CN102649181A - Combined cutter - Google Patents

Abstract

The invention provides a combined cutter which combines a first cutter undergoing a first processing and a second cutter undergoing a second processing in a first processing part. The combined cutter comprises the first cutter (20) and the second cutter (50), which are disposed on a rotating shaft (100) along an axial direction and in a superposing manner. The second cutter (50) comprises a second base (52) disposed on the rotating shaft (100), a second blade (78) which protrudes from the second base (52) along the thickness direction in a manner of exceeding the first cutter (20). The first cutter (20) comprises a first base (22) superposed on the second cutter (50), a space not interfering with the second blade (78), and a first blade (40) protruding from the first base (22) towards the outer side of the axial direction.

Description

Gang tool

Technical field

The present invention relates to a kind of gang tool.In detail, relate to a kind of being used for to the narrow work piece of width, the cutter processed such as tabular sidepiece for example.More detailed, a kind of time processing that can implement simultaneously the sidepiece of work piece etc. is cut is provided and the novel gang tool of the secondary operations of carrying out in time processing portion.

Background technology

A kind of cutter that when bound book, uses is disclosed in patent documentation 1.A kind of unsewn binding of not using line, iron wire etc. method of binding into book form is arranged in the method for stitching.Unsewn binding is bound into book form method after the spine with the book inner core before the binding and layout strip of paper used for sealing forms the plane, on this plane, applies binder and the binding and layout strip of paper used for sealing is bound.According to the kind of binder, the accurately machined difference of bookbinding, after existence forms the plane with the spine of book inner core, need further on this plane, to form the situation that breach applies binder again.In the past, the processing (secondary operations) of the processing (time processing) on formation plane and formation breach was used different tools (cutter) and was carried out respectively.

Patent documentation 1: TOHKEMY 2004-50848 communique

Summary of the invention

The problem that invention will solve

Therefore, need to shorten the cutter of time processing and secondary operations.

The scheme that is used to deal with problems

In order to address the above problem, gang tool of the present invention is characterised in that to have like the described structure of each technical scheme.One of its characteristic is, comprises that vertically the mode with overlapping combination is installed in first cutter and second cutter on the rotating shaft.Second cutter comprises: second pedestal, and it is installed on the rotating shaft; Second blade, it is outstanding with the mode that surpasses first cutter along thickness direction from second pedestal.First cutter comprises: first pedestal, and it overlaps on second cutter, and has not the space of interfering with second blade; First blade, it is outstanding to radial outside from first pedestal.

Thereby, can implement processing of being undertaken by first cutter and the processing of being undertaken by second cutter simultaneously.Thus, can shorten manufacturing procedure.In addition, owing to can first cutter and second cutter be installed on 1 axle, so processing unit (plant) also can miniaturization.

Description of drawings

Fig. 1 is the stereogram of gang tool of the present invention.

Fig. 2 is the vertical view of the gang tool of looking from the arrow II of Fig. 1 direction.

Fig. 3 is the side view of the gang tool of looking from the arrow III of Fig. 2 direction.

Fig. 4 is the exploded perspective view of gang tool of the present invention.

Fig. 5 is the vertical view of first cutter of looking from the arrow V of Fig. 4 direction.

Fig. 6 is the side view of first cutter of looking from the arrow VI of Fig. 5 direction.

Fig. 7 is the vertical view of second pedestal of looking from the arrow VII of Fig. 4 direction.

Fig. 8 is the side view of second pedestal of looking from the arrow VIII of Fig. 7 direction.

Fig. 9 is the stereogram of second blade.

Figure 10 is the vertical view of second blade of looking from the arrow directions X of Fig. 9.

Figure 11 is the local amplification stereogram of the XI gang tool partly of Fig. 1.

Figure 12 is the local amplification stereogram of the XII gang tool partly of Fig. 1.

Figure 13 is the figure that is used to explain the user mode of gang tool.

Figure 14 is the upward view that utilizes the machined object after gang tool is processed of looking from the arrow XIV of Figure 13 direction.

