CN103406936B - Cutting die, cutting die plate and machining manufacture thereof - Google Patents

Abstract

A kind of cutting die plate (10A～10X), it has the crack mechanism for clamping blade (20), wherein, at least one face of this crack mechanism and described blade (20) discontinuous contact.Have employed cutter formwork structure according to embodiments of the present invention, solve machinery knives processing cutting die plate limitation on effective thickness, such that it is able to replace existing cut cutting die board machining process.

Description

Cutting die, cutting die plate and machining manufacture thereof

Technical field

The present invention relates to a kind of cutting die, in particular to a kind of cutting die for cross cutting, and for producing cutting die plate and corresponding cutting die, the cutting die plate machining manufacture of this cutting die.

Background technology

Cutting die in the market mainly has plank cutting die, plastics cutting die, irony or aluminum cutting die, acrylic cutting die etc., but topmost cutting die is plank cutting die.Namely plank cutting die is open a dress cutter seam according to the size of cross cutting blade on certain thickness plank, insert the blade into wherein again, the width of slit filling cutter on cutting die plate to adapt to the width of die-cutting rule, and joint-cutting wall both sides closely cooperate consistent with blade, reaches the effect of fixing die-cutting rule.

Owing to cross cutting blade thickness is 0.45mm, 0.53mm, 0.71mm etc., and the thickness of plank used in industry is generally about 10～18mm, wherein with 18mm for the most frequently used thickness.Meanwhile, the machinery knives diameter for processing cutting die plate is too little and its sword length is restricted, so generally, the effective thickness processing cutting die plate with machinery knives can only achieve about 3mm～5mm.So, adopt machinery knives to process the cutting die plate of existing structure, the effectively processing thickness of cutting die plate has significant limitation.

Owing to above-mentioned employing machinery knives process the limitation of cutting die plate, Vehicles Collected from Market generally use laser machine carry out cutting processing.The cut of cutting die plate burns a seam with laser exactly on monolayer plank, is used for inserting cross cutting blade.Use the cutting die of cutting die plate laser cutting machine processing and manufacturing, as shown in figure 26.In fig. 26, cutting die 1 includes plank 10, and plank 10 has dress cutter seam so that blade 20 may be inserted into wherein.

But, if adopt laser processing device cutter seam, high temperature can be produced when cut, cause dress cutter seam both sides cutting die panel material generation carbonization, through use or tool changing after carbonized part be susceptible to come off, cause dress cutter seam broaden and blade loosen；The diversity of laser and environmental factors (such as temperature, humidity), for the impact of cut, also make the width machining accuracy that dress cutter stitches wayward；Cut can cause the release of toxic gas and material, is unfavorable for environmental protection, also can consume the substantial amounts of energy；Additionally, the price of laser cutting machine is also higher.

Summary of the invention

In order to solve one of the problems referred to above, according to an aspect of the invention, it is provided a kind of cutting die plate, it has the crack mechanism for clamping blade, wherein, and at least one face of this crack mechanism and blade discontinuous contact.

Alternatively, cutting die plate according to embodiments of the present invention, two masks of crack mechanism have mutually corresponding concaveconvex structure, form dress cutter seam between two respective bossings in face.

Alternatively, cutting die plate according to embodiments of the present invention, concaveconvex structure be one of boss-shaped, wavy and zigzag or include boss-shaped part, wavy section and toothed section at least one.

Alternatively, cutting die plate according to embodiments of the present invention, crack mechanism has the narrow slit structure matched with blade thickness.

Alternatively, cutting die plate according to embodiments of the present invention, in crack mechanism with the discontiguous part of blade, it is provided with implant or keeper.

According to a further aspect in the invention, providing a kind of cutting die plate, it includes more than one cutting die flaggy, the groove being arranged at each cutting die flaggy be jointly formed described crack mechanism, wherein, at least one face of the groove of at least one described cutting die flaggy and described blade discontinuous contact.

Alternatively, cutting die plate according to embodiments of the present invention, two masks of the groove of at least one cutting die flaggy have mutually corresponding concaveconvex structure, form dress cutter seam between two respective bossings in face.

Alternatively, cutting die plate according to embodiments of the present invention, the groove of at least one cutting die flaggy has the narrow slit structure that the thickness with blade matches.

According to another aspect of the invention, it is provided that a kind of cutting die, including: cutting die plate, and insert the blade of this cutting die plate, wherein, described cutting die plate is according to foregoing aspects of cutting die plate.

