CN113125939A

CN113125939A - A prevent folding card check out test set for smart card

Info

Publication number: CN113125939A
Application number: CN202110358627.4A
Authority: CN
Inventors: 陈兰; 李梦达; 杨寿胜; 宋敬争; 莫弟
Original assignee: Shenzhen Xulanka Technology Co ltd
Current assignee: Shenzhen Xulanka Technology Co ltd
Priority date: 2021-04-02
Filing date: 2021-04-02
Publication date: 2021-07-16
Anticipated expiration: 2041-04-02
Also published as: CN113125939B

Abstract

The application relates to the field of smart card production equipment, in particular to anti-overlapping card detection equipment for a smart card, which comprises a frame, wherein a card feeding device is arranged on the frame, the card feeding device comprises a horizontal guide rail, a horizontal conveying belt arranged on the horizontal guide rail, a servo motor driving the horizontal conveying belt, a vertical card sending structure and a vertical card receiving structure which are arranged at two ends of the horizontal conveying belt, and a detection structure, the machine frame is also provided with a waterwheel type stacked block removing device which comprises a supporting rod arranged on the machine frame, the supporting rod is provided with a rotary disc in a rotating way, the rotary disc is driven by a driving structure, a plurality of connecting structures for connecting redundant smart cards are uniformly arranged on the rotary disc at intervals in the circumferential direction, and the other side of the horizontal conveyor belt is also provided with a discharging structure for collecting the smart cards on the connecting structure. The card overlapping detection device has the advantages that the phenomenon of card overlapping detection is avoided, and the detection quality is improved.

Description

A prevent folding card check out test set for smart card

Technical Field

The application relates to the field of smart card production equipment, in particular to anti-overlapping card detection equipment for smart cards.

Background

A smart card is a generic term for a plastic card (usually the size of a credit card) with a microchip embedded therein. Some smart cards contain a microelectronic chip and require data interaction via a reader/writer. With the application development of the information management technology, more and more industries use smart cards to manage the identity of a user, and the application of the smart cards is more and more extensive.

In order to ensure the quality of the existing smart card, after the smart card is produced, a series of function detection needs to be performed on the smart card, such as low-frequency detection, high-frequency detection, ultrahigh-frequency detection and the like. When the function detection of each item of the card passes, the card can be put into use formally. At present, two types of intelligent card detection modes in batch are mainly adopted, firstly, the intelligent cards are detected one by one in a manual mode, and the detection efficiency is low; and secondly, automatic detection equipment is adopted for detection.

For example, chinese patent No. CN207571270U discloses a smart card detection device, which includes a rack, a card feeding device, a detection device, and an electronic box. The card feeding device is arranged on the frame and comprises a horizontal transmission device and a driving device. The horizontal transmission device comprises a horizontal guide rail and a horizontal conveyor belt. The card sending device also comprises a vertical card sending device and a vertical card receiving device which are arranged at two ends of the horizontal transmission device. A card sucking module is arranged right below the vertical card sending device and comprises a suction cylinder and a sucker connected with the suction cylinder. A card pushing cylinder and a card pushing plate connected with a piston rod of the card pushing cylinder are arranged right below the vertical card collecting device. The detection device is installed on the horizontal transmission device. The detection device comprises a high-frequency detection module, a low-frequency detection module and an ultrahigh-frequency detection module. The electronic box is arranged on the frame and is electrically connected with the driving device, the air suction cylinder and the card pushing cylinder.

In view of the above-mentioned related art, the inventor believes that there is a phenomenon that the horizontal conveyor belt is overlapped during the conveying process, resulting in a defect that the detection device has a poor detection effect.

Disclosure of Invention

In order to reduce the phenomenon that fold the card and detect and take place, improve detection effect, this application provides an anti-folding card check out test set for smart card.

The application provides a prevent folding card check out test set for smart card adopts following technical scheme:

the utility model provides an anti-overlapping card check out test set for smart card, includes the frame, be provided with the card feeding device in the frame, the card feeding device include horizontal guide rail, set up in horizontal conveyor belt, the drive on the horizontal guide rail horizontal conveyor belt's servo motor, setting are in the perpendicular hairpin structure and the perpendicular structure and the detection structure of receiving at horizontal conveyor belt both ends, still be provided with waterwheel formula in the frame and fold card remove device, waterwheel formula fold card remove device including set up in branch in the frame, branch rotates and is provided with the carousel, the carousel passes through the drive structure drive, the even interval of circumference is provided with a plurality of and is used for connecting the connection structure of unnecessary smart card on the carousel, horizontal conveyor belt's opposite side still is provided with and is used for collecting the unloading structure of smart card on the connection structure.

