title	Label	Title
				100	Stamping parts	10	First bridge
20	Second bridge	30	Bridging structure
				31	First clamping portion	311	Card interface
312	Access port	313	Stop block
				32	Second clamping portion	321	Fastener
322	Interconnecting piece	40	Position limiting structure
				41	First groove body	42	Second groove body
43	Spacer pin	200	Fulcrum bearing

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that if related in the utility model embodiment directionality instruction (such as upper and lower, left and right, it is preceding, Afterwards ...), then directionality instruction is only used for explaining opposite between each component under a certain particular pose (as shown in the picture) Positional relationship, motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, if relating to the description of " first ", " second " etc. in the utility model embodiment, " first ", " the Two " etc. description is used for description purposes only, and is not understood to indicate or imply its relative importance or is implicitly indicated meaning The quantity of the technical characteristic shown." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one A this feature.In addition, the meaning of the "and/or" occurred in full text is, and including three schemes arranged side by side, by taking " A and/or B " as an example, The scheme met simultaneously including A scheme or B scheme or A and B.In addition, the technical solution between each embodiment can be mutual In conjunction with, but must be based on can be realized by those of ordinary skill in the art, when mutual lance occurs in the combination of technical solution Shield or cannot achieve when, will be understood that the combination of this technical solution is not present, also not in the protection scope of the requires of the utility model Within.

The utility model proposes a kind of stamping parts, for continuous stamping die to form irregular part.

It in the utility model embodiment, please refers to shown in Fig. 1, which includes the first bridge 10, the second bridge 20 and bridging structure 30, wherein the first bridge 10 is used to form the standard module of irregular part, the second bridge 20 is different for forming The deformed module of type part, bridging structure 30 is set between the first bridge 10 and the second bridge 20, to removable connection First bridge 10 and the second bridge 20.

It should be noted that the profiled portion of irregular part is different from criteria section structure, and continuous stamping die can only Process same structure.Since existing stamping parts 100 is an integral structure, abnormal shape zero is being produced using continuous stamping die When part, continuous stamping die can only process the non-profiled part of part, and the profiled portion of part can only pass through electro-discharge machining Mode is processed, and it is high which results in the processing costs of irregular part.And stamping parts 100 provided herein, packet The first bridge 10 and the second bridge 20 are included, first bridge 10 and the second bridge 20 pass through the removable connection of bridging structure 30.The One bridge 10 can be used for forming the standard module of irregular part, i.e. the criteria section of part can be obtained after the first bridge 10 processing； Second bridge 20 is used to form the deformed module of irregular part, i.e. the profiled portion of part can be obtained after the second bridge 20 processing. Due to realizing the removable connection between the first bridge 10 and the second bridge 20 by bridging structure 30, in this way, different processing When type part, continuous stamping die can be used to process the first bridge 10 to obtain the standard module of part, then with another stamping die Tool the second bridge 20 of processing is to obtain the deformed module of part.Then standard module and special-shaped mould are spliced by bridging structure 30 Block finally obtains complete irregular part.Since the profiled portion of part can be processed by corresponding special-shaped stamping die, it is not necessarily to The mode for reusing electro-discharge machining is processed, therefore significantly reduces the processing cost of irregular part.As it can be seen that with existing one The stamping parts of formula is compared, and the stamping parts 100 of the application has the advantages that low processing cost.

Shown in referring to figure 2., in the present embodiment, bridging structure 30 includes the first clamping portion 31 and the second clamping portion 32, Wherein the first clamping portion 31 and the second clamping portion 32 are respectively formed on the first bridge 10 and the second bridge 20, and card between each other Connect adaptation.It is appreciated that having by the mutual clamping between the first clamping portion 31 and the second clamping portion 32 using clamping structure There is characteristic convenient for disassembly and assembly, realize the fast assembling-disassembling between the first bridge 10 and the second bridge 20, to improve adding for irregular part Work efficiency rate.