In accordance with a further aspect of the present invention, provide a kind of cutting die plate processing method, including: utilize machinery knives milling on cutting die plate go out width more than the sipes of width of blade to be mounted, two masks of this sipes have mutually corresponding concaveconvex structure, form dress cutter seam between two respective bossings in face.

Alternatively, cutting die plate processing method according to embodiments of the present invention, farther include to utilize the milling on described cutting die plate of small size machinery knives to go out the narrow slot that width mates with the width of described blade, constitute a part for described dress cutter seam.

Alternatively, cutting die plate processing method according to embodiments of the present invention, sipes described in synchronous processing and described narrow slot.

In accordance with a further aspect of the present invention, it is provided that a kind of cutting die manufacture method, after machined cutting die plate according to aforementioned cutting die plate processing method, insert the blade in the dress cutter seam formed on this cutting die plate.

Have employed cutter formwork structure according to embodiments of the present invention, solve machinery knives processing cutting die plate limitation on effective thickness, such that it is able to replace existing cut cutting die board machining process.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, the accompanying drawing of embodiment will be briefly described below, it should be apparent that, the accompanying drawing in the following describes merely relates to some embodiments of the present invention, but not limitation of the present invention.

Fig. 1 illustrates cutting die plate according to a first embodiment of the present invention and cutting die；

Fig. 2 illustrates cutting die plate according to a second embodiment of the present invention and cutting die；

Fig. 3 illustrates cutting die plate according to a third embodiment of the present invention and cutting die；

Fig. 4 illustrates cutting die plate according to a fourth embodiment of the present invention and cutting die；

Fig. 5 illustrates cutting die plate according to a fifth embodiment of the present invention, and wherein, Fig. 5 a is the top view of cutting die plate, Fig. 5 b is the upward view of cutting die plate, Fig. 5 c is the zoomed-in view of the front view of cutting die plate, and Fig. 5 d is the zoomed-in view of the rearview of cutting die plate, and Fig. 5 e is the three-dimensional side view of cutting die plate；

Fig. 6 illustrates cutting die plate according to a sixth embodiment of the present invention, and wherein, Fig. 6 a is the top view of cutting die plate, and Fig. 6 b is the upward view of cutting die plate, and Fig. 6 c is the three-dimensional side view of cutting die plate；

Fig. 7 illustrates cutting die plate according to a seventh embodiment of the present invention, and wherein, Fig. 7 a is the top view of cutting die plate, and Fig. 7 b is the upward view of cutting die plate, and Fig. 7 c is the three-dimensional side view of cutting die plate；

Fig. 8 illustrates cutting die plate according to a eighth embodiment of the present invention, and wherein, Fig. 8 a is the top view of cutting die plate, and Fig. 8 b is the upward view of cutting die plate, and Fig. 8 c is the three-dimensional side view of cutting die plate；

Fig. 9 illustrates cutting die according to an embodiment of the invention, and wherein, Fig. 9 a is the top view of cutting die, and Fig. 9 b is the upward view of cutting die, and Fig. 9 c is the front view of cutting die, and Fig. 9 d is the rearview of cutting die, and Fig. 9 e is the three-dimensional side view of cutting die；

Figure 10 illustrates cutting die plate according to a ninth embodiment of the present invention, and wherein, Figure 10 a is the front view of cutting die plate, and Figure 10 b is the rearview of cutting die plate, and Figure 10 c is the three-dimensional side view of cutting die plate；

Figure 11 illustrates cutting die plate according to a tenth embodiment of the present invention, and wherein, Figure 11 a is the front view of cutting die plate, and Figure 11 b is the rearview of cutting die plate, and Figure 11 c is the three-dimensional side view of cutting die plate；

Figure 12 illustrates cutting die plate according to a 11th embodiment of the present invention；

Figure 13 illustrates cutting die plate according to a 12th embodiment of the present invention；

Figure 14 illustrates cutting die plate according to a 13th embodiment of the present invention；

Figure 15 illustrates cutting die plate according to a 14th embodiment of the present invention；

Figure 16 illustrates cutting die plate according to a 15th embodiment of the present invention；

Figure 17 illustrates cutting die plate according to a 16th embodiment of the present invention；

Figure 18 illustrates cutting die plate according to a 17th embodiment of the present invention；

Figure 19 illustrates cutting die plate according to a 18th embodiment of the present invention；

Figure 20 illustrates cutting die plate according to a 19th embodiment of the present invention；

Figure 21 illustrates cutting die plate according to a 20th embodiment of the present invention；

Figure 22 illustrates the cutting die plate according to 21st embodiment of the invention；

Figure 23 illustrates the cutting die plate according to 22nd embodiment of the invention；

Figure 24 illustrates the cutting die plate according to 23th embodiment of the invention；

Figure 25 illustrates the cutting die plate according to 24th embodiment of the invention；

Figure 26 illustrates the cutting die according to prior art.