Through adopting above-mentioned technical scheme, during the use, along with the drive of servo motor and drive structure, thereby drive horizontal conveyor and carousel and rotate, through control servo motor and drive structure, make a connection structure on the carousel and a smart card station on the horizontal conveyor align in step in the motion, in the counterpoint process, if the condition of unnecessary smart card appears on this smart card station, then this connection structure is close to gradually and is connected with this unnecessary smart card, then connection structure continues to move along with the carousel, thereby take away this unnecessary smart card, until this connection structure removes this unnecessary smart card to being close to the structure of unloading, this unnecessary smart card is lifted off can, so, can avoid the phenomenon that the card folding detected to take place, improve detection quality.

Preferably, the connection structure includes a fixing rod arranged on the turntable, the central axis of the fixing rod is parallel to the rotation axis of the turntable, a connecting block is arranged on the fixing rod, one end of the connecting block is rotatably connected with the fixing rod, in a natural state, the free end of the connecting block always faces the horizontal conveyor belt, the end face of the connecting block facing the horizontal conveyor belt is provided with a nano double-sided adhesive tape block, and when the connecting block falls to the lowest point along with the operation of the turntable, the distance between the nano double-sided adhesive tape block on the connecting block and the smart card on the horizontal conveyor belt is smaller than the thickness of the smart card.

Through adopting above-mentioned technical scheme, when connecting unnecessary smart card, through the nanometer double-sided tape piece bonding on the connection structure can, easy operation is convenient so, and the nanometer double-sided tape piece is tailor by nanometer double-sided tape and obtains after, and nanometer double-sided tape has that the adhesion is firm, can repeatedly paste, can wash and recycle and advantage such as with low costs.

Preferably, the number of the nanometer double-sided tape blocks is four, the four nanometer double-sided tape blocks are distributed on the end face of the connecting block in an array mode, and the length and the width of the end face of the connecting block are smaller than those of the smart card.

Through adopting above-mentioned technical scheme, the quantity of rice double-sided tape piece is the setting of four and ensures joint strength on the one hand, and on the other hand avoids the condition emergence of later stage of unloading of not being convenient for when too big nanometer double-sided tape piece bonds with the smart card.

Preferably, each nano double-sided tape block is fixedly connected to the connecting block through a screw, and the screw countersunk head and the nano double-sided tape block are close to the side face of the horizontal conveying belt.

Through adopting above-mentioned technical scheme, nanometer double-sided tape piece all improves the nanometer double-sided tape piece of fritter and the joint strength of connecting block through screw fixed connection in setting up of connecting block, avoids tearing nanometer double-sided tape piece and influences work next time when unloading.

Preferably, a movable plate is further arranged between the connecting block and the nano double-sided tape block, and a plurality of pressure springs are arranged between the movable plate and the connecting block.

Through adopting above-mentioned technical scheme, when bonding unnecessary smart card, the fly leaf receives the extrusion and is close to the connecting block to make pressure spring compression, pressure spring provides thrust in turn, thereby makes the comparatively firm that nanometer double-sided tape piece and this unnecessary smart card bonded.

Preferably, the side face of the movable plate close to the connecting block is further provided with a guide rod, and the connecting block is provided with a guide hole matched with the guide rod in a sliding mode.

Through adopting above-mentioned technical scheme, the setting up of guide bar has improved the stability of being connected between fly leaf and the connecting block.

Preferably, a side of fly leaf is provided with the inserting groove, just the inserting groove intercommunication the fly leaf is kept away from the side of connecting block, the cooperation of pegging graft has the picture peg in the inserting groove, the nanometer double-sided tape piece set up in the picture peg is kept away from the side of connecting block.

By adopting the technical scheme, the matched plugboard can quickly replace a new nanometer double-sided tape block after being used for many times, so that the working efficiency is improved.

Preferably, the rotating direction of the rotating disc is opposite to the transmission direction of the horizontal conveyor belt.

Through adopting above-mentioned technical scheme, the rotation direction of carousel and the opposite setting of horizontal conveyor's transmission direction for the connection structure on the smart card on the horizontal conveyor and the carousel is equivalent to the syntropy and removes when the arc is close to, so be convenient for connection structure to unnecessary smart card's connection.