Further, bridging structure 30 further includes that third clamping portion (not shown) and the 4th clamping portion (do not show in figure Out).Wherein third clamping portion is set to side of first bridge 10 far from the first clamping portion 31, can on another first bridge 10 The clamping of 31 phase of the first clamping portion, with adjacent first bridge 10 of removable connection.It is remote that 4th clamping portion is set to the second bridge 20 Side from the second clamping portion 32 can be clamped, with removable connection phase with 32 phase of the second clamping portion on another second bridge 20 Adjacent second bridge 20.And the third clamping portion and the clamping of the 4th clamping portion are arranged, i.e. between the first bridge 10 and the second bridge 20 Can mutually it be spliced by third clamping portion and the 4th clamping portion.It should be noted that conventionally, as stamping parts 100 It is integral structure, therefore during using continuous stamping die machine-shaping, will receive the limitation of machine table, so that The length of the irregular part of final molding is limited in a certain range.Currently, due to the limitation of machine table, irregular part Length generally can only achieve 130mm.And stamping parts 100 provided by the present embodiment, can be passed through between adjacent two first bridge 10 Removable connection is realized with third clamping portion in one clamping portion 31.In this way, after the standard module of irregular part can be by multiple processing The first bridge 10 splicing, indefinite extension is able to, so as to avoid the limitation of machine table.Secondly as stamping parts 100 Length is unrestricted, therefore the length of the irregular part of final machine-shaping is also unrestricted, in this way, substantially increasing irregular part Designability, the scope of application is wider.Correspondingly, irregular part may also include deformed module at more than one.If same different The deformed module of type part can by a special-shaped continuous stamping die punch forming, then at this point, by the second clamping portion 32 with 4th clamping portion splicing processing after the second bridge 20, it can be achieved that the deformed module length of irregular part indefinite extension.In this way One, not only the deformed module of part can be formed with Continuous maching, improve the production efficiency of part, and the length of deformed module It is also not limited by machine table, processing applicability is higher.As it can be seen that compared with existing stamping parts 100, it is provided herein Stamping parts 100 have the advantages that length is unrestricted, the scope of application is wider array of.

It should be noted that difference according to the actual situation, when the standard module of irregular part is by multiple first bridges 10 When being spliced, the first bridge 10 in standard module head and the tail both ends can only have the first clamping portion 31 or third clamping portion.Together Reason, when the deformed module of irregular part is spliced by multiple second bridges 20, in deformed module head and the tail both ends second Bridge 20 can also only have the second clamping portion 32 or the 4th clamping portion.

It should also be noted that, in some embodiments of the application, the standard module and/or deformed module of irregular part It can also be only made of single bridge.

Preferably, third clamping portion is identical as the structure of the second clamping portion 32, the 4th clamping portion and the first clamping portion 31 Structure is identical.It can reduce the design and manufacture difficulty of bridging structure 30, in this way to save the manufacturing cost of stamping parts 100.When So, difference according to actual needs, third clamping portion may be alternatively provided as different structures from the 4th clamping portion.

In the present embodiment, due to third clamping portion and the second clamping portion 32, the 4th clamping portion and the first clamping portion 31 Structure is identical, therefore only describes in detail to the first clamping portion 31 and the second clamping portion 32.

Specifically, please continue to refer to shown in Fig. 2, the first clamping portion 31 is formed in the first bridge 10 towards the second bridge 20 Side, the second clamping portion 32 are formed in the second bridge 20 towards the side of the first bridge 10.It is appreciated that due to general punching machine In processing, the middle section of the main punching press bridge of the formed punch of punching machine.Therefore the first clamping portion 31 is set to the first bridge 10 Towards the side of the second bridge 20, it can avoid the first clamping portion 31 and the processing of first bridge 10 interfered, to guarantee to obtain Standard module construction integrality.Similarly, the second clamping portion 32 is set to the second bridge 20 towards the one of the first bridge 10 Side, the working position that can be avoided the second bridge 20 are interfered, to guarantee the integrality of deformed module.Meanwhile designing in this way, Also make the first clamping portion 31 and the second clamping portion 32 unaffected in process so that deformed module and standard module it Between splice it is unaffected, to guarantee the globality of irregular part.Similarly, due to third clamping portion and 32 structure of the second clamping portion It is identical, therefore in the case where the first bridge of muti-piece 10 is spliced to form standard module, it is obtained after processing the first bridge of muti-piece 10 The structure of standard module will not be affected.Naturally, the structure for the deformed module that the second bridge of muti-piece 20 is spliced to form is not yet It will receive influence.It should be noted that not influencing irregular part structure after molding in the other embodiments of the application In the case of, the first clamping portion 31 and the second clamping portion 32 may also set up in the different parts of the first bridge 10 and the second bridge 20.

