CN209110261U - A kind of smart card slotting attachment - Google Patents

Abstract

The utility model discloses a kind of smart card slotting attachment, including groove milling mounting base, milling flutes mechanism and groove milling driving mechanism, the milling flutes mechanism includes milling cutter and rotary drive mechanism；The groove milling driving mechanism includes longitudinal groove milling driving mechanism and vertical groove milling driving mechanism；The milling flutes mechanism further includes debris removal mechanism, and the debris removal mechanism includes dust excluding hood and hold-down mechanism, and the dust excluding hood is provided with escape port in the corresponding position with the milling cutter, and the escape port is connected to the inner cavity of the dust excluding hood；Air inlet is provided in the dust excluding hood, described air inlet one end is connected to by gas nozzle with extraneous feeder, and the other end extends into the inner cavity of the dust excluding hood.The smart card slotting attachment can be while carrying out groove milling to smart card, and the clast generated to groove milling is collected, to prevent these clasts from drifting in air and polluting workshop condition, and then protects the health of operator.

Description

A kind of smart card slotting attachment

Technical field

The utility model relates to a kind of smart card production equipments, and in particular to a kind of smart card slotting attachment.

Background technique

In the process of smart card, generally requires to carry out groove milling to smart card and encapsulation passes through driving in groove milling Device drives milling cutter movement, to mill out satisfactory groove on the surface of smart card.During groove milling, often produce Raw clast, these clasts are drifted in air, can not only be polluted to workshop condition, but also can be to the body of operator Health has an impact.However the clast that existing groove milling equipment does not take any measures to prevent groove milling from generating is drifted in sky In gas.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of smart card slotting attachment, the intelligence Energy card slotting attachment can be while carrying out groove milling to smart card, and the clast generated to groove milling be collected, to prevent this A little clasts drift in air and pollute workshop condition, and then protect the health of operator.

The technical solution that the utility model solves above-mentioned technical problem is:

A kind of smart card slotting attachment, including groove milling mounting base, the milling flutes mechanism being arranged in groove milling mounting base, for driving Dynamic milling flutes mechanism movement is to complete the groove milling driving mechanism that groove milling acts, wherein

The milling flutes mechanism includes the milling cutter being arranged in groove milling mounting base and the rotary driving machine for driving milling cutter rotation Structure；The groove milling driving mechanism includes for driving groove milling mounting base to do the lateral groove milling driving mechanism of transverse movement, for driving Dynamic groove milling mounting base does longitudinal groove milling driving mechanism of longitudinal movement and for driving groove milling mounting base to do the perpendicular of vertical motion To groove milling driving mechanism；

The milling flutes mechanism further includes the debris removal mechanism being arranged in groove milling mounting base, and the debris removal mechanism includes being mounted on Dust excluding hood in the groove milling mounting base and for driving dust excluding hood elastic compression in the hold-down mechanism on smart card surface, In, the inner cavity of the dust excluding hood is connect by connecting tube with extraneous negative pressure device, and the dust excluding hood is corresponding with the milling cutter Escape port is provided at position, the escape port is connected to the inner cavity of the dust excluding hood；Close to the milling cutter in the dust excluding hood Side be provided with air inlet, described air inlet one end is connected to by gas nozzle with the feeder in the external world, and the other end extends into institute State the inner cavity of dust excluding hood.

Preferably, the debris removal mechanism further includes the connecting plate being arranged on the dust excluding hood and is arranged in the connection Guiding mechanism between plate and the groove milling mounting base, wherein the guiding mechanism includes that leading on the connecting plate is arranged in To block and the guide rail being arranged in the groove milling mounting base, wherein the guide rail is vertically arranged, and the guide pad is mounted on institute It states on guide rail.

Preferably, the hold-down mechanism includes the fixed block being arranged in the groove milling mounting base, is arranged in the connection Slide bar and spring on plate, wherein the slide bar is vertically arranged, and the lower end of the slide bar is fixed on the connecting plate, upper end The fixed block is vertically passed through, the fixed block is being provided with sliding slot with the slide bar corresponding position；It is located in the slide bar The position of the upper end of fixing block is provided with the stop collar with slide bar cooperation, and the diameter of the stop collar is greater than the sliding slot Diameter；The spring pocket is on the slide bar, and upper end acts on the lower surface of the fixed block, and lower end acts on the company On fishplate bar.

Preferably, the lower end of the groove milling mounting base is provided with limited block, and the limited block is located under the connecting plate It is square, the horizontal extension extended to right above the limited block is provided on the connecting plate.