Figure 15 is the stereogram of the gang tool of another embodiment of the present invention.

Figure 16 is the vertical view of the gang tool of looking from the arrow XVI of Figure 15 direction.

Figure 17 is the XVII-XVII cutaway view of the gang tool of Figure 16.

Figure 18 is the local amplification stereogram of the XVIII gang tool partly of Figure 15.

The specific embodiment

Below, according to Fig. 1～Figure 14 embodiment of the present invention is described.Like Fig. 1～shown in Figure 4, gang tool 10 comprises vertically and is installed in first cutter 20 (forming the cutter on plane) and second cutter 50 (breach cutter) on the rotating shaft 100 with overlapping mode.

Like Fig. 4 and shown in Figure 5, first cutter 20 is the discoideus of picture annular saw or side milling cutter etc.First cutter 20 comprises first pedestal 22 (discoideus base member) and first blade 40 (bite).Be formed with the embedded hole 24 of the circle that runs through vertically at the center of first pedestal 22.Outer circumferential side outside the embedded hole 24 than first pedestal 22 more relies on circumferentially is being formed with a plurality of first installing holes 26 that run through vertically.First installing hole 26 axial one distolateral form coniform.As shown in Figure 6, consider bending stiffness, the thickness T 1 of first cutter 20 is 2.5mm～21mm, for example is 4.7mm.

As shown in Figure 5, have a plurality of cutter installation portions 28 in the periphery of the main part of first pedestal 22.Cutter installation portion 28 for example disposes with the mode that central angle equates at interval, and cutter installation portion 28 is radially outstanding from the main part of first pedestal 22.Cutter installation portion 28 forms roughly ridge shape.The apex 30 of cutter installation portion 28 is outstanding to radial outside, and is positioned at the direction of rotation F side of cutter installation portion 28.

Like Figure 11 and shown in Figure 12, cutter installation portion 28 has cutter installed surface 34 in interior all sides of apex 30, has periphery inclined plane 36 at the outer circumferential side of apex 30.Periphery inclined plane 36 is formed with the first periphery inclined plane 36a and the second periphery inclined plane 36b, and this first periphery inclined plane 36a extends towards the cutter installation portion 28 of the rear side of direction of rotation F and to the radially inner side of first pedestal 22 from the apex 30 of cutter installation portion 28; This second periphery inclined plane 36b is to extend to radially inner side greater than the inclination angle of the first periphery inclined plane 36a.Between the second periphery inclined plane 36b and cutter installed surface 34, be formed with arc surface 38 to the radially inner side depression.Cutter installed surface 34 be formed with can supply first blade 40 fall the position step-like frame portion.Between each cutter installation portion 28, be formed with teeth groove (gullet) 32.The shape of first cutter 20 is for example utilized, and laser instrument cuts and forms steel plate.In addition, the part of cutter installed surface 34 is to utilize that milling cutter etc. cuts, fine finishining forms.

Like Fig. 6, Figure 11 and shown in Figure 12, first blade 40 utilizes scolder etc. to be fixedly mounted on the cutter installed surface 34.First blade 40 is made up of hard cutter head, the high rigidity cutter head of rectangle, and above-mentioned hard cutter head is made up of hard materials such as carbide alloy or cermets, and above-mentioned high rigidity cutter head is made up of high rigidity sintered bodies such as polycrystalline diamonds.First blade 40 comprises rake 42, rear flank face 44, side cutting blade 46, periphery back 48 and periphery cutting blade 49.Rake 42 is faced with the periphery inclined plane 36 in direction of rotation F the place ahead mutually.Side withdrawing face 44 and thickness direction be quadrature roughly.Side cutting blade 46 position that to be rakes 42 intersect with side withdrawing face 44.Periphery cutting blade 49 position that to be rakes 42 intersect with periphery withdrawing face 48.First blade 40 is outstanding to radial outside from first pedestal 22, and outstanding to thickness direction (axially) top of first pedestal 22 a little.