Detailed description of the invention

For making the purpose of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing of the embodiment of the present invention, the technical scheme of the embodiment of the present invention is clearly and completely described.Obviously, described embodiment is a part of embodiment of the present invention, rather than whole embodiments.Based on described embodiments of the invention, all other embodiments that those of ordinary skill in the art obtain under the premise without creative work, broadly fall into the scope of protection of the invention.

Unless otherwise defined, technical term used herein or scientific terminology should be and have the ordinary meaning that the personage of general technical ability understands in art of the present invention." first ", " second " that use in present patent application description and claims and similar word are not offered as any order, quantity or importance, and are used only to distinguish different ingredients.Equally, the similar word such as " " or " " does not indicate that quantity limits yet, and indicates that and there is at least one.

Fig. 1 illustrates cutting die plate according to a first embodiment of the present invention and cutting die.As it is shown in figure 1, cutting die 1A includes cutting die plate 10A and blade 20.Cutting die plate 10A has the upper fluting T1 and lower fluting T2 of connection, and the height (plate thickness) of this cutting die plate 10A is H.

Upper fluting T1 has the width W1 that the thickness with cross cutting blade matches, and has height H1, such that it is able to clamping cross cutting blade 20.

Such as, the thickness of cross cutting blade 20 is 0.71mm, then W1 is 0.71mm or is slightly less than 0.71mm(consideration compressional deformation factor), H1 can be 2mm～3mm simultaneously.Due to, under this structural design, the width of upper fluting T1 is about 0.7mm, is highly 2mm～3mm, it is possible to use existing machinery knives process the upper fluting T1 for clamping blade on cutting die plate 10A.

Lower fluting T2 has width W2 and height H2.Wherein, height H2 meets H1+H2=H with the height H1 of upper fluting T1.Such as, H is 18mm, H1 is 2mm～3mm, then H2 is 15mm～16mm.W2 is more than W1 so that can adopt the machinery knives that processing dimension is bigger that cutting die plate 10A is processed, thus realizing the milling processing of big thickness (i.e. height H2).

Blade 20 inserts cutting die plate 10A, and contacts and by its clamping with two faces of upper fluting T1.Being in the example that 18mm, H1 are 2mm～3mm at H, alternatively, it is about 5.5mm that blade 20 stretches out the height of the part of cutting die plate 10A.

Additionally, as it is shown in figure 1, two faces of the lower fluting T2 of cutting die plate 10A directly do not contact with blade, thus connecting in the blade channels formed at upper fluting T1 and lower fluting T2, two faces do not contact continuously with blade.And in the example of the cut cutting die plate shown in Figure 26, two faces forming dress cutter seam contact continuously with blade.

Owing to blade part in lower fluting T2 contact with the arbitrary face of lower fluting T2, in order to improve stability and the fastness that blade is installed, it is possible to installing after blade 20 interpolation implant or keeper in lower fluting T2.

Have employed cutter formwork structure according to embodiments of the present invention, solve machinery knives processing cutting die plate limitation on effective thickness, such that it is able to replace existing cut cutting die board machining process.Will be given below the more example of cutter formwork structure according to embodiments of the present invention.

Fig. 2 illustrates cutting die plate according to a second embodiment of the present invention and cutting die.Compared with the example of Fig. 1, the 10B of cutting die plate shown in Fig. 2 and cutting die 1B is distinctive in that, upper fluting T1 is sipes, and lower fluting T2 is the narrow slot for clamping blade 20.

Fig. 3 illustrates cutting die plate according to a third embodiment of the present invention and cutting die.Example such as Fig. 1 and Fig. 2 is compared, and in the cutting die plate 10C shown in Fig. 3 and cutting die 1C, adds the medial launder T3 as sipes, upper fluting T1 and lower fluting T2 and is the narrow slot for clamping blade 20.

Owing to adopting two narrow slot clamping blades simultaneously, it is possible to make blade more firm.Optionally as well, it is possible in medial launder T3, add implant or keeper, improve stability and the fastness of blade installation further or prevent blade from bending.