Preferably, the unloading structure comprises a vertical rod, a receiving channel is arranged on the vertical rod, one end of the receiving channel is close to the rotary table, the connecting structure moves along with the rotary table and rises to the highest point, the receiving channel is located below the connecting structure, a material shifting block used for shifting the smart card from the nanometer double-sided tape block is arranged on the receiving channel, the receiving channel is used for receiving the shifted smart card, and the material shifting block is located between two adjacent moving paths of the nanometer double-sided tape block in the rotating direction of the rotary table.

By adopting the technical scheme, when the connecting structure moves the redundant smart card to the material shifting block close to the discharging structure, one side of the redundant smart card is abutted against the end face of the material shifting block and rotates along with the rotary disc, so that the redundant smart card is stripped from the connecting structure by the material shifting block and falls into the receiving channel to be collected.

Preferably, a guide arc surface is arranged on one side surface of the material shifting block facing to the rotating direction of the rotating disc.

Through adopting above-mentioned technical scheme, the setting of direction cambered surface plays the guide effect to the direction of unloading of the smart card on the connection structure to be convenient for unload going on of work.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the intelligent card discharging device is used, the horizontal conveyor belt and the rotary table are driven to rotate along with the driving of the servo motor and the driving structure, the servo motor and the driving structure are controlled, so that a connecting structure on the rotary table and an intelligent card station on the horizontal conveyor belt are synchronously aligned in motion, in the alignment process, if the situation of redundant intelligent cards occurs on the intelligent card station, the connecting structure gradually approaches and is connected with the redundant intelligent cards, then the connecting structure continuously moves along with the rotary table, so that the redundant intelligent cards are separated until the redundant intelligent cards are moved to approach the discharging structure by the connecting structure, and the redundant intelligent cards are discharged, so that the phenomenon of card overlapping detection can be avoided, and the detection quality is improved;

2. when redundant smart cards are connected, the nano double-sided adhesive tape blocks on the connecting structure are bonded, so that the operation is simple and convenient, and the nano double-sided adhesive tape blocks are obtained by cutting the nano double-sided adhesive tape, so that the nano double-sided adhesive tape has the advantages of firm adhesion, repeated adhesion, water washing and reutilization, low cost and the like;

3. when bonding unnecessary smart card, the fly leaf receives the extrusion and is close to the connecting block to make pressure spring compression, pressure spring provides thrust in turn, thereby makes the nanometer double-sided tape piece comparatively firm with this unnecessary smart card bonding.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of an anti-aliasing card detection device for a smart card according to the application.

Fig. 2 is another perspective view of the overall structure of an embodiment of an anti-aliasing card detection apparatus for smart cards according to the present application.

Fig. 3 is a schematic structural diagram of a waterwheel-type stacked card removing device in an embodiment of an anti-stacked card detecting apparatus for a smart card according to the present application.

Fig. 4 is an exploded schematic view of a connection structure in an embodiment of an anti-aliasing card detection device for a smart card according to the application.

Fig. 5 is a schematic structural diagram of a discharging structure in an embodiment of the anti-overlapping card detecting device for a smart card according to the present application.

Description of reference numerals: 1. a frame; 2. a horizontal guide rail; 3. a horizontal conveyor belt; 31. detecting the structure; 4. a servo motor; 5. a vertical hairpin structure; 6. a vertical card receiving structure; 7. a waterwheel type stacked card removing device; 71. a strut; 72. a turntable; 73. fixing the rod; 74. connecting blocks; 741. a guide hole; 75. a movable plate; 751. a guide bar; 752. inserting grooves; 753. inserting plates; 76. a pressure spring; 77. a nano double-sided tape block; 78. a screw; 8. a drive structure; 81. a rotating shaft; 82. a gearbox; 9. a discharging structure; 91. erecting a rod; 911. a diagonal bracing plate; 92. a receiving channel; 93. a material stirring block; 931. a circular arc surface; 932. a guiding cambered surface; 94. a vertical rod; 95. and a collection box.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses anti-overlapping card detection equipment for a smart card. Referring to fig. 1 and 2, the anti-overlapping card detection device for the smart card comprises a frame 1, wherein a card feeding device is arranged on the frame 1, the card feeding device comprises a horizontal guide rail 2, a horizontal conveying belt 3 arranged on the horizontal guide rail 2, a servo motor 4 driving the horizontal conveying belt 3, vertical card sending structures 5 and vertical card receiving structures 6 arranged at two ends of the horizontal conveying belt 3, and a detection structure 31 arranged above the horizontal conveying belt 3, and the detection structure 31 is arranged on the frame 1 at one side of the horizontal conveying belt 3.