As shown in Figure 4, second cutter 50 comprises second pedestal 52 and second blade 78 (breach cutter).

Like Fig. 4, Fig. 7 and shown in Figure 8, second pedestal 52 is discoideus.The outer circumference diameter of second pedestal 52 is littler than the diameter (rotating diameter) at the front end place of first blade 40, and the diameter at arc surface 38 places of ratio first cutter 20 is big.Second pedestal 52 possesses installation portion 54 and butt facial 64 integratedly.Installation portion 54 has shiny surface in the axial both sides of second pedestal 52.

Like Fig. 4, Fig. 7 and shown in Figure 8, installation portion 54 has the thickness T 2 of 14mm～50mm, for example 24mm.At the center of installation portion 54, be penetrated with circular axis hole 58 vertically.Installation portion 54 has outer peripheral face 56, and the diameter of the embedded hole 24 of the diameter of this outer peripheral face 56 and first cutter 20 is roughly the same.Be penetrated with a plurality of bullports 60 vertically at installation portion 54.Bullport 60 is disposed at installation portion 54 with the mode that central angle equates at interval.Between each bullport 60, be penetrated with second installing hole 62 vertically.Second installing hole 62 axial one distolateral form coniform.

Like Fig. 7 and shown in Figure 8, butt facial 64 is positioned at the outer circumferential side of installation portion 54.Butt facial 64 ring-type thinner that be thickness than installation portion 54.The thickness T 3 of butt facial 64 is 12mm～30mm, for example is 20mm.Butt facial 64 is the smooth flat shapes with axial quadrature.Be formed with a plurality of first internal thread holes 68 at butt facial 64.First internal thread hole 68 disposes with the mode that central angle equates at interval, and is formed with thread groove.First internal thread hole 68 is configured on first installing hole, the 26 corresponding positions with first cutter 20.In the axial substantial middle position of the outer peripheral face 66 of butt facial 64, complete cycle ground is formed with endless groove 74.On the position of the ratio endless groove 74 on the outer peripheral face 66, be formed with mount pad 72 to the radially inner side depression near butt facial 64.The teeth groove 32 of the mount pad 72 and first cutter 20 disposes accordingly.Bottom surface 73 at mount pad 72 is formed with second internal thread hole 76 to radially inner side.

Like Fig. 9 and shown in Figure 10, second blade 78 is rectangular shape roughly.Second blade 78 is made up of hard cutter head, high rigidity cutter head, and above-mentioned hard cutter head is made up of hard materials such as carbide alloy or cermets, and above-mentioned high rigidity cutter head is made up of high rigidity sintered bodies such as polycrystalline diamonds.Second blade 78 have with mount pad 72 roughly with wide base portion 79.Length direction one end at base portion 79 is formed with inclined plane 80 and cutting blade 82.Front end and length direction height that the front end 84 of cutting blade 82 is positioned at direction of rotation F side are the highest.Cutting blade 82 tilts from the rear of front end 84 to direction of rotation F.Cutting blade 82 has the inclined plane 88 of triangle, and this inclined plane 88 has front end 84.Length direction central portion at base portion 79 is penetrated with the 3rd installing hole 86.

Like Figure 11 and shown in Figure 12, second blade 78 is installed on mount pad 72 and outstanding along thickness direction in the periphery of second pedestal 52.The downside of the trough wall surface of endless groove 74 constitutes the lower end of mount pad 72, and the downside of this part trough wall surface becomes the datum clamp face of second blade, therefore utilizes the downside with this trough wall surface of degree of precision processing such as lathe.Thus, confirm the outstanding size of second blade 78 with degree of precision.Second blade 78 is fixed on the part or whole mounting seat 72 of mount pad 72, confirms by processing conditions, gap slot D (with reference to Figure 14) such as spacings is next.

