Accompanying drawing explanation
In order to be illustrated more clearly in the technical scheme of the utility model embodiment, below the accompanying drawing to embodiment is briefly described, apparently, the accompanying drawing in the following describes only relates to embodiment more of the present utility model, but not to restriction of the present utility model.
Fig. 1 shows according to cutting die plate and the cutting die of the utility model the first embodiment;
Fig. 2 shows according to cutting die plate and the cutting die of the utility model the second embodiment;
Fig. 3 shows according to cutting die plate and the cutting die of the utility model the 3rd embodiment;
Fig. 4 shows according to cutting die plate and the cutting die of the utility model the 4th embodiment;
Fig. 5 shows according to the cutting die plate of the utility model the 5th embodiment, 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 shows according to the cutting die plate of the utility model the 6th embodiment, 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 shows according to the cutting die plate of the utility model the 7th embodiment, 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 shows according to the cutting die plate of the utility model the 8th embodiment, 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 shows according to the cutting die of an embodiment of the utility model, 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 shows according to the cutting die plate of the utility model the 9th embodiment, 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 shows according to the cutting die plate of the utility model the tenth embodiment, 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 shows according to the cutting die plate of the utility model the 11 embodiment;
Figure 13 shows according to the cutting die plate of the utility model the 12 embodiment;
Figure 14 shows according to the cutting die plate of the utility model the 13 embodiment;
Figure 15 shows according to the cutting die plate of the utility model the 14 embodiment;
Figure 16 shows according to the cutting die plate of the utility model the 15 embodiment;
Figure 17 shows according to the cutting die plate of the utility model the 16 embodiment;
Figure 18 shows according to the cutting die plate of the utility model the 17 embodiment;
Figure 19 shows according to the cutting die plate of the utility model the 18 embodiment;
Figure 21 shows according to the cutting die plate of the utility model the 19 embodiment;
Figure 22 shows according to the cutting die plate of the utility model the 20 embodiment;
Figure 23 shows according to the cutting die plate of the utility model the 21 embodiment;
Figure 24 shows according to the cutting die plate of the utility model the 22 embodiment;
Figure 25 shows according to the cutting die plate of the utility model the 23 embodiment;
Figure 26 shows the cutting die according to prior art.
The specific embodiment
For making object, technical scheme and the advantage of the utility model embodiment clearer, below in conjunction with the accompanying drawing of the utility model embodiment, the technical scheme of the utility model embodiment is clearly and completely described.Obviously, described embodiment is a part of embodiment of the present utility model, rather than whole embodiment.Based on described embodiment of the present utility model, all other embodiment that those of ordinary skills obtain under the prerequisite without creative work, belong to the scope that the utility model is protected.
Unless otherwise defined, technical term used herein or scientific terminology should be and in field, have the ordinary meaning that the personage of general technical ability understands under the utility model." first " of using in the utility model patent application specification and claims, " second " and similar word do not represent any order, quantity or importance, and are just used for distinguishing different parts.Equally, the similar words such as " " or " " do not represent restricted number yet, and mean and have at least one.
Fig. 1 shows according to cutting die plate and the cutting die of the utility model the first embodiment.As shown in Figure 1, cutting die 1A comprises cutting die plate 10A and blade 20.Cutting die plate 10A has upper fluting T1 and the lower fluting T2 of connection, and the height (plate thickness) of this cutting die plate 10A is H.
Upper fluting T1 has the width W 1 that the thickness with cross cutting blade matches, and has height H 1, thereby can clamp mode cutting edge 20.
For example, the thickness of cross cutting blade 20 is 0.71mm, and 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 0.7mm left and right, is highly 2mm~3mm, can on cutting die plate 10A, process with existing machinery knives for clamping the upper fluting T1 of blade.
Lower fluting T2 has width W 2 and height H 2.Wherein, height H 2 meets H1+H2=H with the height H 1 of upper fluting T1.For example, H is 18mm, and H1 is 2mm~3mm, and H2 is 15mm~16mm.W2 is greater than W1, makes to adopt the machinery knives tool setting template 10A that processing dimension is larger to process, thereby realizes the milling processing of large thickness (being height H 2).
Blade 20 inserts cutting die plate 10A, and contacts with two faces of upper fluting T1 and by its clamping.At H, be 18mm, in the example that H1 is 2mm~3mm, alternatively, the height that blade 20 stretches out the part of cutting die plate 10A is 5.5mm left and right.
In addition, as shown in Figure 1, two faces of the lower fluting T2 of cutting die plate 10A directly do not contact with blade, thereby are communicated with in the blade passage forming at upper fluting T1 and lower fluting T2, two faces not with blade Continuous Contact.And in the example of the laser cutting cutting die plate shown in Figure 26, form two faces and blade Continuous Contact of dress cutter seam.