Preferably, the vertical groove milling driving mechanism include vertical fixing seat, the vertical drive that is arranged in vertical fixing seat Dynamic motor and the first lead screw transmission mechanism, wherein first lead screw transmission mechanism include the first screw rod and with first First feed screw nut of bar cooperation, wherein first screw rod is connect with the main shaft of the vertical driving motor, and described first Stem nut is mounted in groove milling mounting base；The vertical groove milling driving mechanism further include setting the groove milling mounting base with it is described The first sliding equipment between vertical fixing seat, first sliding equipment includes the first sliding rail being arranged in vertical fixing seat And the first sliding block in groove milling mounting base is set, wherein first sliding rail is vertically arranged, and first sliding block is mounted on On first sliding rail.

Preferably, the vertical groove milling driving mechanism further includes the first testing agency, and first testing agency includes setting The first photoelectric sensor setting the first detection lug in groove milling mounting base and being arranged in vertical fixing seat, wherein described First photoelectric sensor is vertically arranged in the upper and lower ends of the vertical fixing seat, and first detection lug is located at two above and below described On the line of the detection mouth of a first photoelectric sensor.

Preferably, longitudinal groove milling driving mechanism includes longitudinally fixed seat, the longitudinal direction drive being arranged on longitudinally fixed seat Dynamic motor and the second lead screw transmission mechanism, wherein second lead screw transmission mechanism include the second screw rod and with second Second feed screw nut of bar cooperation, wherein second screw rod is connect with the main shaft of the vertical drive motor, and described second Stem nut is mounted in the vertical fixing seat；It is described longitudinal direction groove milling driving mechanism further include setting the vertical fixing seat with The second sliding equipment between the longitudinally fixed seat, second sliding equipment include second be arranged on longitudinally fixed seat Sliding rail and the second sliding block being arranged in vertical fixing seat, wherein the second sliding rail level is longitudinally disposed, and described second is sliding Block is mounted on second sliding rail.

Preferably, longitudinal groove milling driving mechanism further includes the second testing agency, and second testing agency includes setting The second photoelectric sensor setting the second detection lug in vertical fixing seat and being arranged on longitudinally fixed seat, wherein described Second photoelectric sensor is disposed longitudinally on the left and right ends of the longitudinally fixed seat, and second detection lug is located at the left and right two On the line of the detection mouth of a second photoelectric sensor.

Preferably, the lateral groove milling driving mechanism includes transverse holder, the transverse direction drive being arranged in transverse holder Dynamic motor and third lead screw transmission mechanism, wherein the third lead screw transmission mechanism include third screw rod and with third silk The third feed screw nut of bar cooperation, wherein the third screw rod is connect with the main shaft of the horizontal drive motor, the third silk Stem nut is mounted on the longitudinally fixed seat；It is described transverse direction groove milling driving mechanism further include setting the transverse holder with Third sliding equipment between the longitudinally fixed seat, the third sliding equipment include the third being arranged in transverse holder Sliding rail and the third sliding block being arranged on longitudinally fixed seat, wherein the third sliding rail is laterally arranged, the third sliding block peace On third sliding rail.

Preferably, the lateral groove milling driving mechanism further includes third testing agency, and the third testing agency includes setting The third photoelectric sensor setting the third detection lug on longitudinally fixed seat and being arranged in transverse holder, wherein described Third photoelectric sensor is arranged in the rear and front end of the transverse holder, the third detection lug be located at it is described former and later two the On the line of the detection mouth of three photoelectric sensors.

The working principle of the smart card slotting attachment of the utility model is:

When work, after smart card reaches groove milling station, lateral groove milling driving mechanism and longitudinal groove milling driving mechanism are driven Milling flutes mechanism moves to the surface of smart card, and then, vertical groove milling driving mechanism drives groove milling mounting base to move downward, so that Milling flutes mechanism is moved downward with groove milling mounting base.In the process, the dust excluding hood can take the lead under the action of hold-down mechanism Elastic compression continues to move downward, the milling cutter also can gradually be worn in the upper surface of the smart card with groove milling mounting base The escape port crossed on dust excluding hood enters the inner cavity of the dust excluding hood, and contacts with the upper surface of smart card, in rotary drive mechanism Drive under high speed rotation, thus start groove milling work.And it in lateral groove milling driving mechanism, longitudinal groove milling driving mechanism and erects To under the co-ordination of groove milling driving mechanism, satisfactory groove is washed out in the upper surface of smart card, such as can be in intelligence The surrounding of card mills out annular groove.During groove milling, extraneous feeder is passed through by air inlet to the inner cavity of dust excluding hood Pressure-air is sprayed from air inlet since the air inlet is arranged in the dust excluding hood at the position of milling cutter Pressure-air the clast milled out is blown into the side in the inner cavity of the dust excluding hood close to connecting tube, then by extraneous negative High pressure gas in dust excluding hood inner cavity is detached together with clast and does unified collection processing by pressure device.In this way it is prevented that The clast that groove milling generates drifts in air, to protect workshop condition and the health of operator.In addition, in groove milling During driving mechanism drives milling cutter mobile, since dust excluding hood and milling flutes mechanism are installed in groove milling mounting base, institute Stating dust excluding hood can also move, and ensure that the work of groove milling carries out in the inner cavity of dust excluding hood always in this way, therefore can It is drifted in air with being effectively prevented clast.

