CN205414526U - Whole slot milling device who magnifies material of IC -card - Google Patents

Abstract

The utility model relates to an upper reaches system card field of IC -card, specifically speaking is a whole slot milling device who magnifies material of IC -card, the whole material that magnifies is gone up and is typeset according to the printing that to be divided into M capable, many IC card base of N row, the whole material that magnifies is carried on by the main entrance and is fixed a position behind the milling flutes station, load onto cutter head at least by milling flutes portion and carry out the milling flutes simultaneously to whole at least one each IC card base who lists in the material that magnifies, the permutation cutter head that milling flutes portion loaded onto has the X axle, the Y axle, the movement freedom of three orientations on the Z axle, whole each IC card base who magnifies in one in material or the multiseriate accomplishes after the milling flutes, the whole material that magnifies carries out the milling flutes with one or multiseriate are step -by -step to other row, to magnify on the material M capable until putting in order, each IC card base of N row all accomplishes the milling flutes. The utility model discloses the efficiency of system card can be improved greatly, the time of delivery has been saved simultaneously to can be under the unchangeable condition of external factor, extension equipment life has improved the machining precision in the production process.

Description

The whole slotting attachment magnifying material of IC-card

Technical field

This utility model relates to the fabrication field, upstream of IC-card, the whole slotting attachment magnifying material of a kind of IC-card.

Background technology

The size of IC-card is according to unification of the motherland standard 85.6mm × 54mm, and the card matrix material of IC-card is plastics or the paper such as PVC (polrvinyl chloride), ABS, and individual IC-card on the market is divided into single deck tape-recorder single or a card multicore.At present, the flow process producing IC-card is: raw material printing, the whole material blunderbuss that magnifies of synthesis M × N cut ISO7816 standard card groove milling packaged personal.

In current fabrication flow process, only print whole magnify material and blunderbuss have when cutting ISO7816 standard card whole magnify material occur, the ISO7816 standard card all cut just for blunderbuss in the course of processing of real meaning.Existing groove milling operation is limited by ISO7816 standard card size, the limited amount of groove milling on ISO7816 standard card, the groove milling of identical groove milling quantity I SO7816 standard card is lost time in transmitting procedure, and the relative positional accuracy of every two IC-card groove millings is difficult to control.

Utility model content

In order to solve the problems referred to above existing for individual milling card current, the purpose of this utility model is to provide a kind of IC-card the whole slotting attachment magnifying material.

The purpose of this utility model is achieved through the following technical solutions:

This utility model includes handling machinery hand dress, elevator platform portion dress and groove milling portion dress, wherein elevator platform portion dress includes floating main body, power source C and Z axis moving person, this power source C is arranged on the base of groove milling portion dress, be positioned at the side of described Z axis moving person and outfan is connected with this Z axis moving person, described handling machinery hand dress is arranged on the opposite side of this Z axis moving person, and described floating main body is connected to the top of Z axis moving person, is driven along Z axis lifting by power source C with Z axis moving person；Described handling machinery hand dress includes power source A, drive mechanism A, power source B, jaw and X-axis moving person, this power source A is arranged on described Z axis moving person, outfan is connected with X-axis moving person by described drive mechanism A, drives this X-axis moving person to move back and forth along X-direction, described power source B is arranged on X-axis moving person, and outfan connects the described whole jaw magnifying material of clamping；nullBefore and after described elevator platform portion dress feedstock direction, two ends are arranged with groove milling portion dress，Each groove milling portion dress all includes that X-axis feeding portion fills、Y-axis feeding portion fills、Milling head device、XY traversing carriage、Base and upper limit plate，This X-axis feeding portion dress is arranged on base，Described Y-axis feeding portion's load is connected to the outfan of X-axis feeding portion dress，Described milling head device is connected to the outfan of Y-axis feeding portion dress，Outfan at this milling head device connects the milling head of at least string，Described milling head is filled by described X-axis feeding portion、Y-axis feeding portion fills、The driving of milling head device has X-axis、Y-axis、The one-movement-freedom-degree in Z axis three direction，Described upper limit plate is arranged on base、Spacing to described floating main body Z axis，Groove milling portion described in both sides loads onto the milling head of at least string and whole magnify the IC-card bases of at least two row on material to described and carry out groove milling；