Referring to fig. 1 and 2, a waterwheel type card stacking and removing device 7 which is located on one side of the horizontal conveyor belt 3 and is close to the vertical card sending structure 5 is further arranged on the rack 1, the waterwheel type card stacking and removing device 7 comprises a supporting rod 71 which is vertically arranged on the rack 1, a rotating disc 72 is rotatably arranged on one side of the supporting rod 71 which is close to the horizontal conveyor belt 3, and the rotating disc 72 is driven by the driving structure 8. Specifically, the driving structure 8 includes a rotating shaft 81 rotatably connected to the supporting rod 71, a central axis of the rotating shaft 81 is perpendicular to a length direction of the horizontal guide rail 2, the rotating shaft 81 is fixedly connected to the rotating disc 72, and one end of the rotating shaft 81, which is far away from the rotating disc 72, penetrates through the supporting rod 71.

Referring to fig. 2, meanwhile, a gearbox 82 is arranged on the machine frame 1, an input shaft penetrating through a housing of the gearbox 82 is arranged on the gearbox 82, an output shaft of the servo motor 4 is coaxially connected with one end of the input shaft of the gearbox 82, the other end of the output shaft of the gearbox 82 is connected with the horizontal conveyor belt 3 and drives the horizontal conveyor belt 3 to transmit, the output shaft of the gearbox 82 is connected with the rotating shaft 81 to transmit through a belt transmission mode, in the embodiment, the rotation direction of the output shaft of the servo motor 4 is opposite to the rotation direction of the output shaft of the gearbox 82, and thus, the rotation direction of the rotary disc 72 is opposite to the transmission direction of the horizontal conveyor belt 3.

Referring to fig. 2 and 3, a plurality of connection structures for connecting redundant smart cards are uniformly arranged on the turntable 72 at intervals in the circumferential direction, and in this embodiment, the number of the connection structures may be six, and the six connection structures are all close to the edge of the turntable 72. Specifically, the connecting structure includes a fixing rod 73 disposed on a side of the turntable 72 away from the supporting rod 71, the fixing rod 73 is fixedly connected to the turntable 72, and a central axis of the fixing rod 73 is parallel to an axis of rotation of the turntable 72.

Referring to fig. 3 and 4, the fixing rod 73 is provided with a connecting block 74, one end of the connecting block 74 is rotatably connected with the fixing rod 73, the length direction of the connecting block 74 is perpendicular to the length direction of the fixing rod 73, the free end of the connecting block 74 always faces the horizontal conveyor belt 3 in a natural state, the length and the width of the end face of the connecting block 74 are smaller than those of the smart card, and a working interval exists between the connecting block 74 and the rotating disc 72.

Referring to fig. 3 and 4, a movable plate 75 is further disposed on an end surface of the connecting block 74 close to the horizontal conveyor belt 3, the movable plate 75 is disposed horizontally, a plurality of pressure springs 76 are disposed between the movable plate 75 and the connecting block 74, the pressure springs 76 are disposed vertically, lower ends of the pressure springs 76 are fixedly connected with an upper surface of the movable plate 75, and upper ends of the pressure springs 76 are fixedly connected with a lower end surface of the connecting block 74. In this embodiment, the number of the pressure springs 76 may be two, and the two pressure springs 76 are spaced apart from each other at a middle position of the upper surface of the connecting block 74.

Referring to fig. 4, meanwhile, a guide bar 751 is further disposed on a side surface of the movable plate 75 close to the connection block 74, a guide hole 741 slidably engaged with the guide bar 751 is disposed on the connection block 74, the pressure springs 76 are sleeved on the guide bar 751, two guide bars 751 are correspondingly disposed, and two guide bars 751 are in one-to-one correspondence with two pressure springs 76.

Referring to fig. 4, in addition, an insertion groove 752 is disposed on a side surface of the movable plate 75 away from the rotation direction of the rotary plate 72, the insertion groove 752 is T-shaped, the insertion groove 752 communicates with a side surface of the movable plate 75 away from the connection block 74, an insertion plate 753 is inserted and matched in the insertion groove 752, a fastening groove (not shown in the figure) for pulling the insertion plate 753 out of the insertion groove 752 is further disposed on a side surface of the insertion plate 753 away from the connection block 74, and the fastening groove is located at a middle position of the side wall.