The utility model have compared with prior art it is below the utility model has the advantages that

1, the smart card slotting attachment of the utility model passes through dust excluding hood for the position in smart card to groove milling before groove milling It shrouds in the inner cavity of dust excluding hood, so that groove milling work is carried out in the inside of dust excluding hood, and passes through feeder to dust excluding hood Inner cavity is passed through pressure-air, to sending the clast that groove milling generates into dust excluding hood positioned at the side of the connecting tube, then leads to Negative pressure device is crossed to detach the high pressure gas in dust excluding hood inner cavity together with clast and do unified collection processing.It thus can be with The clast for preventing groove milling from generating drifts in air, to protect workshop condition and the health of operator.

2, the smart card slotting attachment of the utility model drives the movement of groove milling mounting base by groove milling driving mechanism, thus band Dynamic milling flutes mechanism movement, in the process, since dust excluding hood and milling flutes mechanism are installed in groove milling mounting base, it is described Dust excluding hood can also move, and ensure that the work of groove milling carries out in the inner cavity of dust excluding hood always in this way, therefore can be with Clast is more effectively prevented to drift in air.

Detailed description of the invention

Fig. 1-Fig. 3 is the structural schematic diagram of the specific embodiment of the smart card slotting attachment of the utility model, wherein figure 1 is schematic perspective view, and Fig. 2 is main view, and Fig. 3 is side view.

Fig. 4 is the explosive view of groove milling driving mechanism.

Fig. 5 and Fig. 6 is the explosive view of two different perspectivess of milling flutes mechanism and debris removal mechanism.

Fig. 7 is the schematic perspective view of debris removal mechanism.

Fig. 8 is the schematic perspective view of dust excluding hood.

Specific embodiment

The present invention will be further described in detail with reference to the embodiments and the accompanying drawings, but the implementation of the utility model Mode is without being limited thereto.

Referring to Fig. 1-Fig. 8, the smart card slotting attachment of the utility model includes groove milling mounting base 1, setting in groove milling installation Seat 1 on milling flutes mechanism, for driving milling flutes mechanism to move with complete groove milling movement groove milling driving mechanism.

Referring to Fig. 1-Fig. 8, the milling flutes mechanism includes 2 turns of milling cutter of the milling cutter 2 being arranged in groove milling mounting base 1 and drive Dynamic rotary drive mechanism 3.

Referring to Fig. 1-Fig. 8, the groove milling driving mechanism includes the lateral milling for driving groove milling mounting base 1 to do transverse movement Slot driving mechanism 7, for driving groove milling mounting base 1 to do longitudinal groove milling driving mechanism 5 of longitudinal movement and for driving groove milling Mounting base 1 does the vertical groove milling driving mechanism 4 of vertical motion.

Referring to Fig. 1-Fig. 8, the milling flutes mechanism further includes the debris removal mechanism 6 being arranged in groove milling mounting base 1, the debris removal Mechanism 6 includes the dust excluding hood 6-1 that is mounted in the groove milling mounting base 1 and for driving dust excluding hood 6-1 elastic compression in intelligence The hold-down mechanism on energy card surface, wherein the inner cavity 6-7 of the dust excluding hood 6-1 is connected by connecting tube 6-3 and extraneous negative pressure device It connects, dust excluding hood 6-1 is provided with escape port 6-4 in the corresponding position with the milling cutter 2, and the escape port 6-4 is removed with described The inner cavity 6-7 of dust hood 6-1 is connected to；Side in the dust excluding hood 6-1 close to the milling cutter 2 is provided with air inlet 6-8, it is described into The one end stomata 6-8 is connected to by gas nozzle 6-2 with extraneous feeder, and the other end extends into the inner cavity 6- of the dust excluding hood 6-1 7。

Referring to Fig. 1-Fig. 8, the debris removal mechanism 6 further include the connecting plate 6-11 being arranged on the dust excluding hood 6-1 and Guiding mechanism between the connecting plate 6-11 and the groove milling mounting base 1 is set, wherein the guiding mechanism includes setting In the guide pad 6-9 on the connecting plate 6-11 and guide rail 6-10 being arranged in the groove milling mounting base 1, wherein described Guide rail 6-10 is vertically arranged, and the guide pad 6-9 is mounted on the guide rail 6-10.In this way, when hold-down mechanism drives dust excluding hood When 6-1 is moved downward, the guiding mechanism can be oriented to dust excluding hood 6-1, can be pressed on smart card vertically Upper surface, and be bonded it is close, thus the clast removing for facilitating debris removal mechanism 6 to generate groove milling.