Like Fig. 1 and shown in Figure 4, rotating shaft 100 has discoideus abutment portion 101.Be axially installed with gang tool 10 in abutment portion 101 upper edges.Abutment portion 101 comprises chimeric axial region 103, guiding elements 102 and the 3rd internal thread hole 104.Chimeric axial region 103 has the diameter roughly the same with the axis hole of second pedestal 52 58.In the axle center of abutment portion 101, chimeric axial region 103 is outstanding vertically.A plurality of guiding elements 102 are outstanding vertically at interval with the central angle that equates in the periphery of chimeric axial region 103.Guiding elements 102 is inserted in the bullport 60 of second cutter 50.Thus, gang tool 10 and the configuration of rotating shaft 100 quadrature ground, and the driving force of rotating shaft 100 is delivered on this gang tool 10.The 3rd internal thread hole 104 is formed between each guiding elements 102 vertically.In the 3rd internal thread hole 104, insert screw member 105.Thus, gang tool 10 is fixed on the rotating shaft 100 vertically.

When assembling gang tool 10, at first as shown in Figure 4, first cutter 20 and second pedestal 52 is overlapping with one heart.In embedded hole 24, insert installation portion 54, and first pedestal 22 and butt facial 64 are connected.Make first internal thread hole 68 of first installing hole 26 and second pedestal 52 of first pedestal 22 overlapping, and utilize screw member 70 to be threaded with above-mentioned overlapping screwed hole.Then, second blade 78 is installed on second pedestal 52.Screw member 89 runs through the 3rd installing hole 86 and is threaded with second internal thread hole 76, thereby second blade 78 is fixed on the mount pad 72.Second blade 78 is positioned at the teeth groove 32 of first pedestal 30, and outstanding with the mode that surpasses first cutter 20 along thickness direction.First cutter 20 and second cutter 50 are overlapping vertically and constitute gang tool 10.

Gang tool 10 being installed in 100 last times of rotating shaft, at first as shown in Figure 4, the face of the second cutter side that makes gang tool 10 is towards rotating shaft 100 sides.Make the axis hole 58 and chimeric axial region 103 tablings of installation portion 54.Guiding elements 102 is extended through in the bullport 60 of installation portion 54.Run through second installing hole 62 of installation portion 54 and be threaded with screw member 105 with the 3rd internal thread hole 104.Thus, accomplish the installation of gang tool 10 to rotating shaft 100.

Next, the example that the unsewn binding of books is bound into book form is described briefly.At first, on the positive and negative of opening several paper greatly, print a plurality of pages at the allocation position of stipulating.Folding according to page number order through the above-mentioned paper after the printing.According to overlapping many these paper after folding of the page number, constitute the book inner core.

Then, like Fig. 2 and shown in Figure 13, gang tool 10 is installed on the rotating shaft 100, this rotating shaft 100 is installed towards the mode of vertical direction from motor M, and this motor M is configured in the below of the pipeline L of book inner core W.The Wa of spine (paste back cover part) that makes book inner core W and is configured in the state of downside slightly of first blade 40 of first cutter 20 down with the lower end of book inner core W, W is installed on the pipeline L with the book inner core.The driving force of motor M is delivered to rotating shaft 100, because the rotation of rotating shaft 100 makes gang tool 10 rotate along direction of rotation F.The gang tool 10 that the book inner core W that conveying is come on pipeline L is rotated, the part of the downside that is projected into first cutter 20 on the processing Wa of spine (back cover adhesive portion).Utilize first cutter 20 to make the Wa of spine form the plane, and utilize second cutter 50 to form gap slot D (with reference to Figure 14) at the Wa of spine.Then, apply binder being formed with on the plane of gap slot, thereby binder is immersed in the book inner core.Under this state with the strip of paper used for sealing binding and layout to the spine of book inner core, remaining three limit of cutting and binding into book form.

Shown in figure 14, the Wa of spine of book inner core W is formed with gap slot D with the spacing of regulation.Adopt this structure, only with being installed in 1 gang tool 10 on the axle, just can implement simultaneously that the Wa of spine with book inner core W forms the manufacturing procedure on plane and on above-mentioned plane the manufacturing procedure of formation breach, can omit an operation.Gang tool 10 by the present invention constitutes forms under the situation on plane at the Wa of spine that utilizes other with book inner core W, also can not make up first cutter 20 and only uses second cutter 50.Need not under the situation that the Wa of spine with book inner core W is finish-machined to the plane too.