Referring to fig. 3 and 4, the end face of the inserting plate 753 facing the horizontal conveyor belt 3 is provided with a nano double-sided tape block 77, and when the connecting block 74 descends to the lowest point along with the operation of the turntable 72, the distance between the nano double-sided tape block 77 on the connecting block 74 and the smart card on the horizontal conveyor belt 3 is smaller than the thickness of the smart card. The nano double-sided tape block 77 is obtained by cutting a nano double-sided tape, and the nano double-sided tape has the advantages of firm adhesion, repeated sticking, water washing recycling, low cost and the like. Meanwhile, the matched inserting plate 753 can quickly replace the new nano double-sided tape block 77 after being used for multiple times.

Referring to fig. 3 and 4, in the present embodiment, the number of the nano double-sided tape blocks 77 is four, four nano double-sided tape blocks 77 are distributed in an array on the end surface of the connection block 74, two of the nano double-sided tape blocks 77 are clamped to the turntable 72, and the other two nano double-sided tape blocks 77 are far from the turntable 72. And each nano double-sided tape block 77 is fixedly connected to the connecting block 74 through a screw 78, and the screw 78 is countersunk on the side surface of the nano double-sided tape block 77 close to the horizontal conveyor belt 3.

Referring to fig. 1 and 5, the other side of the horizontal conveyor 3 is also provided with a discharge structure 9 for collecting the smart cards on the connecting structure. The discharging structure 9 comprises an upright 91, a receiving channel 92 is arranged on the upright 91, the receiving channel 92 is obliquely arranged, and an inclined supporting plate 911 is arranged between the side surface of the upright 91 close to the turntable 72 and the receiving channel 92. The higher end of the receiving channel 92 is close to the turntable 72, and when the connecting structure rises to the highest point along with the operation of the turntable 72, the receiving channel 92 is located below the connecting structure, a material-pulling block 93 for pulling the smart card from the nano double-sided tape block 77 is arranged on the receiving channel 92, the receiving channel 92 receives the pulled smart card, and the material-pulling block 93 is located between the moving paths of two adjacent nano double-sided tape blocks 77 along the rotation direction of the turntable 72.

Referring to fig. 1 and 5, specifically, a vertical rod 94 is arranged on the receiving channel 92, the material shifting block 93 is fixedly connected to the upper end of the vertical rod 94, one side of the material shifting block 93, which is close to the outer side surface of the turntable 72, is an arc surface 931, the width of the material shifting block 93 is smaller than that of the movable plate 75, a guide arc surface 932 is arranged on one side of the material shifting block 93, which faces the rotation direction of the turntable 72, and the guide arc surface 932 is recessed, one end of the material shifting block 93, which is provided with the guide arc surface 932, is located above the inner portion of the receiving channel 92, when one side of an unnecessary smart card is in contact with the guide arc surface 932, along with the rotation of the turntable 72, one side of the smart card slides on the guide arc surface 932 and is separated from the nano double-sided tape.

Referring to fig. 1, a collecting box 95 is further provided on the rack 1, the collecting box 95 is located below the lower end of the receiving channel 92, and when the smart card falls from the connecting structure, the smart card slides into the collecting box 95 along the receiving channel 92, thereby facilitating uniform collection.

The implementation principle of the anti-overlapping card detection equipment for the smart card in the embodiment of the application is as follows: when in use, the rotating shaft 81 is driven to rotate along with the rotation of the servo motor 4, so as to drive the rotating disc 72 to rotate and is adjusted through the gearbox 82, so that a connecting structure on the rotating disc 72 and a smart card station on the horizontal conveyor belt 3 are aligned synchronously in motion, in the alignment process, if a redundant smart card occurs on the smart card station, the nano double-sided adhesive tape block 77 on the connecting structure gradually approaches and is bonded with the redundant smart card, meanwhile, during bonding, the movable plate 75 is extruded to approach the connecting block 74, so that the pressure spring 76 is compressed, the pressure spring 76 in turn provides thrust, so that the nano double-sided adhesive tape block 77 is bonded with the redundant smart card more firmly, then the connecting structure continues to move along with the rotating disc 72, so as to take away the redundant smart card, until the connecting structure moves the redundant smart card to the material shifting block 93 close to the discharging structure 9, one side of the redundant smart card is abutted against the guiding cambered surface 932 and rotates along with the rotating disc 72, so that the redundant smart card is stripped from the connecting structure by the material stirring block 93 and falls into the bearing channel 92 until the redundant smart card slides into the collecting box 95 along the bearing channel 92.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an anti-folding card check out test set for smart card, includes frame (1), be provided with the card feeding device in frame (1), the card feeding device includes horizontal guide (2), set up in horizontal transfer belt (3), drive on horizontal guide (2) servo motor (4), the setting of horizontal transfer belt (3) are in vertical hairpin structure (5) and the perpendicular structure (6) and the detection structure (31) of receiving card of horizontal transfer belt (3) both ends, its characterized in that: still be provided with waterwheel formula and fold card remove device (7) on frame (1), waterwheel formula is folded card remove device (7) including set up in branch (71) are gone up in frame (1), branch (71) rotate and are provided with carousel (72), carousel (72) are driven through drive structure (8), the even interval of circumference is provided with a plurality of connection structure that is used for connecting unnecessary smart card on carousel (72), the opposite side of horizontal conveyor (3) still is provided with and is used for collecting unloading structure (9) of the smart card on the connection structure.