Referring to Fig. 1-Fig. 8, the hold-down mechanism includes the fixed block 6-12 being arranged in the groove milling mounting base 1, setting Slide bar 6-13 and spring 6-6 on the connecting plate 6-11, wherein the slide bar 6-13 is vertically arranged, slide bar 6-13 Lower end be fixed on the connecting plate 6-11, upper end vertically passes through the fixed block 6-12, the fixed block 6-12 with institute It states the corresponding position slide bar 6-13 and is provided with sliding slot；Position in the slide bar 6-13 positioned at the upper end the fixed block 6-12 is arranged There is the diameter for being greater than the sliding slot with the diameter of the stop collar 6-5, the stop collar 6-5 of slide bar 6-13 cooperation；The bullet Spring 6-6 is arranged on the slide bar 6-13, and the upper end of spring 6-6 acts on the lower surface of the fixed block 6-12, under End acts on the connecting plate 6-11.In this way, dust excluding hood 6-1 is promoted to move downward for the elastic force of spring 6-6 until slide bar 6-13 The stop collar 6-5 of upper end is contacted with fixed block 6-12, so that the height of dust excluding hood 6-1 is lower than the height of the milling cutter 2.This Sample, during vertical groove milling driving mechanism 4 drives groove milling mounting base 1 to move downward, the dust excluding hood 6-1 can take the lead in and intelligence The upper surface contact that can block, continues to move downward, the slide bar 6-13 is moved upwards, so that described with groove milling mounting base 1 Spring 6-6 is gradually in compressive state, so that dust excluding hood 6-1 is pressed on the upper surface of smart card always.Meanwhile milling cutter 2 Escape port 6-4 on dust excluding hood 6-1 enters the inner cavity 6-7 of dust excluding hood 6-1 and contacts with the upper surface of smart card, thus Start groove milling work.During milling cutter 2 moves horizontally, the dust excluding hood 6-1 as milling cutter 2 is synchronous, equidirectional movement, and The lower end of dust excluding hood 6-1 is fitted in the upper surface of smart card always.When milling cutter 2 moves upwards, the dust excluding hood 6-1 also can Move straight up, but at this time since spring 6-6 is gradually recovered original state, thus push dust excluding hood 6-1 and slide bar 6-13 to It is lower movement until dust excluding hood 6-1 lower surface be bonded with the upper surface of smart card or the limited block 8 of the upper end slide bar 6-13 with fixation Block 6-12 contact.This ensures that groove milling work carries out in the inner cavity 6-7 of dust excluding hood 6-1 always, thus well will milling The clast that slot generates concentrates on the inner cavity 6-7 of dust excluding hood 6-1 and by the co-ordination of feeder and negative pressure device by this portion It morcels bits and carries out unified collection, to protect workshop condition and the health of operator.

Referring to Fig. 1-Fig. 8, the lower end of the groove milling mounting base 1 is provided with limited block 8, and the limited block 8 is located at the company The lower section of fishplate bar 6-11 is provided with the horizontal extension 4-9 extended to right above the limited block 8 on the connecting plate 6-11, In this way, when the dust excluding hood 6-1 that the elastic force of spring 6-6 promotes connecting plate 6-11 and is mounted on connecting plate 6-11 is moved downward When, when the horizontal extension 4-9 on the connecting plate 6-11 is contacted with limited block 8, the connecting plate 6-11 stopping is moved downward. It is fallen so as to prevent the connecting plate 6-11 excess of stroke.

Referring to Fig. 1-Fig. 8, the vertical groove milling driving mechanism 4 includes vertical fixing seat 4-6, is arranged in vertical fixing seat 4- Vertical driving motor 4-1 and the first lead screw transmission mechanism on 6, wherein first lead screw transmission mechanism includes first Bar 4-2 and the first feed screw nut 4-3 cooperated with the first screw rod 4-2, wherein the first screw rod 4-2 and the vertical drive The main shaft connection of dynamic motor 4-1, the first feed screw nut 4-3 are mounted in groove milling mounting base 1；The vertical groove milling driving machine Structure 4 further includes the first sliding equipment being arranged between the groove milling mounting base 1 and the vertical fixing seat 4-6, and described first Sliding equipment includes the first sliding rail 4-4 being arranged on vertical fixing seat 4-6 and the first cunning being arranged in groove milling mounting base 1 Block 4-5, wherein the first sliding rail 4-4 is vertically arranged, and the first sliding block 4-5 is mounted on the first sliding rail 4-4.This Sample drives the first screw rod 4-2 rotation by vertical driving motor 4-1, to drive the first feed screw nut 4-3 and be mounted on the Groove milling mounting base 1 on one feed screw nut 4-3 does vertical motion, and then drives the milling flutes mechanism being mounted in groove milling mounting base 1 Vertical motion, so that milling cutter 2 and smart card contact to be processed in milling flutes mechanism, so that the surrounding in smart card mills out annular Slot.