Wherein: described power source A is fixed on the opposite side of described Z axis moving person by installing rack, described drive mechanism A is screw nut driven mechanism, including nut A and leading screw A, this leading screw A is connected with the outfan of described power source A, described nut A is threadeded with leading screw A, the side of described X-axis moving person is affixed with this nut A, and opposite side is connected with described power source B, and this X-axis moving person is moved by the axial reciprocating along described leading screw A that drives of power source A；Described jaw is consistently higher than the top of X-axis moving person, is clamped between the top of jaw and X-axis moving person by the described whole material that magnifies；

Described floating main body includes support base plate, float plate and stage clip, this support base plate is connected to the top of described Z axis moving person, this support base plate has multiple stepped throughhole, the lower surface of described float plate is provided with that quantity is identical with through hole and screw one to one, each described screw is passed by through hole, all being equipped with, in each described through hole, the stage clip being enclosed within screw, the two ends of this stage clip are connected on the ladder in the lower surface of float plate and described through hole respectively；Described support base plate and float plate are driven by power source C with Z axis moving person and rise to abut with described upper limit plate, it is achieved Z-direction spacing；

Described X-axis feeding portion dress includes X-axis power source, X-axis bearing, X-axis connector, drive mechanism B, bearing block A and XY traversing carriage, this X-axis power source is arranged on base by X-axis bearing, described drive mechanism B is screw nut driven mechanism, including nut B and leading screw B, this leading screw B is rotationally connected with the bearing block A being fixed on base and is connected with the outfan of X-axis power source by described X-axis connector, described nut B is threadeded with leading screw B, and described Y-axis feeding portion dress is connected with nut B by XY traversing carriage；Being arranged with guide rail A on the base of described leading screw B both sides, the lower surface of described XY traversing carriage both sides is respectively equipped with the slide block A being slidably connected with guide rail A；

Described Y-axis feeding portion dress includes Y-axis power source, Y-axis bearing, Y-axis connector, drive mechanism C, bearing block B and XY traversing carriage, this Y-axis power source is arranged on XY traversing carriage by Y-axis bearing, described drive mechanism C is screw nut driven mechanism, including nut C and leading screw C, this leading screw C is rotationally connected with the bearing block B being fixed on XY traversing carriage and is connected with the outfan of Y-axis power source by described Y-axis connector, described nut C is threadeded with leading screw C, and described milling head device is connected with nut C；

Described milling head device includes movable plate and the multiple Z axis feeding portions dress being arranged on this movable plate, each described Z axis feeding portion dress all includes Z axis power source, Z axis bearing, Z axis connector, drive mechanism D, milling head power source and milling head, the outfan that described movable plate fills with described Y-axis feeding portion is connected, described Z axis power source is arranged on movable plate by Z axis bearing, described drive mechanism D is screw nut driven mechanism, including leading screw D and nut D, this leading screw D is connected with the outfan of Z axis power source by Z axis connector, described nut D is threadeded with leading screw D, described milling head power source is arranged on nut D, outfan connects milling head, each described milling head is arranged in column, with described whole magnifying, milling head quantity in each column expects that the line number of upper IC-card base is identical；Described movable plate be respectively provided on two sides with this slide block B of slide block B and the guide rail B being arranged on described XY traversing carriage is slidably connected.

Advantage of the present utility model with good effect is:

1. this utility model is that permutation milling head magnifies material upper permutation IC-card base groove milling simultaneously to whole, the efficiency of fabrication can be greatly improved, save time of delivery simultaneously, and the man-hour to card processing, and can be in the case of extrinsic factor be constant, extension device service life, the most whole upper ISO7816 standard card of material that magnifies is fixed relative to position, improves the machining accuracy in production process.