2. An anti-aliasing card detection apparatus for smart cards according to claim 1, characterized in that: the connecting structure comprises a fixing rod (73) arranged on the rotary table (72), the central axis of the fixing rod (73) is parallel to the rotating axis of the rotary table (72), a connecting block (74) is arranged on the fixing rod (73), one end of the connecting block (74) is rotatably connected with the fixing rod (73), the free end of the connecting block (74) always faces the horizontal conveyor belt (3) in a natural state, a nanometer double-sided tape block (77) is arranged on the end face of the connecting block (74) facing the horizontal conveyor belt (3), and when the connecting block (74) descends to the lowest point along with the operation of the rotary table (72), the distance between the nanometer double-sided tape block (77) on the connecting block (74) and the intelligent card on the horizontal conveyor belt (3) is smaller than the thickness of the intelligent card.

3. An anti-aliasing card detection apparatus for smart cards according to claim 2, characterized in that: the number of the nanometer double-sided tape blocks (77) is four, the four nanometer double-sided tape blocks (77) are distributed on the end face of the connecting block (74) in an array mode, and the length and the width of the end face of the connecting block (74) are smaller than those of the smart card.

4. An anti-aliasing card detection apparatus for smart cards according to claim 3, characterized in that: each nanometer double-sided tape block (77) is fixedly connected to the connecting block (74) through a screw (78), and the screw (78) is countersunk to the side face of the nanometer double-sided tape block (77) close to the horizontal conveying belt (3).

5. An anti-aliasing card detection apparatus for smart cards according to claim 2, characterized in that: the connecting structure further comprises a movable plate (75) arranged between the connecting block (74) and the nano double-sided tape block (77), and a plurality of pressure springs (76) are arranged between the movable plate (75) and the connecting block (74).

6. An anti-aliasing card detection apparatus for smart cards according to claim 5, characterized in that: the side of the movable plate (75) close to the connecting block (74) is also provided with a guide rod (751), and the connecting block (74) is provided with a guide hole (741) in sliding fit with the guide rod (751).

7. An anti-aliasing card detection apparatus for smart cards according to claim 5, characterized in that: a side of fly leaf (75) is provided with inserting groove (752), just inserting groove (752) intercommunication fly leaf (75) are kept away from the side of connecting block (74), the grafting cooperation has picture peg (753) in inserting groove (752), nanometer double-sided sticky tape piece (77) set up in picture peg (753) are kept away from the side of connecting block (74).

8. An anti-aliasing card detection apparatus for smart cards according to claim 1, characterized in that: the rotating direction of the rotating disc (72) is opposite to the transmission direction of the horizontal conveyor belt (3).

9. An anti-aliasing card detection apparatus for smart cards according to claim 3, characterized in that: the discharging structure (9) comprises a vertical rod (91), a receiving channel (92) is arranged on the vertical rod (91), one end of the receiving channel (92) is close to the rotary table (72), when the connecting structure ascends to the highest point along with the operation of the rotary table (72), the receiving channel (92) is located below the connecting structure, a material shifting block (93) used for shifting the smart card from the nano double-sided adhesive tape block (77) is arranged on the receiving channel (92), the receiving channel (92) is made to receive the shifted smart card, and the material shifting block (93) is located between the moving paths of the two adjacent nano double-sided adhesive tape blocks (77) in the rotating direction of the rotary table (72).

10. An anti-aliasing card detection apparatus for smart cards according to claim 9, characterized in that: and a guide cambered surface (932) is arranged on one side surface of the material poking block (93) facing to the rotating direction of the rotating disc (72).