Referring to Fig. 1-Fig. 8, first sliding equipment is two groups, is symmetrically arranged at the groove milling mounting base 1 and institute State the two sides of vertical fixing seat 4-6.

Referring to Fig. 1-Fig. 8, the vertical groove milling driving mechanism 4 further includes the first testing agency, first testing agency Including the first detection lug 4-8 being arranged in groove milling mounting base 1 and the first photoelectric sensing being arranged on vertical fixing seat 4-6 Device 4-7, wherein the first photoelectric sensor 4-7 is vertically arranged in the upper and lower ends of the vertical fixing seat 4-6, and described One detection lug 4-8 is located on the line of the detection mouth of two the first photoelectric sensor 4-7 up and down.In vertical groove milling driving machine During structure 4 drives groove milling mounting base 1 and the milling flutes mechanism that is arranged in groove milling mounting base 1 to do vertical motion, described the One detection lug 4-8 does vertical motion with groove milling mounting base 1, when the first photoelectric transfer for being located at vertical fixing seat 4-6 upper and lower ends After sensor 4-7 detects first detection lug 4-8, the vertical groove milling driving mechanism 4 stops working or drives groove milling to install 1 counter motion of seat.Therefore, the milling is limited jointly positioned at the first photoelectric sensor 4-7 of vertical fixing seat 4-6 upper and lower ends The vertical motion stroke of slot mounting base 1, i.e. the first photoelectric sensor 4-7 positioned at the upper end vertical fixing seat 4-6 are the groove milling Mounting base 1 does upper limit position when vertical motion, and the first photoelectric sensor 4-7 for being located at the lower end vertical fixing seat 4-6 is The groove milling mounting base 1 does lower limit position when vertical motion.It can thus milled to avoid groove milling mounting base 1 and setting When doing vertical motion the excess of stroke occurs for the milling flutes mechanism in slot mounting base 1.

Referring to Fig. 1-Fig. 8, the longitudinal direction groove milling driving mechanism 5 includes longitudinally fixed seat 5-6, is arranged in longitudinally fixed seat 5- Vertical drive motor 5-1 and the second lead screw transmission mechanism on 6, wherein second lead screw transmission mechanism includes second Bar 5-2 and the second feed screw nut 5-3 cooperated with the second screw rod 5-2, wherein the second screw rod 5-2 and longitudinal drive The main shaft connection of dynamic motor 5-1, the second feed screw nut 5-3 are mounted on the vertical fixing seat 4-6；The longitudinal direction groove milling Driving mechanism 5 further includes the second sliding equipment being arranged between the vertical fixing seat 4-6 and the longitudinally fixed seat 5-6, Second sliding equipment includes the second sliding rail 5-4 being arranged on longitudinally fixed seat 5-6 and is arranged in vertical fixing seat 4-6 On the second sliding block 5-5, wherein the second sliding rail 5-4 level is longitudinally disposed, and the second sliding block 5-5 is mounted on described On two sliding rail 5-4.In this way, the second screw rod 5-2 rotation is driven by vertical drive motor 5-1, to drive the second feed screw nut The 5-3 and vertical fixing seat 4-6 being mounted on the second feed screw nut 5-3 does longitudinal movement, and then drives and be mounted on vertically admittedly Groove milling mounting base 1 and milling flutes mechanism on reservation 4-6 do longitudinal movement.

Referring to Fig. 1-Fig. 8, second sliding equipment be two groups, be symmetrically arranged at the vertical fixing seat 4-6 and The two sides of the longitudinally fixed seat 5-6.