It is alternatively possible to utilize different machinery knives to be processed on same cutting die plate, the narrow slot utilizing small size tool sharpening width to mate with the width of cross cutting blade, utilize the large scale tool sharpening sipes more than die-cutting rule width；Different machinery knives synchronous processings can also be utilized at same cutting die plate, namely, while the narrow slot utilizing small size tool sharpening width to mate with the width of cross cutting blade, utilize the large scale tool sharpening sipes more than die-cutting rule width, thus synchronous processing cutting die plate contacts with the blade of blade or discontiguous slot part.

Additionally, as it is shown on figure 3, cutting die plate 10C can be multiple structure, including upper strata 11C, intermediate layer 12C and lower floor 13C, correspond respectively to the part of fluting T1, middle fluting T3 and lower fluting T2.Wherein, each layer can also adopt different materials, increases cutting die plate and can use the multiformity of sheet material.Such as, upper strata 11C and lower floor 13C adopts the material more more rigid than intermediate layer 12C, thus strengthening stability and fastness that blade is installed.

Fig. 4 illustrates cutting die plate according to a fourth embodiment of the present invention and cutting die.Compared with the embodiment of Fig. 3, cutting die 1D and cutting die plate 10D in Fig. 4 have a structure in which so that blade contacts in a face of side with middle fluting T2.This structure is compared with the structure in Fig. 3, owing to make use of the seriality of blade self, it is possible to fix blade better.This structure in Fig. 4 can also be applied in the cutter formwork structure in Fig. 1 and Fig. 2.

Fig. 5 illustrates cutting die plate according to a fifth embodiment of the present invention.Wherein, Fig. 5 a is the top view of cutting die plate, and Fig. 5 b is the upward view of cutting die plate, and Fig. 5 c is the zoomed-in view of the front view of cutting die plate, and Fig. 5 d is the zoomed-in view of the rearview of cutting die plate, and Fig. 5 e is the three-dimensional side view of cutting die plate.

As shown in Fig. 5 a, Fig. 5 b and Fig. 5 e, cutting die plate 10E has groove T in its longitudinal direction, and two masks of this groove T have mutually corresponding concaveconvex structure.More specifically, the concaveconvex structure in Fig. 5 is a kind of boss structure.The concaveconvex structure of this mutual correspondence makes to be formed between two respective bossings in face of groove T dress cutter seam (width is W1) that width mates with blade width on the one hand；Groove T is made to have relatively larger well width W2 on the other hand, it is simple to use the machine tool of large-size to be processed.

The width corresponding relation of dress cutter seam and the concaveconvex structure of groove T can be seen more clearly from from Fig. 5 c and Fig. 5 d.

After the dress cutter seam formed in inserting the blade into groove T, it is possible to add implant and/or keeper in groove T.Improve stability and firmness that blade is installed further.

Cutter formwork structure shown in Fig. 5, compared with the cutter formwork structure of Figure 26, have employed the method for clamping of discontinuous contact, still can realize the firm clamping for blade on the one hand, also solve machinery knives processing cutting die plate limitation on processing thickness on the other hand.

Fig. 6 illustrates cutting die plate according to a sixth embodiment of the present invention.Wherein, Fig. 6 a is the top view of cutting die plate, and Fig. 6 b is the upward view of cutting die plate, and Fig. 6 c is the three-dimensional side view of cutting die plate.

Cutting die plate 10F shown in Fig. 6 is a kind of modification of the cutting die plate 10E shown in Fig. 5.Specifically, cutting die plate 10F have employed a kind of wavy concaveconvex structure.The dress cutter seam that width mates is defined with blade width between crest interlaced on two faces of groove T.

Fig. 7 illustrates cutting die plate according to a seventh embodiment of the present invention.Wherein, Fig. 7 a is the top view of cutting die plate, and Fig. 7 b is the upward view of cutting die plate, and Fig. 7 c is the three-dimensional side view of cutting die plate.

Cutting die plate 10G shown in Fig. 7 is the another kind of modification of the cutting die plate 10E shown in Fig. 5.Specifically, cutting die plate 10G have employed a kind of jagged concaveconvex structure.The dress cutter seam that width mates is defined with blade width between crown interlaced on two faces of groove T.

Fig. 8 illustrates cutting die plate according to a eighth embodiment of the present invention.Wherein, Fig. 8 a is the top view of cutting die plate, and Fig. 8 b is the upward view of cutting die plate, and Fig. 8 c is the three-dimensional side view of cutting die plate.