Because the part of blade in lower fluting T2 do not contact with the arbitrary face of lower fluting T2, stability and the fastness of in order to improve blade, installing can be added filler or keeper after blade 20 is installed in lower fluting T2.
Adopted the cutting die plate structure according to the utility model embodiment, solved the limitation of machinery knives processing cutting die plate on effective thickness, thereby can replace existing laser cutting cutting die board machining process.To provide according to the more example of the cutting die plate structure of the utility model embodiment below.
Fig. 2 shows according to cutting die plate and the cutting die of the utility model the second embodiment.Compare with the example of Fig. 1, the difference of the plate 10B of cutting die shown in Fig. 2 and cutting die 1B is, upper fluting T1 is sipes, and lower fluting T2 is for for clamping the narrow groove of blade 20.
Fig. 3 shows according to cutting die plate and the cutting die of the utility model the 3rd embodiment.As the example of Fig. 1 and Fig. 2 is compared, in the cutting die plate 10C shown in Fig. 3 and cutting die 1C, increased the medial launder T3 as sipes, upper fluting T1 and lower fluting T2 are for clamping the narrow groove of blade 20.
Owing to adopting two narrow groove clamping blades simultaneously, can be so that blade be more firm.Equally alternatively, can in medial launder T3, add filler or keeper, further improve stability and the fastness of blade installation or prevent that blade is crooked.
Alternatively, can utilize different machinery knives to process on same cutting die plate, utilize small size tool sharpening width and the narrow groove that the width of cross cutting blade mates, utilize large scale tool sharpening to be greater than the sipes of die-cutting rule width; Also can utilize different machinery knives synchronous processings at same cutting die plate,, in the narrow groove that utilizes small size tool sharpening width to mate with the width of cross cutting blade, utilize large scale tool sharpening to be greater than the sipes of die-cutting rule width, thereby contact or discontiguous slot part with the blade of blade on synchronous processing cutting die plate.
In addition, as shown in Figure 3, cutting die plate 10C can be sandwich construction, comprises upper strata 11C, and the 13C of intermediate layer 12CHe lower floor corresponds respectively to the part of fluting T1, middle fluting T3 and lower fluting T2.Wherein, each layer also can adopt different materials, increases the diversity that cutting die plate can be used sheet material.For example, the 13C of upper strata 11CHe lower floor adopts than the stronger material of intermediate layer 12C rigidity, thereby strengthens stability and fastness that blade is installed.
Fig. 4 shows according to cutting die plate and the cutting die of the utility model the 4th embodiment.Compare with the embodiment of Fig. 3, the cutting die 1D in Fig. 4 and cutting die plate 10D have such structure, and blade is contacted with a face of middle fluting T2 in a side.This structure is compared with the structure in Fig. 3, owing to having utilized the continuity of blade self, better fixed blade.This structure in Fig. 4 also can be applied in the cutting die plate structure in Fig. 1 and Fig. 2.
Fig. 5 shows according to the cutting die plate of the utility model the 5th embodiment.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 on its length direction, and two masks of this groove T have the concaveconvex structure of mutual correspondence.More specifically, the concaveconvex structure in Fig. 5 is a kind of boss structure.The concaveconvex structure of this mutual correspondence makes to form between two faces of groove T bossing separately the dress cutter seam (width is W1) that width mates with blade width on the one hand; Make on the other hand groove T have larger well width W2, the machine tool of large-size easy to use is processed.
From Fig. 5 c and Fig. 5 d, can more clearly find out that dress cutter stitches and the width corresponding relation of the concaveconvex structure of groove T.
After the dress cutter seam forming, can in groove T, add filler and/or keeper in blade is inserted to groove T.Further improve stability and the firmness that blade is installed.
Cutting die plate structure shown in Fig. 5, compare with the cutting die plate structure of Figure 26, adopt the method for clamping of discontinuous contact, still can realize the firm clamping for blade on the one hand, also solved on the other hand the limitation of machinery knives processing cutting die plate on processing thickness.
Fig. 6 shows according to the cutting die plate of the utility model the 6th embodiment.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.Particularly, cutting die plate 10F has adopted a kind of wavy concaveconvex structure.On two faces of groove T, between interlaced crest, formed the dress cutter seam that width mates with blade width.
Fig. 7 shows according to the cutting die plate of the utility model the 7th embodiment.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.Particularly, cutting die plate 10G has adopted a kind of jagged concaveconvex structure.On two faces of groove T, between interlaced crown, formed the dress cutter seam that width mates with blade width.
Fig. 8 shows according to the cutting die plate of the utility model the 8th embodiment.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.Particularly, cutting die plate 10H has adopted 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 be so that form the dress cutter seam that width mates with blade width between two faces of groove T bossing separately.