Referring to Fig. 1-Fig. 8, the longitudinal direction groove milling driving mechanism 5 further includes the second testing agency, second testing agency Including the second detection lug 5-8 being arranged on vertical fixing seat 4-6 and the second photoelectric transfer being arranged on longitudinally fixed seat 5-6 Sensor 5-7, wherein the second photoelectric sensor 5-7 is disposed longitudinally on the left and right ends of the longitudinally fixed seat 5-6, described Second detection lug 5-8 is located on the line of the detection mouth of two the second photoelectric sensor 5-7 in the left and right.It is driven in longitudinal groove milling The groove milling mounting base 1 and milling flutes mechanism that mechanism 5 drives vertical fixing seat 4-6 and is arranged on vertical fixing seat 4-6 do longitudinal direction During movement, the second detection lug 5-8 does longitudinal movement with vertical fixing seat 4-6, when positioned at longitudinally fixed seat 5-6 After second photoelectric sensor 5-7 of left and right ends detects second detection lug 5-8, the longitudinal direction groove milling driving mechanism 5 stops Work or drive vertical fixing seat 4-6 counter motion.Therefore, positioned at the second photoelectric transfer of the left and right ends longitudinally fixed seat 5-6 Sensor 5-7 limits the longitudinal movement stroke of the vertical fixing seat 4-6 jointly, thus can be to avoid vertical fixing seat 4-6 And the excess of stroke occurs when doing longitudinal movement for the groove milling mounting base 1 and milling flutes mechanism being arranged on vertical fixing seat 4-6.

Referring to Fig. 1-Fig. 8, the transverse direction groove milling driving mechanism 7 includes transverse holder 7-6, is arranged in transverse holder 7- Horizontal drive motor 7-1 and third lead screw transmission mechanism on 6, wherein the third lead screw transmission mechanism includes third silk The bar 7-2 and third feed screw nut 7-3 cooperated with third screw rod 7-2, wherein the third screw rod 7-2 and the laterally drive The main shaft connection of dynamic motor 7-1, the third feed screw nut 7-3 are mounted on the longitudinally fixed seat 5-6；The transverse direction groove milling Driving mechanism 7 further includes the third sliding equipment being arranged between the transverse holder 7-6 and the longitudinally fixed seat 5-6, The third sliding equipment includes the third sliding rail 7-4 being arranged on transverse holder 7-6 and is arranged in longitudinally fixed seat 5-6 On third sliding block 7-5, wherein the third sliding rail 7-4 is laterally arranged, and the third sliding block 7-5 is mounted on third sliding rail 7-4 On.In this way, third screw rod 7-2 rotation is driven by horizontal drive motor 7-1, to drive third feed screw nut 7-3 and peace Longitudinally fixed seat 5-6 on third feed screw nut 7-3 does transverse movement, and then drives and be mounted on longitudinally fixed seat 5-6 Vertical fixing seat 4-6, groove milling mounting base 1 and milling flutes mechanism do transverse movement.

Referring to Fig. 1-Fig. 8, the third sliding equipment be two groups, be symmetrically arranged at the transverse holder 7-6 and The two sides of the longitudinally fixed seat 5-6.

Referring to Fig. 1-Fig. 8, the transverse direction groove milling driving mechanism 7 further includes third testing agency, the third testing agency Including the third detection lug 7-8 being arranged on longitudinally fixed seat 5-6 and the third photoelectric transfer being arranged on transverse holder 7-6 Sensor 7-7, wherein the third photoelectric sensor 7-7 is vertically arranged in the rear and front end of the transverse holder 7-6, described Third detection lug 7-8 is located on the line of the detection mouth of former and later two third photoelectric sensors 7-7.It is driven in lateral groove milling Vertical fixing seat 4-6,1 and of groove milling mounting base that mechanism 7 drives longitudinally fixed seat 5-6 and is arranged on longitudinally fixed seat 5-6 During milling flutes mechanism does transverse movement, the third detection lug 7-8 does transverse movement with longitudinally fixed seat 5-6, works as position After the third photoelectric sensor 7-7 of the rear and front end transverse holder 7-6 detects third detection lug 7-8, the laterally milling Slot driving mechanism 7 stops working or drives longitudinally fixed seat 5-6 counter motion.Therefore, it is located at transverse holder 7-6 or so two The third photoelectric sensor 7-7 at end limits the transverse movement stroke of the longitudinally fixed seat 5-6 jointly, thus can be to avoid Longitudinally fixed seat 5-6 and vertical groove milling driving mechanism 4, groove milling mounting base 1 and the slotter being arranged on longitudinally fixed seat 5-6 When doing transverse movement the excess of stroke occurs for structure.

Referring to Fig. 1-Fig. 8, the vertical fixing seat 4-6 includes horizontal supporting plate and is arranged in perpendicular on horizontal supporting plate Allotment fagging, the first inclined plate and the second inclined plate, wherein first inclined plate and the second inclined plate are right angled triangle, described first Inclined plate and the second inclined plate are symmetricly set on the two sides of the horizontal supporting plate, and two right angles of first inclined plate and the second inclined plate Side is connect with the vertical gripper shoe and horizontal supporting plate respectively.By using above structure, the stability of structure can be increased.