Cutting die plate 10H shown in Fig. 8 is another modification of the cutting die plate 10E shown in Fig. 5.Specifically, cutting die plate 10H have employed the combination of the groove structure shown in Fig. 5, Fig. 6 and Fig. 7.The combination of the concaveconvex structure of this mutual correspondence still can so that forming the dress cutter seam that width mates with blade width between two respective bossings in face of groove T.

Additionally, the boss-shaped part of groove, wavy section and toothed section can have identical width, such that it is able to use identical machinery knives (milling instrument, for instance cylindrical milling cutter) to be processed.

Fig. 9 illustrates cutting die 1E according to an embodiment of the invention.Wherein, Fig. 9 a is the top view of cutting die, and Fig. 9 b is the upward view of cutting die, and Fig. 9 c is the front view of cutting die, and Fig. 9 d is the rearview of cutting die, and Fig. 9 e is the three-dimensional side view of cutting die.

In fig .9, blade 20 is inserted in cutting die plate 10E as shown in Figure 5, it is achieved by the clamping of the mutually corresponding boss-shaped concaveconvex structure of cutting die plate 10E.

Design based on same concaveconvex structure, it is possible to inserted respectively by blade in the groove with concaveconvex structure as shown in Fig. 6, Fig. 7 or Fig. 8, thus forming the cutting die corresponding with cutting die plate 10F, 10G or 10H.

Figure 10 illustrates cutting die plate according to a ninth embodiment of the present invention.Wherein, Figure 10 a is the front view of cutting die plate, and Figure 10 b is the rearview of cutting die plate, and Figure 10 c is the three-dimensional side view of cutting die plate.

Cutting die plate 10I shown in Figure 10 is actually the association scheme of the cutting tool clamp mechanism shown in Fig. 5 and the cutting tool clamp mechanism shown in Fig. 1 or Fig. 2.Specifically, cutting die plate 10I has the boss-shaped concaveconvex structure in Fig. 5 in its longitudinal direction, and has the narrow slot structure (with the sipes structure that the boss-shaped concaveconvex structure in Fig. 5 replaces in Fig. 1 or Fig. 2) in Fig. 1 or Fig. 2 on its height (thickness) direction.

As previously mentioned, different machinery knives can be utilized to be processed on same cutting die plate, the narrow slot utilizing small size tool sharpening width to mate with the width of cross cutting blade, utilizes the large scale tool sharpening sipes more than die-cutting rule width, and this processing can also be synchronously performed.It is to say, use different machinery knives respectively or synchronously the boss-shaped concaveconvex structure in manuscript 5 and the narrow slot structure in Fig. 1 or Fig. 2 on cutting die plate 10I.

Alternatively, cutting die plate 10I can also adopt the concaveconvex structure as shown in Fig. 6～Fig. 8.

It is alternatively possible to adopt mode similar to Figure 3 to be layered the cutting die plate realized shown in Figure 10, as shown in figure 11.

Figure 11 illustrates cutting die plate according to a tenth embodiment of the present invention.Wherein, Figure 11 a is the front view of cutting die plate, and Figure 11 b is the rearview of cutting die plate, and Figure 11 c is the three-dimensional side view of cutting die plate.

As shown in figure 11, cutting die plate 10J includes upper strata 11J and lower floor 12J, and wherein, upper strata 11J has the concaveconvex structure of described correspondence, and lower floor 12J has described narrow slot structure.By the corresponding of upper strata 11J and lower floor 12J is positioned and fixing so that blade is inserted simultaneously into the dress cutter seam and described narrow slot that are limited by described concaveconvex structure, forms cutting die.The narrow slot structure of this lower floor 12J can be processed by machine tool, it is also possible to is formed by cut.

Alternatively it is also possible to superposition has the cutting die flaggy of described concaveconvex structure on the thickness direction of cutting die plate, as shown in figure 12.Figure 12 illustrates cutting die plate 10K according to a 11th embodiment of the present invention.In this overlaying structure, the width of the groove of each cutting die flaggy can be different, if the dress cutter seam alignment connection formed by concaveconvex structure, it is possible to combine the blade that clamping is inserted.

In like manner, it is possible to the multiple cutting die flaggy of superposition on the thickness direction of cutting die plate, these cutting die flaggies can include the cutting die plate in any one embodiment aforementioned and in the cutting die flaggy only with narrow slot structure as shown in figure 11 any two or more.The particular number of the cutting die flaggy of institute's superposition and order can be determined as required.