As stated, gang tool 10 of the present invention comprises that vertically the mode with overlapping combination is installed in first cutter 20 and second cutter 50 on the rotating shaft 100.Second cutter 50 comprises: second pedestal 52, and it is installed on the rotating shaft 100; Second blade 78, it is outstanding with the mode that surpasses first cutter 20 along thickness direction from second pedestal 52.First cutter 20 comprises: first pedestal 22, and itself and second cutter 50 are overlapping, and have not the space of interfering with second blade 78; First blade 40, it is outstanding to radial outside from first pedestal 22.

Thereby, can implement processing of being undertaken by first cutter 20 and the processing of being undertaken by second cutter 50 simultaneously.Thus, can shorten manufacturing procedure.In addition, because first cutter 20 and second cutter 50 are arranged on 1 axle, so processing unit (plant) also can miniaturization.

Second pedestal 52 of second cutter 50 has to be opened with first cutter and is arranged separately in the installation portion 54 on the rotating shaft 100 in 20 minutes.Thereby, can only second cutter 50 be installed on the rotating shaft 100, only implement the processing of being undertaken by second cutter 50.So, can tackle the diversity of processing.

On first pedestal 22 of first cutter 20, each position to each other that teeth groove 32 is formed on a plurality of first blades 40 as the space of not interfering with second blade 78, second blade 78 is arranged in teeth groove 32.Thereby, can make second blade 78 outstanding with the teeth groove 32 on first blade 40 that is formed on first cutter 20 effectively as the space of not interfering with second blade 78.

Second blade 78 of second cutter 50 can be with respect to 52 loading and unloading of second pedestal.Thereby, can form the structure that can use separately through unloading second blade, 78, the first cutters 20, can further tackle the diversity of processing and carry out various combinations.Can second blade 78 of knife-edge shape, any amount arbitrarily be adjusted into overhang arbitrarily, and be fixed on second cutter 50.

Can only unload first cutter 20 separately.Thereby, taken place at first blade of first cutter can easily be replaced with the first new cutter under the situation of wearing and tearing, need not readjust processing capacity to machined object, can improve operability.

Next, according to Figure 15～Figure 18 another embodiment of the present invention is described.In another embodiment, the structure identical with above-mentioned embodiment omitted its explanation the identical structure division identical Reference numeral of mark.Like Figure 15～shown in Figure 180, the gang tool 210 in another embodiment comprises first cutter 220 and second cutter 250.In gang tool 210, the rotating diameter of second blade 278 (breach cutter) of second cutter 250 is littler than the rotating diameter of first blade 240 of first cutter 220 (plane formation cutter).On first pedestal 222 (discoideus base member) of first cutter 220, be formed with the through hole 233 that supplies second blade 278 to run through.Through hole 233 links to each other with teeth groove 232.Through hole 233 is to utilize laser instrument when steel plate cuts first pedestal 222, to form with cutting mutually continuously.Second blade 278 is fixed near the periphery of second cutter 250 on the mount pad 272 that formed by hole portion (can be in through hole or the blind hole any).Utilize screw or scolder etc. second blade 278 to be engaged in second cutter 250 from the outer circumferential side of second cutter 250, thus fixing second blade 278.

As stated, on first pedestal 222 of first cutter 220, supply through hole 233 that second blade 278 of second cutter 250 runs through to be provided with as the space of not interfering with second blade 278.Thus, can second blade 278 be configured on the position of expectation.

On first pedestal 222 of first cutter, be formed with teeth groove 232 in the position to each other in each of a plurality of first blades 240, through hole 233 conjointly forms with teeth groove 232.Thus, can form teeth groove 232 and through hole 233 together.