Referring to Fig. 1-Fig. 8, the working principle of the smart card slotting attachment of the utility model is:

When work, after smart card reaches groove milling station, lateral groove milling driving mechanism 7 and longitudinal 5 band of groove milling driving mechanism Dynamic milling flutes mechanism moves to the surface of smart card, and then, vertical groove milling driving mechanism 4 drives groove milling mounting base 1 to move downward, So that milling flutes mechanism is moved downward with groove milling mounting base 1.In the process, the dust excluding hood 6-1 can be in the work of hold-down mechanism Elastic compression is taken the lead under in the upper surface of the smart card, continues to move downward with groove milling mounting base 1, the milling cutter 2 Also the inner cavity 6-7 that the escape port 6-4 on dust excluding hood 6-1 enters dust excluding hood 6-1, and the upper table with smart card can be gradually passed through Face contact, and high speed rotation under the drive for passing through rotary drive mechanism 3, to start groove milling work.And it is driven in lateral groove milling Under the co-ordination of mechanism 7, longitudinal groove milling driving mechanism 5 and vertical groove milling driving mechanism 4, washed out in the upper surface of smart card Satisfactory groove, such as annular groove can be milled out in the surrounding of smart card.During groove milling, extraneous feeder It is passed through pressure-air to the inner cavity 6-7 of dust excluding hood 6-1 by air inlet 6-8, since the air inlet 6-8 is arranged in the dedusting Cover in 6-1 at the position of milling cutter 2, thus the pressure-air sprayed from air inlet 6-8 the clast milled out is blown to it is described Close to the side of connecting tube 6-3 in the inner cavity 6-7 of dust excluding hood 6-1, then pass through extraneous negative pressure device for the inner cavity dust excluding hood 6-1 High pressure gas in 6-7 is detached and is uniformly processed together with clast.In this way it is prevented that the clast that groove milling generates drifts In air, to protect workshop condition and the health of operator.In addition, driving milling cutter 2 in groove milling driving mechanism In mobile process, since dust excluding hood 6-1 and milling flutes mechanism are installed in groove milling mounting base 1, the dust excluding hood 6-1 Also it can move, ensure that the work of groove milling carries out in the inner cavity 6-7 of dust excluding hood 6-1 always in this way, therefore can be with Clast is effectively prevented to drift in air.

Above-mentioned is the preferable embodiment of the utility model, but the embodiments of the present invention is not by above content It limits, it is made under other any spiritual essence and principles without departing from the utility model to change, modification, substitution, combine, letter Change, should be equivalent substitute mode, be included within the protection scope of the utility model.

Claims (10)

1. a kind of smart card slotting attachment, including groove milling mounting base, the milling flutes mechanism being arranged in groove milling mounting base, for driving Milling flutes mechanism movement is to complete the groove milling driving mechanism that groove milling acts, wherein

The milling flutes mechanism includes the milling cutter being arranged in groove milling mounting base and the rotary drive mechanism for driving milling cutter rotation；Institute Stating groove milling driving mechanism includes for driving groove milling mounting base to do the lateral groove milling driving mechanism of transverse movement, for driving groove milling Mounting base does longitudinal groove milling driving mechanism of longitudinal movement and the vertical groove milling for driving groove milling mounting base to do vertical motion Driving mechanism；

It is characterized in that, the milling flutes mechanism further includes the debris removal mechanism being arranged in groove milling mounting base, debris removal mechanism packet Include the dust excluding hood being mounted in the groove milling mounting base and for driving dust excluding hood elastic compression in the compression on smart card surface Mechanism, wherein the inner cavity of the dust excluding hood by connecting tube with the external world negative pressure device connect, the dust excluding hood with the milling cutter Corresponding position be provided with escape port, the escape port is connected to the inner cavity of the dust excluding hood；Close to institute in the dust excluding hood The side for stating milling cutter is provided with air inlet, and described air inlet one end is connected to by gas nozzle with extraneous feeder, and the other end prolongs Put in the inner cavity of the dust excluding hood.

2. smart card slotting attachment according to claim 1, which is characterized in that the debris removal mechanism further includes being arranged in institute The guiding mechanism stating the connecting plate on dust excluding hood and being arranged between the connecting plate and the groove milling mounting base, wherein institute The guide rail that guiding mechanism includes the guide pad being arranged on the connecting plate and is arranged in the groove milling mounting base is stated, In, the guide rail is vertically arranged, and the guide pad is mounted on the guide rail.