Figure 13 to Figure 25 diagrammatically illustrates respectively according to a 12th embodiment of the present invention to the cutting die plate 10L～10X of the 24th embodiment.

The material of the cutting die plate according to the present invention can be wooden, plastics, irony, aluminum matter, acrylic etc., it is also possible to is the combination of these materials.

According to technical scheme, the width of dress cutter seam is decomposed, single cutter seam width is decomposed into multiple cutter seam width, and carry out reasonably decomposing and combination according to practical situation and required precision etc. on this basis, thus reach in the way of machinery knives such as cylindrical milling cutter etc. can process by new structural design structure.

Utilize clamp structure and the single or multiple lift cutter form assembly of discontinuous contact, while ensureing to fix die-cutting rule well, improve the scope of application of physical mechanical process tool, solve the limitation on machinery knives processing mould cutting plate effective thickness.

Can also synchronizing on same die cutting plate (raw material plate of cutting die plate) two sides to process respectively, one side processing be suitable for the dress cutter seam of contact continuously of die-cutting rule width, and one side processing, more than the discontinuous contact dress cutter seam of die-cutting rule width, combines fixing die-cutting rule.

According to the present invention cutter formwork structure design, it is possible to adopt machinery knives carry out cutting die plate joint-cutting processing, compared with existing laser cutting strategy, it is possible to obtain advantages below at least one: higher precision；Employing cold cut is cut, and cutting die panel material does not have carbonization, and the fixing die-cutting rule retention time is long；It is a lot of less that machinery knives process relatively laser machine processing power consumption；Machinery knives processing consumes cutter, and cutter use cost is much lower compared with laser tube；Machinery knives processing is that cold cut is cut and seldom caused environmental pollution.

The above is only the exemplary embodiment of the present invention, and not for limiting the scope of the invention, protection scope of the present invention is determined by appended claim.

Claims (9)

1. a cutting die plate, it has the crack mechanism for clamping blade (20), it is characterized in that, this crack mechanism includes the groove utilizing the machinery knives width that milling goes out on this cutting die plate more than the width of described blade to be mounted (20), two masks of described groove have interlaced concaveconvex structure, the dress cutter seam that width mates is formed with the width of described blade (20) between two respective bossings in face, wherein, described concaveconvex structure is boss-shaped, one of wavy and zigzag or include boss-shaped part, wavy section and toothed section at least one.

2. cutting die plate according to claim 1, it is characterised in that be provided with implant or keeper in the recess of described crack mechanism.

3. a cutting die plate, it has the crack mechanism for clamping blade (20), it is characterised in that described cutting die plate includes more than one cutting die flaggy, the groove being arranged at each cutting die flaggy be jointly formed described crack mechanism, wherein,

The groove of at least one described cutting die flaggy is gone out by machinery knives milling on this cutting die plate and width is more than the width of described blade to be mounted (20), and the two of this groove masks have interlaced concaveconvex structure, between two respective bossings in face, form the dress cutter that mates with the width of described blade (20) of width stitch, described concaveconvex structure be one of boss-shaped, wavy and zigzag or include boss-shaped part, wavy section and toothed section at least one.

4. cutting die plate according to claim 3, it is characterised in that be provided with implant or keeper in the recess of described crack mechanism.

5. a cutting die, including: cutting die plate (10), and insert the blade (20) of this cutting die plate (10), it is characterised in that described cutting die plate is according to the cutting die plate of any one in aforementioned claim.

6. a cutting die plate processing method, it is characterized in that, including: utilize machinery knives milling on cutting die plate go out width more than the sipes of width of blade to be mounted, two masks of this sipes have interlaced concaveconvex structure, the dress cutter seam that width mates is formed with the width of described blade (20) between two respective bossings in face, wherein, described concaveconvex structure be one of boss-shaped, wavy and zigzag or include boss-shaped part, wavy section and toothed section at least one.

7. cutting die plate processing method according to claim 6, it is characterised in that farther include to utilize the milling on described cutting die plate of small size machinery knives to go out the narrow slot that width mates with the width of described blade, constitutes a part for described dress cutter seam.

8. cutting die plate processing method according to claim 7, it is characterised in that sipes described in synchronous processing and described narrow slot.

9. a cutting die manufacture method, it is characterised in that according to, after the method for any one machined cutting die plate in claim 6-8, inserting the blade in the dress cutter seam formed on this cutting die plate.