Gang tool of the present invention is not limited to said structure, also can be other various structures.For example, as another processing example, also can be applied to the processing of the side (forming the face of thickness) of resin plate.From the relation that improves commodity value, it is very smooth that the side of resin plate wants fine finishining to get.Installation method to rotating shaft is identical with above-mentioned embodiment.The blade part of second blade of second cutter forms the cutting blade shapes similar with the lathe tool on the smooth plane of fine finishining.Thus, can utilize the first Tool in Cutting side and form the plane, further utilize second blade of second cutter to carry out smart cutting and be finish-machined to smooth plane.

In gang tool, the rotating diameter of second blade of second cutter can be less than the rotating diameter of first blade of first cutter, also can be greater than the rotating diameter of first blade of first cutter.In this case, second blade of second cutter carries out time processing, and first blade of first cutter carries out time processing.For example also can be that second blade carries out roughing, first blade carries out fine finishining.

Through hole can form with teeth groove and link to each other, and also can not form to link to each other with teeth groove.

Gang tool can be the structure that is made up of two cutters, also can be the structure that is made up of plural cutter.For example, gang tool also can be as required across pad when combination.

The front end of second blade can be outstanding along the bearing of trend of rotating shaft with the mode just over the thickness of first cutter, also can the pad that can adjust overhang be inserted between first cutter and second cutter.

In embodiments of the present invention, second pedestal can be discoideus, also can be polygonal shape.

It also can be the structure of installing with one heart with second cutter that first cutter replaces embedded hole.

It also can be the structure of installing with one heart with rotating shaft that second cutter replaces axis hole.

The combination order of gang tool also can be other orders.For example, also can before superimposed first cutter and second pedestal, second blade be installed on second pedestal.In addition, also can after being installed to second pedestal on the rotating shaft, second blade and first cutter be installed.

Second blade can be the cutter that forms gap slot, also can be to cut and form the cutter of the groove of regulation shape.The shape of cutting blade can change according to purposes.

Mount pad 72 can be a plurality of, also can be 1.

Multiple structure can be applied to the mounting structure of second blade.So long as get final product with the outstanding structure of mode that surpasses first cutter along thickness direction from second pedestal.Can be the structure of fixing the mount pad of second blade with the mode that can load and unload, also can utilize solder bonds second blade.

Description of reference numerals

10, gang tool; 20, first cutter (plane formation cutter); 22, first pedestal (discoideus base member); 32, teeth groove; 40, first blade (bite); 50, second cutter (breach cutter); 52, second pedestal; 54, installation portion; 78, second blade (breach cutter); 100, rotating shaft; 220, first cutter (plane formation cutter); 222, first pedestal (discoideus base member); 232, teeth groove; 233, through hole; 240, first blade; 250, second cutter; 272, mount pad; 278, second blade (breach cutter).

Claims (4)

1. gang tool, this gang tool comprise that vertically the mode with overlapping combination is installed in first cutter and second cutter on the rotating shaft;

Above-mentioned second cutter comprises: second pedestal, and it is installed on the above-mentioned rotating shaft; Second blade, it is outstanding with the mode that surpasses above-mentioned first cutter along thickness direction from above-mentioned second pedestal;

Above-mentioned first cutter comprises: first pedestal, and it overlaps on above-mentioned second cutter, and has not the space of interfering with above-mentioned second blade; First blade, it is outstanding to radial outside from above-mentioned first pedestal.

2. gang tool according to claim 1, wherein,

Above-mentioned second pedestal of above-mentioned second cutter has and is independent of above-mentioned first cutter and is arranged separately in the installation portion on the above-mentioned rotating shaft.

3. gang tool according to claim 1 and 2, wherein,

On above-mentioned first pedestal of above-mentioned first cutter, teeth groove be formed on a plurality of above-mentioned first blades as above-mentioned space each to each other on the position, above-mentioned second blade is arranged in above-mentioned teeth groove.

4. gang tool according to claim 1 and 2, wherein,

Be provided with through hole that above-mentioned second blade that supplies above-mentioned second cutter runs through as above-mentioned space at above-mentioned first pedestal of above-mentioned first cutter.

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