The whole material that magnifies the most of the present utility model can realize, by elevator platform portion dress, the purpose that Z axis is spacing, it is ensured that the whole material that magnifies fully compresses with upper limit platform.

Accompanying drawing explanation

Fig. 1 is the whole structural representation magnifying material of this utility model；

Fig. 2 is perspective view of the present utility model；

Fig. 3 is one of perspective view of this utility model handling machinery hand dress；

Fig. 4 is the two of the perspective view of this utility model handling machinery hand dress；

Fig. 5 is one of perspective view of this utility model elevator platform portion dress；

Fig. 6 is the partial sectional view being connected between Fig. 5 medium-height trestle base plate and float plate；

Fig. 7 is the two of the perspective view of this utility model elevator platform portion dress；

Fig. 8 is the perspective view of this utility model groove milling portion dress；

Fig. 9 is the perspective view of X-axis feeding portion dress in Fig. 8；

Figure 10 is the perspective view of Y-axis feeding portion dress in Fig. 8；

Figure 11 is the perspective view of milling head device in Fig. 8；

Wherein: 1 fills for handling machinery hand, and 101 is power source A, and 102 is drive mechanism A, and 1021 is nut A, and 1022 is leading screw A, and 103 is power source B, and 104 is jaw, and 105 is X-axis moving person, and 106 is installing rack；

2 fill for elevator platform portion, and 201 is floating main body, and 2011 is support base plate, and 2012 is float plate, and 2013 is stage clip, and 2014 is screw, and 2015 is through hole, and 202 is power source C, and 203 is Z axis moving person；

null3 fill for groove milling portion，301 is X-axis feeding portion dress，3011 is X-axis power source，3012 is X-axis bearing，3013 is X-axis connector，3014 is drive mechanism B，30141 is nut B，30142 is leading screw B，3015 is bearing block A，3016 is slide block A，3017 is guide rail A，302 is Y-axis feeding portion dress，3021 is Y-axis power source，3022 is Y-axis bearing，3023 is Y-axis connector，3024 is drive mechanism C，30241 is nut C，30242 is leading screw C，3025 is bearing block B，3026 is slide block B，3027 is guide rail B，303 is milling head device，3031 is Z axis power source，3032 is Z axis connector，3033 is drive mechanism D，30331 is leading screw D，30332 is nut D，3034 is milling head power source，3035 is milling head，3036 is movable plate，3037 is Z axis bearing，304 is XY traversing carriage，305 is base，306 is upper limit plate；

4 is the whole material that magnifies, and 5 is IC-card base.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings.

This utility model changes manufacturing card order and form, production procedure is become: the whole material groove milling packaged personal blunderbuss that magnifies of raw material printing synthesis M × N is cut.

This utility model is that the whole material 4 that magnifies directly is carried out groove milling, the most whole magnifying expects 4 as shown in Figure 1, it is by ISO7816 standard card is carried out typesetting, reasonably being distributed in by the ISO7816 standard card of a size of 85.6mm × 54mm and whole magnify on material 4, the whole concrete size magnifying material 4 is according to can be depending on print range.Setting X-axis as row, Y-axis at two-dimensional space is row, and the minor face 54mm limit paralleled by X axis of ISO7816 standard card, the parallel Y-axis in 85.6mm limit, long limit, and whole magnifying expects 4 permutation steppings, and feedstock direction is parallel to X-axis.Every whole magnify material 4 arrangement card numbers be M × N, M be row, N be row, the preferred value of M is 3～6 row, and the preferred value of N is 5～8 row, and M × N opens ISO7816 standard card distributed rectangular, constitutes and whole magnifies material 4.