3. smart card slotting attachment according to claim 2, which is characterized in that the hold-down mechanism includes being arranged described Fixed block in groove milling mounting base, the slide bar and spring being arranged on the connecting plate, wherein the slide bar is vertically arranged, The lower end of the slide bar is fixed on the connecting plate, and upper end vertically passes through the fixed block, the fixed block with the slide bar Corresponding position is provided with sliding slot；Position in the slide bar positioned at the upper end of fixing block is provided with the limit with slide bar cooperation Position ring, the diameter of the stop collar are greater than the diameter of the sliding slot；The spring pocket is on the slide bar, and upper end acts on institute It states on the lower surface of fixed block, lower end acts on the connecting plate.

4. smart card slotting attachment according to claim 2, which is characterized in that the lower end of the groove milling mounting base is provided with Limited block, the limited block are located at the lower section of the connecting plate, be provided on the connecting plate extend to the limited block just on The horizontal extension of side.

5. smart card slotting attachment according to claim 1, which is characterized in that the vertical groove milling driving mechanism includes perpendicular To fixing seat, the vertical driving motor being arranged in vertical fixing seat and the first lead screw transmission mechanism, wherein described first Bar transmission mechanism includes the first screw rod and the first feed screw nut with the cooperation of the first screw rod, wherein first screw rod and institute The main shaft connection of vertical driving motor is stated, first feed screw nut is mounted in groove milling mounting base；The vertical groove milling driving Mechanism further includes the first sliding equipment being arranged between the groove milling mounting base and the vertical fixing seat, first sliding Mechanism includes the first sliding rail being arranged in vertical fixing seat and the first sliding block being arranged in groove milling mounting base, wherein institute It states the first sliding rail to be vertically arranged, first sliding block is mounted on first sliding rail.

6. smart card slotting attachment according to claim 5, which is characterized in that the vertical groove milling driving mechanism further includes First testing agency, first testing agency include the first detection lug being arranged in groove milling mounting base and are arranged vertical The first photoelectric sensor in fixing seat, wherein first photoelectric sensor is vertically arranged in the upper of the vertical fixing seat Lower both ends, first detection lug are located on the line of the detection mouth of two the first photoelectric sensors up and down.

7. smart card slotting attachment according to claim 5, which is characterized in that the longitudinal direction groove milling driving mechanism includes vertical To fixing seat, the vertical drive motor being arranged on longitudinally fixed seat and the second lead screw transmission mechanism, wherein described second Bar transmission mechanism includes the second screw rod and the second feed screw nut with the cooperation of the second screw rod, wherein second screw rod and institute The main shaft connection of vertical drive motor is stated, second feed screw nut is mounted in the vertical fixing seat；The longitudinal direction groove milling Driving mechanism further includes the second sliding equipment being arranged between the vertical fixing seat and the longitudinally fixed seat, and described second Sliding equipment includes the second sliding rail being arranged on longitudinally fixed seat and the second sliding block being arranged in vertical fixing seat, In, the second sliding rail level is longitudinally disposed, and second sliding block is mounted on second sliding rail.

8. smart card slotting attachment according to claim 7, which is characterized in that it is described longitudinal direction groove milling driving mechanism further include Second testing agency, second testing agency include the second detection lug being arranged in vertical fixing seat and are arranged in longitudinal direction The second photoelectric sensor in fixing seat, wherein second photoelectric sensor is disposed longitudinally on a left side for the longitudinally fixed seat Right both ends, second detection lug are located on the line of the detection mouth of two second photoelectric sensors in left and right.

9. smart card slotting attachment according to claim 7, which is characterized in that the transverse direction groove milling driving mechanism includes cross To fixing seat, the horizontal drive motor being arranged in transverse holder and third lead screw transmission mechanism, wherein the third silk Bar transmission mechanism includes third screw rod and the third feed screw nut with the cooperation of third screw rod, wherein the third screw rod and institute The main shaft connection of horizontal drive motor is stated, the third feed screw nut is mounted on the longitudinally fixed seat；The transverse direction groove milling Driving mechanism further includes the third sliding equipment being arranged between the transverse holder and the longitudinally fixed seat, the third Sliding equipment includes the third sliding rail being arranged in transverse holder and the third sliding block being arranged on longitudinally fixed seat, In, the third sliding rail is laterally arranged, and the third sliding block is mounted on third sliding rail.

10. smart card slotting attachment according to claim 9, which is characterized in that the transverse direction groove milling driving mechanism is also wrapped Third testing agency is included, the third testing agency includes the third detection lug being arranged on longitudinally fixed seat and is arranged in cross Third photoelectric sensor in fixing seat, wherein the third photoelectric sensor is two, and is separately positioned on the transverse direction The rear and front end of fixing seat, on the line for the detection mouth that the third detection lug is located at former and later two third photoelectric sensors.