In addition, the boss-shaped of groove part, wavy section and zigzag part can have identical width, thereby can use identical machinery knives (milling instrument, for example cylindrical milling cutter) to process.
Fig. 9 shows according to the cutting die 1E of an embodiment of the utility model.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, realization is by the clamping of the boss-shaped concaveconvex structure of the mutual correspondence of cutting die plate 10E.
The design of the concaveconvex structure based on same, can insert blade respectively in the groove with concaveconvex structure as shown in Fig. 6, Fig. 7 or Fig. 8, thereby forms the cutting die corresponding with cutting die plate 10F, 10G or 10H.
Figure 10 shows according to the cutting die plate of the utility model the 9th embodiment.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 schemes of the cutting tool clamp mechanism shown in the cutting tool clamp mechanism shown in Fig. 5 and Fig. 1 or Fig. 2.Particularly, cutting die plate 10I has the boss-shaped concaveconvex structure in Fig. 5 on its length direction, and in its height (thickness) direction, has the narrow groove structure (replacing the sipes structure in Fig. 1 or Fig. 2 with the boss-shaped concaveconvex structure in Fig. 5) in Fig. 1 or Fig. 2.
As previously mentioned, can utilize different machinery knives to process on same cutting die plate, utilize small size tool sharpening width and the narrow groove that the width of cross cutting blade mates, utilize large scale tool sharpening to be greater than the sipes of die-cutting rule width, this processing also can synchronously be carried out.That is to say, use different machinery knives respectively or synchronously the boss-shaped concaveconvex structure in manuscript 5 and the narrow groove structure in Fig. 1 or Fig. 2 on cutting die plate 10I.
Alternatively, cutting die plate 10I also can adopt the concaveconvex structure as shown in Fig. 6~Fig. 8.
Alternatively, can adopt mode layering similar to Figure 3 to realize the cutting die plate shown in Figure 10, as shown in figure 11.
Figure 11 shows according to the cutting die plate of the utility model the tenth embodiment.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 comprises the 12J of upper strata 11JHe lower floor, and wherein, upper strata 11J has the concaveconvex structure of described correspondence, and the 12J of lower floor has described narrow groove structure.Correspondence location by the 12J of upper strata 11JHe lower floor and fixing, the dress cutter seam and the described narrow groove that blade are inserted simultaneously by described concaveconvex structure, limited, form cutting die.The narrow groove structure of the 12J of this lower floor can process by machine tool, also can form by laser cutting.
Alternatively, also can on the thickness direction of cutting die plate, superpose and there is the cutting die flaggy of described concaveconvex structure, as shown in figure 12.Figure 12 shows according to the cutting die plate 10K of the utility model the 11 embodiment.In this overlaying structure, the width of the groove of each cutting die flaggy can be different, as long as the alignment of the dress cutter being formed by concaveconvex structure seam is communicated with, can combine the blade that clamping is inserted.
In like manner, a plurality of cutting die flaggies that can superpose on the thickness direction of cutting die plate, these cutting die flaggies can comprise in cutting die plate in aforementioned any embodiment and the cutting die flaggy only with narrow groove structure as shown in figure 11 any two or more.The concrete quantity of the cutting die flaggy superposeing and order can be determined as required.
Figure 13 to Figure 25 has schematically shown respectively according to cutting die plate 10L~10X of the utility model the 12 embodiment to the 24 embodiment.
According to the material of cutting die plate of the present utility model, can be wooden, plastics, irony, aluminium matter, acrylic etc., can be also the combination of these materials.
According to the technical solution of the utility model, the width of dress cutter seam is decomposed, single cutter seam width is decomposed into a plurality of cutter seam width, and according to actual conditions and required precision etc., carry out rational Decomposition and composition on this basis, thereby reach with new structural design structure the mode that machinery knives can be processed as cylindrical milling cutter etc.
Utilize clamp structure and the form assembly of single or multiple lift cutter of discontinuous contact, when guaranteeing well fixed die cutting knife, improved the scope of application of physical mechanical process tool, solved the limitation on machinery knives processing mould cutting plate effective thickness.
Also can synchronously process respectively on same die cutting plate (raw material plate of cutting die plate) two sides, the Continuous Contact dress cutter that one side processing is applicable to die-cutting rule width stitches, and one side processing is greater than the discontinuous contact dress cutter seam of die-cutting rule width, combines fixed die cutting knife.
According to cutting die plate structure of the present utility model design, can adopt machinery knives to carry out the processing of cutting die plate joint-cutting, compare with existing laser cutting scheme, can obtain following advantage one of at least: higher precision; Employing cold cut is cut, and cutting die plate material there will not be carbonization, and the fixed die cutting knife retention time is long; Machinery knives processing is a lot of less compared with 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 exemplary embodiment of the present utility model, but not for limiting protection domain of the present utility model, protection domain of the present utility model is determined by appended claim.