As in figure 2 it is shown, this utility model include handling machinery hand fill 1, elevator platform portion fill 2 and groove milling portion fill 3, before and after wherein elevator platform portion fills 2 feedstock directions, two ends are arranged with groove milling portion and fill 3, and handling machinery hand fills 1 and is arranged on elevator platform portion and fills on 2.

As shown in Fig. 5～7, elevator platform portion fills 2 and includes floating main body 201, power source C202 and Z axis moving person 203, power source C202 (can be cylinder) is arranged on groove milling portion, both sides and fills on the base 305 of 3, is positioned at the side of Z axis moving person (203) and outfan is connected with this Z axis moving person 203, and handling machinery hand fills 1 opposite side being arranged on this Z axis moving person 203.Floating main body 201 includes support base plate 2011, float plate 2012 and stage clip 2013, this support base plate 2011 is connected to the top of Z axis moving person 203, driven along Z axis lifting with Z axis moving person 203 by this power source C202, this support base plate 2011 has multiple stepped throughhole 2015, it is identical with through hole 2015 that the lower surface of float plate 2012 is provided with quantity, and screw 2014 one to one, each screw 2014 is passed by a through hole 2015, the stage clip 2013 being enclosed within screw 2014 all it is equipped with in each through hole 2015, the two ends of stage clip 2013 are connected on the ladder in the lower surface of float plate 2012 and through hole 2015 respectively；Support base plate 2011 and float plate 2012 are driven by power source C202 and rise, when rising to the upper limit plate 306 that groove milling portion fills 3, support base plate 2011 continues to rise, stage clip 2013 is made to compress, produce reseting elasticity, when rising stopping, reseting elasticity acts in float plate 2012, makes float plate 2012 fully abut compression with upper limit plate 306, reaches the purpose that Z-direction is spacing.There will be Local warping in view of the whole material 4 that magnifies, it is impossible to ensure flatness, the setting of floating main body 201 can ensure that the whole material 4 that magnifies fully compresses with upper limit plate.

nullSuch as Fig. 3、Shown in Fig. 4，Handling machinery hand fills 1 and includes power source A101、Drive mechanism A102、Power source B103、Jaw 104 and X-axis moving person 105，Power source A101 (can be motor) is fixed on the opposite side of Z axis moving person 203 by installing rack 106，Drive mechanism A102 is screw nut driven mechanism，Including nut A1021 and leading screw A1022，The outfan of this leading screw A1022 and power source A101 is connected，Nut A1021 is threadeded with leading screw A1022，The side of X-axis moving person 105 is affixed with this nut A1021，Opposite side is connected with power source B103 (can be cylinder)，Revolute pair is become X-axis moving person 105 moved along the axial reciprocating of leading screw A1022 by threadeding of nut A1021 and leading screw A1022 by power source A101.The power source B103 of the present embodiment is two, the outfan of each power source B103 is respectively connected with the whole jaw 104 magnifying material 4 of clamping, this jaw 104 is consistently higher than the top of X-axis moving person 105, magnifies whole between the top that material 4 is clamped in jaw 104 and X-axis moving person 105.

nullSuch as Fig. 1、Shown in Fig. 8，Elevator platform portion fills two ends before and after 2 feedstock directions and is arranged with groove milling portion and fills 3，Each groove milling portion fills 3 and all includes that X-axis feeding portion fills 301、Y-axis feeding portion fills 302、Milling head device 303、XY traversing carriage 304、Base 305 and upper limit plate 306，This X-axis feeding portion fills 301 and is arranged on base 305，Y-axis feeding portion fills 302 and is connected to X-axis feeding portion and fills the outfan of 301，Milling head device 303 is connected to Y-axis feeding portion and fills the outfan of 302，Outfan at this milling head device 303 connects the milling head 3035 of at least string，Milling head 3035 fills 301 by X-axis feeding portion、Y-axis feeding portion fills 302、The driving of milling head device 303 has X-axis、Y-axis、The one-movement-freedom-degree in Z axis three direction，Upper limit plate 306 is arranged on base 305、Spacing to floating main body 201Z axle，Groove milling portion, both sides fills the milling head 3035 of at least string on 3 and whole magnifying being expected, on 4, the IC-card bases 5 of at least two row carry out groove milling.