Further, which is the card slot being formed on the first bridge 10, and the card slot is in the first bridge 10 Card interface 311 is formed towards the side of the second bridge 20, the second clamping portion 32 is the fixture block being set on the second bridge 20.It can be with Understand, since the card interface 311 of card slot is formed in the first bridge 10 towards the side of the second bridge 20, can be avoided first Bridge 10 is detached from the extending direction of the first bridge 10 with the second bridge 20, to guarantee between the first bridge 10 and the second bridge 20 The stability of splicing.Naturally, under cooperation between third clamping portion and the first clamping portion 31, between adjacent two first bridge 10 The stability of connection is also guaranteed, so that the standard module for being spliced to form multiple first bridges 10 is during continuous punching Stability guaranteed.Certainly, the deformed module being spliced to form by multiple second bridges 20 is steady during continuous punching It is qualitative, also guaranteed under the cooperation between the 4th clamping portion and the second clamping portion 32.Simultaneously by between fixture block and card slot Cooperation, can be realized the fast assembling-disassembling between the first bridge 10 and the second bridge 20.And the structure of card slot and fixture block design compared with Be it is simple, be also beneficial to the setting of bridging structure 30.It should be noted that in some embodiments of the application, the second clamping Portion 32 may be alternatively provided as the form of card slot, the corresponding form that may be configured as fixture block in the first clamping portion 31.

Further, which is each formed with access port 312 in the two sides side wall of the first bridge 10, the access port 312 with Card interface 311 is connected, so that fixture block slides into card slot.It is appreciated that the formation of access port 312, enters card slot convenient for fixture block, or It is detached from from card slot, it can be convenient for the dismounting between the first bridge 10 and the second bridge 20.Fixture block is connected in card slot simultaneously, So that the connection between the first bridge 10 and the second bridge 20 is more closely.Certainly, between adjacent first bridge 10 and adjacent second Dismounting between bridge 20 also relatively convenient.It should be noted that card slot can also be in the first material in the other embodiments of the application The side side wall of bridge 10 forms access port 312, for fixture block disengaging.Certainly, in some embodiments of the application, fixture block can also Enter or leave card slot from card interface 311 using elasticity.

Specifically, the two opposite cell walls of the card slot are convexly equipped with stop block 313, two stop blocks 313 to other side cell wall respectively Between have spacing, to form the card interface 311 of card slot.Correspondingly, fixture block includes fastener 321 and interconnecting piece 322, wherein engaging Portion 321 is placed in card slot, and is abutted against with stop block 313, interconnecting piece 322 be connected to fastener 321 and the second bridge 20 it Between, and pass through the card interface 311 of card slot.It is appreciated that when the first bridge 10 and the second bridge 20 are in connection status, first It is abutted by fastener 321 with the mutual of stop block 313 between bridge 10 and the second bridge 20, prevents from being mutually disengaged.

Further, incorporated by reference to shown in Fig. 1 and Fig. 2, the stamping parts 100 of the present embodiment further includes position limiting structure 40, the limit Bit architecture 40 is set between the first bridge 10 and the second bridge 20, to limit the opposite position of the first bridge 10 and the second bridge 20 It sets.It is appreciated that being limited since fixture block can slide in or out card slot by the access port 312 of card slot by position limiting structure 40 The relative position between the first bridge 10 and the second bridge 20 is made, can enhance and be connected between the first bridge 10 and the second bridge 20 Stability.Certainly, position limiting structure 40 can also be used between adjacent first bridge 10 and adjacent second bridge 20, with reinforced phase The stability connected between adjacent first bridge 10 and adjacent second bridge 20.It should be noted that in other implementations of the application In example, position limiting structure 40 can not also be added between the first bridge 10 and the second bridge 20.For example, fixture block can not relative to card slot In the embodiment of sliding, position limiting structure 40 can not be designed between the first bridge 10 and the second bridge 20.For another example, when fixture block and card It, can not also between the first bridge 10 and the second bridge 20 when opposite can slide between slot, but be interference fitted between fixture block and card slot Position limiting structure 40 is set.Certainly the case where not designing position limiting structure 40 there are also other, does not just illustrate one by one herein.