nullSuch as Fig. 9、Shown in Figure 10，X-axis feeding portion fills 301 and includes X-axis power source 3011、X-axis bearing 3012、X-axis connector 3013、Drive mechanism B3014、Bearing block A3015 and XY traversing carriage 304，This X-axis power source 3011 (can be motor) is arranged on base 305 by X-axis bearing 3012，Drive mechanism B3014 is screw nut driven mechanism，Including nut B30141 and leading screw B30142，This leading screw B30142 is rotationally connected with the bearing block A3015 being fixed on base 305、And be connected with the outfan of X-axis power source 3011 by X-axis connector 3013 (can be shaft coupling)，Nut B1021 is threadeded with leading screw B1022，Y-axis feeding portion is filled 302 and is connected with nut B30141 by XY traversing carriage 304，Revolute pair is become XY traversing carriage 304 moved along the axial reciprocating of leading screw B30142 by threadeding of nut B30141 and leading screw B30142 by X-axis power source 3011.On the base 305 of the axial both sides of leading screw B30142, symmetry is connected with two guide rail A3017, guide rail A3017 is axially in parallel with leading screw B30142's, the lower surface of XY traversing carriage 304 both sides is equipped with the slide block A3016 being slidably connected with guide rail A3017, and guide effect is played in the movement filling 302 for XY traversing carriage 304 and Y-axis feeding portion thereon.

nullAs shown in Figure 10，Y-axis feeding portion fills 302 and includes Y-axis power source 3021、Y-axis bearing 3022、Y-axis connector 3023、Drive mechanism C3024、Bearing block B3025 and XY traversing carriage 304，This Y-axis power source 3021 (can be motor) is arranged on XY traversing carriage 304 by Y-axis bearing 3022，Drive mechanism C3024 is screw nut driven mechanism，Including nut C30241 and leading screw C30242，This leading screw C30242 is rotationally connected with the bearing block B3025 being fixed on XY traversing carriage 304、And be connected with the outfan of Y-axis power source 3021 by Y-axis connector 3023 (can be shaft coupling)，Nut C30241 is threadeded with leading screw C30242，Milling head device 303 is connected with nut C30241 by movable plate 3036，Revolute pair is become movable plate 3036 moved along the axial reciprocating of leading screw C30242 by threadeding of nut C30241 and leading screw C30242 by Y-axis power source 3021.On the XY traversing carriage 304 of the axial both sides of leading screw C30242, symmetry is connected with two guide rail B3027, guide rail B3027 is axially in parallel with leading screw C30242's, the lower surface of movable plate 3036 both sides is equipped with the slide block B 3026 being slidably connected with guide rail B3027, and guide effect is played in the movement for movable plate 3036 and milling head device thereon 303.

nullAs shown in figure 11，Milling head device 303 includes movable plate 3036 and the multiple Z axis feeding portions dress being arranged on this movable plate 3036，Each Z axis feeding portion dress all includes Z axis power source 3031、Z axis bearing 3037、Z axis connector 3032、Drive mechanism D3033、Milling head power source 3034 and milling head 3035，Z axis power source 3031 (can be motor) is arranged on movable plate 3036 by Z axis bearing 3037，Drive mechanism D3033 is screw nut driven mechanism，Including leading screw D30331 and nut D30332，This leading screw D30331 is connected with the outfan of Z axis power source 3031 by Z axis connector 3032 (can be shaft coupling)，Nut D30332 is threadeded with leading screw D30331，A milling head power source 3034 all it is connected with on each nut D30332，Revolute pair is become milling head power source 3034 moved along the axial reciprocating of leading screw D30331 by threadeding of nut D30332 and leading screw D30331 by Z axis power source 3031.Milling head power source 3034 and outfan connect has milling head 3035, each milling head 3035 to arrange in column, with whole magnifying, milling head 3035 quantity in each column expects that on 4, the line number of IC-card base 5 is identical.Milling head 3035 quantity in this utility model slotting attachment is that the integral multiple for the whole row magnifying material 4 is carried out simultaneously, the i.e. configuration of milling head 3035 should carry out milling head quantity is increased or decreased with the integral multiple of permutation according to adding the number change of chip on the number change carefully and neatly magnifying material 4, the whole number change magnifying the upper ISO7816 standard card of material and ISO7816 standard card simultaneously accordingly, if the quantity of milling head 3035 is that is increased or decreased, it is to be increased or decreased according to the multiple of row.

Location in this utility model X-axis, Y-axis is to detect the whole each test point arranged on material 4 that magnifies by sensor to determine the whole position magnifying material 4.

Groove milling method of the present utility model is:

Whole magnifying is divided into M row, multiple IC-card bases 5 of N row by print publishing on material 4, the whole material 4 that magnifies is positioned by after being carried to groove milling station on main channel, before groove milling, the whole material 4 that magnifies withstands on upper limit plate 306 by floating main body 201, it is achieved whole magnifying expects the axial location of floating of 4Z.Then, the milling head being filled at least string on 3 by groove milling portion carries out groove milling to whole each the IC-card base 5 magnified on material 4 at least string simultaneously, groove milling portion fills the permutation milling head on 3 and has X-axis, Y-axis, the one-movement-freedom-degree in Z axis three direction, whole magnifying being expected, the 4 permutation milling heads carrying out groove milling are controlled X simultaneously, Y-direction moves, and the Z axis of the most multiple milling heads shares an XY platform.After whole each the IC-card base 5 magnified in material 4 one or more columns per pages completes groove milling, the whole material 4 that magnifies steps to other row with one or more columns per page and carries out groove milling, until each the IC-card base 5 whole magnifying M row on material 4, N arranges is fully completed groove milling.Particularly as follows:

Power source A101 works, and whole the magnifying driving X-axis moving person 105 to move along the x-axis to main channel expects 4 sides；Power source B103 works, and drives the whole edge magnifying material 4 of jaw 104 lifting clamping, and after clamping, conveying robot 1 carries out X-axis, Y-axis school zero, then power source A101 reverse operation to the whole material 4 that magnifies, and along X-axis, the whole material 4 that magnifies is transported to groove milling position.By to X-axis, the school zero of Y-axis, X-axis power source 3011 drives leading screw B30142 to rotate, and makes nut B30141 drive XY traversing carriage 304 to carry out the feeding of X-direction；Y-axis power source 3021 drives leading screw C30242 to rotate, and makes nut C30241 drive movable plate 3036 to carry out the feeding of Y direction.Milling head device 303 together carries out X-axis, Y-axis feeding, to run to groove milling position.

Power source C202 works, Z axis moving person 203 and floating main body 201 is made to carry out Z axis motion, when rising to upper limit plate 306, support base plate 2011 continues to rise, and makes stage clip 2013 compress, and produces reseting elasticity, when rising stopping, reseting elasticity acts in float plate 2012, makes float plate 2012 fully compress with upper limit plate 306, reaches the spacing purpose of Z axis.Spacing complete after, each Z axis power source 3031 works, and drives leading screw D30331 to rotate, and makes nut D30332 drive milling head power source 3034 to carry out the feeding of Z-direction, and milling head power source 3034 works simultaneously, drives milling head 3035 that the whole material 4 that magnifies is carried out groove milling.After the whole one or more columns per page groove milling magnified on material 4 completes, whole magnifying expects 4 permutation steppings under handling machinery hand fills the drive of 1, then other row are carried out groove milling simultaneously.