Shown in referring to figure 2., in the present embodiment, position limiting structure 40 includes the first groove body 41, the second groove body 42 and limit Pin 43.Wherein, the first groove body 41 and the second groove body 42 are respectively formed on the first bridge 10 and the second bridge 20.When the first bridge 10 and second bridge 20 mutually splicing when, the first groove body 41 and the second groove body 42 can be interconnected to form slot, which prolongs The glide direction for stretching direction and fixture block along card slot is perpendicular.Spacer pin 43 is inserted in the slot, with the first bridge 10 of limitation with Relative position between second bridge 20.Specifically, the side of the first groove body 41 shows to form slot in the first bridge 10 Notch, the cell wall that the other side passes through card slot form the slot bottom of slot, and the second groove body 42 runs through fixture block.That is, when the first bridge 10 with When second bridge, 20 phase is spliced, the slot is also cross card slot and fixture block.So, above-mentioned spacer pin 43 is limiting the first material When bridge 10 and the second bridge 20, and also cross card slot and fixture block.Designing in this way is advantageous in that, position limiting structure 40 both will not The processing of the first bridge 10 and the second bridge 20 is influenced, it will not be by the punching press of punching machine.Certainly, in other realities of the application It applies in example, the extending direction of slot can also intersect with the glide direction of fixture block, while position limiting structure 40 may also set up in other portions Point.

The utility model also proposes a kind of processing assembly, which includes fulcrum bearing 200 and stamping parts 100, wherein The specific structure of the stamping parts 100 is referring to above-described embodiment, first bridge of the fulcrum bearing 200 to support the stamping parts 100 10。

It is appreciated that the support of fulcrum bearing 200 can be improved the stability of the first bridge 10 processing.In particular, working as punching press When part 100 includes the first bridge 10 that muti-piece mutually splices, the support effect of fulcrum bearing 200 is become apparent.Simultaneously because this adds The stamping parts 100 of work component uses whole technical solutions of above-mentioned all embodiments, therefore at least has above-described embodiment All beneficial effects brought by technical solution, this is no longer going to repeat them.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, It is all under the inventive concept of the utility model, equivalent structure made based on the specification and figures of the utility model becomes It changes, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (10)

1. a kind of stamping parts, for continuous stamping die to form irregular part, which is characterized in that including

First bridge, for forming the standard module of the irregular part；

Second bridge, for forming the deformed module of the irregular part；And

Bridging structure is set between first bridge and second bridge, to removable connection first bridge With the second bridge.

2. stamping parts as described in claim 1, which is characterized in that the bridging structure includes the first clamping portion and the second clamping Portion, first clamping portion and the second clamping portion are respectively formed on first bridge and the second bridge, and are clamped adaptation.

3. stamping parts as claimed in claim 2, which is characterized in that first clamping portion is formed in the first bridge direction The side of second bridge, second clamping portion are formed in second bridge towards the side of first bridge.

4. stamping parts as claimed in claim 2, which is characterized in that first clamping portion is to be formed on first bridge Card slot, the card slot in first bridge towards second bridge side formed card interface, second clamping portion For the fixture block being set on the second bridge.

5. stamping parts as claimed in claim 4, which is characterized in that the card slot is in at least side side wall of first bridge Access port is formed, the access port is connected with the card interface, so that the fixture block slides into the card slot.

6. stamping parts as claimed in claim 5, which is characterized in that the two opposite cell walls of card slot are respectively to other side cell wall It is convexly equipped with stop block, has spacing between two stop blocks, to form the card interface；The fixture block includes fastener and connection Portion, the fastener are placed in the card slot, and are abutted against with the stop block, and the interconnecting piece is connected to the fastener Between second bridge, and pass through the card interface.

7. stamping parts as claimed in claim 4, which is characterized in that the stamping parts further includes position limiting structure, the limit knot Structure is set between first bridge and the second bridge, to limit the relative position of first bridge and the second bridge.

8. stamping parts as claimed in claim 7, which is characterized in that the position limiting structure include the first groove body, the second groove body and Spacer pin, first groove body and the second groove body are respectively formed on first bridge and the second bridge, and can be interconnected To form slot, and glide direction of the extending direction of the slot with the fixture block along the card slot intersects, the spacer pin It is inserted in the slot.

9. the stamping parts as described in any one of claim 2 to 8, which is characterized in that the bridging structure further includes third card Socket part and the 4th clamping portion, the third clamping portion are set to side of first bridge far from first clamping portion, can be with First clamping portion of another first bridge is mutually clamped, with adjacent first bridge of removable connection；

4th clamping portion is set to side of second bridge far from second clamping portion, can be with another second material Second clamping portion of bridge is mutually clamped, with adjacent second bridge of removable connection；

The third clamping portion is adapted to the 4th clamping portion clamping.

10. a kind of processing assembly, which is characterized in that described including the stamping parts as described in any one of right 1 to 9 and fulcrum bearing Fulcrum bearing is to support first bridge.