Whole magnifying after material 4 is fully completed groove milling, Z axis power source 3031 drives milling head 3035 counteragent, and the whole material 4 that magnifies fills 1 by carrying mechanism hand and sends, and carries out next station manipulation.

Claims (8)

1. null1. the whole slotting attachment magnifying material of IC-card，It is characterized in that: include that handling machinery hand fills (1)、Elevator platform portion dress (2) and groove milling portion dress (3)，Wherein elevator platform portion dress (2) includes floating main body (201)、Power source C (202) and Z axis moving person (203)，This power source C (202) is arranged on the base (305) in groove milling portion dress (3)、It is positioned at the side of described Z axis moving person (203)、And outfan is connected with this Z axis moving person (203)，Described handling machinery hand dress (1) is arranged on the opposite side of this Z axis moving person (203)，Described floating main body (201) is connected to the top of Z axis moving person (203)、Drive along Z axis lifting by power source C (202) with Z axis moving person (203)；Described handling machinery hand dress (1) includes power source A (101), drive mechanism A (102), power source B (103), jaw (104) and X-axis moving person (105), this power source A (101) is arranged on described Z axis moving person (203), outfan is connected with X-axis moving person (105) by described drive mechanism A (102), this X-axis moving person (105) is driven to move back and forth along X-direction, described power source B (103) is arranged on X-axis moving person (105), outfan connects the whole jaw (104) magnifying material (4) of clamping；nullBefore and after described elevator platform portion dress (2) feedstock direction, two ends are arranged with groove milling portion dress (3)，Each groove milling portion dress (3) all includes that X-axis feeding portion fills (301)、Y-axis feeding portion dress (302)、Milling head device (303)、XY traversing carriage (304)、Base (305) and upper limit plate (306)，This X-axis feeding portion dress (301) is arranged on base (305)，Described Y-axis feeding portion dress (302) is connected to the outfan in X-axis feeding portion dress (301)，Described milling head device (303) is connected to the outfan in Y-axis feeding portion dress (302)，Outfan at this milling head device (303) connects the milling head (3035) of at least string，Described milling head (3035) fills (301) by described X-axis feeding portion、Y-axis feeding portion dress (302)、The driving of milling head device (303) has X-axis、Y-axis、The one-movement-freedom-degree in Z axis three direction，Described upper limit plate (306) is arranged on base (305)、Spacing to described floating main body (201) Z axis，In groove milling portion dress (3) described in both sides, the milling head (3035) of at least string carries out groove milling to the described whole at least two IC-card bases (5) arranged that magnify on material (4).
2. null2. the whole slotting attachment magnifying material of IC-card as described in claim 1，It is characterized in that: described power source A (101) is fixed on the opposite side of described Z axis moving person (203) by installing rack (106)，Described drive mechanism A (102) is screw nut driven mechanism，Including nut A (1021) and leading screw A (1022)，This leading screw A (1022) is connected with the outfan of described power source A (101)，Described nut A (1021) threadeds with leading screw A (1022)，The side of described X-axis moving person (105) is affixed with this nut A (1021)，Opposite side is connected with described power source B (103)，This X-axis moving person (105) is moved along the axial reciprocating of described leading screw A (1022) by the driving of power source A (101)；Described jaw (104) is consistently higher than the top of X-axis moving person (105), whole magnifies described between the top that material (4) is clamped in jaw (104) and X-axis moving person (105).
3. null3. the whole slotting attachment magnifying material of IC-card as described in claim 1，It is characterized in that: described floating main body (201) includes support base plate (2011)、Float plate (2012) and stage clip (2013)，This support base plate (2011) is connected to the top of described Z axis moving person (203)，This support base plate (2011) has multiple stepped throughhole (2015)，It is identical with through hole (2015) that the lower surface of described float plate (2012) is provided with quantity、And screw (2014) one to one，Each described screw (2014) is passed by through hole (2015)，The stage clip (2013) being enclosed within screw (2014) all it is equipped with in each described through hole (2015)，The two ends of this stage clip (2013) are connected on the ladder in the lower surface of float plate (2012) and described through hole (2015) respectively；Described support base plate (2011) and float plate (2012) are driven by power source C (202) with Z axis moving person (203) and rise to abut with described upper limit plate (306), it is achieved Z-direction spacing.
4. null4. the whole slotting attachment magnifying material of IC-card as described in claim 1，It is characterized in that: described X-axis feeding portion dress (301) includes X-axis power source (3011)、X-axis bearing (3012)、X-axis connector (3013)、Drive mechanism B (3014)、Bearing block A (3015) and XY traversing carriage (304)，This X-axis power source (3011) is arranged on base (305) by X-axis bearing (3012)，Described drive mechanism B (3014) is screw nut driven mechanism，Including nut B (30141) and leading screw B (30142)，This leading screw B (30142) is rotationally connected with the bearing block A (3015) being fixed on base (305)、And be connected with the outfan of X-axis power source (3011) by described X-axis connector (3013)，Described nut B (1021) threadeds with leading screw B (1022)，Described Y-axis feeding portion dress (302) is connected with nut B (30141) by XY traversing carriage (304).
5. 5. the whole slotting attachment magnifying material of IC-card as described in claim 4, it is characterized in that: be arranged with guide rail A (3017) on the base (305) of described leading screw B (30142) both sides, the lower surface of described XY traversing carriage (304) both sides is respectively equipped with the slide block A (3016) being slidably connected with guide rail A (3017).
6. null6. the whole slotting attachment magnifying material of IC-card as described in claim 1，It is characterized in that: described Y-axis feeding portion dress (302) includes Y-axis power source (3021)、Y-axis bearing (3022)、Y-axis connector (3023)、Drive mechanism C (3024)、Bearing block B (3025) and XY traversing carriage (304)，This Y-axis power source (3021) is arranged on XY traversing carriage (304) by Y-axis bearing (3022)，Described drive mechanism C (3024) is screw nut driven mechanism，Including nut C (30241) and leading screw C (30242)，This leading screw C (30242) is rotationally connected with the bearing block B (3025) being fixed on XY traversing carriage (304)、And be connected with the outfan of Y-axis power source (3021) by described Y-axis connector (3023)，Described nut C (30241) threadeds with leading screw C (30242)，Described milling head device (303) is connected with nut C (30241).
7. null7. the whole slotting attachment magnifying material of IC-card as described in claim 1，It is characterized in that: described milling head device (303) includes movable plate (3036) and the multiple Z axis feeding portions dress being arranged on this movable plate (3036)，Each described Z axis feeding portion dress all includes Z axis power source (3031)、Z axis bearing (3037)、Z axis connector (3032)、Drive mechanism D (3033)、Milling head power source (3034) and milling head (3035)，Described movable plate (3036) is connected with the outfan in described Y-axis feeding portion dress (302)，Described Z axis power source (3031) is arranged on movable plate (3036) by Z axis bearing (3037)，Described drive mechanism D (3033) is screw nut driven mechanism，Including leading screw D (30331) and nut D (30332)，This leading screw D (30331) is connected with the outfan of Z axis power source (3031) by Z axis connector (3032)，Described nut D (30332) threadeds with leading screw D (30331)，Described milling head power source (3034) is arranged on nut D (30332)，Outfan connects milling head (3035)，Each described milling head (3035) is arranged in column，Milling head (3035) quantity in each column is identical with the described whole line number magnifying the upper IC-card base (5) of material (4).
8. 8. the whole slotting attachment magnifying material of IC-card as described in claim 1, it is characterized in that: described movable plate (3036) be respectively provided on two sides with slide block B (3026), this slide block B (3026) is slidably connected with the guide rail B (3027) being arranged on described XY traversing carriage (304).