CN113232215B

CN113232215B - Full-automatic efficient airing machine for smart card production

Info

Publication number: CN113232215B
Application number: CN202110617703.9A
Authority: CN
Inventors: 陈文志; 张丽丽
Original assignee: Shenzhen Einolda Financial Information Co ltd
Current assignee: Shenzhen Einolda Financial Information Co ltd
Priority date: 2021-06-03
Filing date: 2021-06-03
Publication date: 2023-01-10
Anticipated expiration: 2041-06-03
Also published as: CN113232215A

Abstract

The invention relates to the technical field of auxiliary devices for smart card production, in particular to a full-automatic efficient airing machine for smart card production, which comprises a horizontally arranged bottom plate; the rear side of the top end of the bottom plate is provided with two supporting plates, a transverse plate is horizontally arranged on the two supporting plates, and three placing grooves are equidistantly arranged at the top end of the transverse plate; the top end of the bottom plate is provided with a drying mechanism which comprises two fixed plates which are bilaterally symmetrical, a rotating shaft is rotatably arranged between the two fixed plates, a roller is fixedly sleeved on the rotating shaft, a sliding sleeve is arranged on the roller, a sliding plate is arranged in the sliding sleeve in a sliding mode, and three material taking assemblies are arranged on one side, far away from the roller, of the sliding plate at equal intervals; a driving mechanism is arranged below the airing mechanism and comprises a motor and a reciprocating gear, and the motor is connected with the airing mechanism through the reciprocating gear; the front side of the top end of the bottom plate is provided with a blanking conveyer belt in a transmission way. According to the intelligent card drying machine, batch drying and turnover of the intelligent cards are automatically performed, the labor intensity of workers is low, the operation is labor-saving, and the drying efficiency is high.

Description

Full-automatic high-efficient machine of drying is used in smart card production

Technical Field

The invention relates to the technical field of auxiliary devices for smart card production, in particular to a full-automatic efficient airing machine for smart card production.

Background

The intelligent card, the general name of the plastic card that has the microchip is embedded, some intelligent cards contain a microelectronics chip, the intelligent card need carry out data interaction through the read write line, the intelligent card is equipped with CPU, RAM and IO, can handle the more data of quantity by oneself and can not disturb host computer CPU's work, the intelligent card still can filter wrong data, in order to alleviate host computer CPU's burden, be adapted to the more and communication speed demand occasion of port number, in the intelligent card production process, need to dry the intelligent card, at present, the mode of drying the intelligent card is that the manual work dries, lay the intelligent card on the platform flatly, dry the intelligent card through natural wind and sunshine, nevertheless, this kind of mode of drying needs the staff to constantly turn over the face to the intelligent card, staff's intensity of labour is great, the operation is hard, dry inefficiency.

In view of the above defects, the inventor of the present invention actively makes research and innovation based on practical experience and professional knowledge that are rich over many years in the design and manufacture of such products and by using the theory, so as to create a full-automatic efficient air-drying machine for smart card production, which automatically dries smart cards in batch and turns over smart cards, thereby reducing the labor intensity of workers, saving labor in operation and improving the air-drying efficiency. After continuous research and design, and repeated trial production and improvement, the invention with practical value is finally created.

Disclosure of Invention

The invention mainly aims to provide a full-automatic high-efficiency airing machine for producing smart cards, so that the problems pointed out in the background art are effectively solved.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a smart card production is with full-automatic high-efficient machine of drying, includes:

the bottom of the bottom plate is provided with four supporting legs;

the rear side of the top end of the bottom plate is provided with two supporting plates which are arranged in a bilateral symmetry manner, a transverse plate is horizontally arranged on the two supporting plates, three placing grooves are arranged at the top end of the transverse plate at equal intervals, and the front side of each group of placing grooves is provided with a notch;

the top end of the bottom plate is provided with a drying mechanism which is positioned on the front side of the placing groove and comprises two fixed plates which are bilaterally symmetrical, a rotating shaft is rotatably arranged between the two fixed plates, a roller is fixedly sleeved on the rotating shaft, a sliding sleeve is arranged on the roller, a sliding plate is arranged in the sliding sleeve in a sliding mode, and three material taking assemblies are arranged on one side, far away from the roller, of the sliding plate at equal intervals;

a driving mechanism is arranged below the airing mechanism and comprises a motor and a reciprocating gear, and the motor is connected with the airing mechanism through the reciprocating gear;

a blanking conveyer belt is arranged at the front side of the top end of the bottom plate in a transmission way;

the material taking assembly also comprises two connecting shafts which are symmetrically arranged on the bottom plate in a front-back rotating manner, a guide roller is arranged on each connecting shaft, a belt is sleeved on the two guide rollers in a transmission manner, a shifting sheet is transversely arranged on the belt, square holes are formed in the two sides of the top and the bottom of the sliding sleeve, a shifting rod is arranged at each of the two ends of the top and the bottom of the sliding plate, and each shifting rod respectively penetrates through the corresponding square hole;

the mounting plate is arranged on the front side of the top end of the bottom plate, three groups of guide rods are arranged on the top end of the mounting plate at equal intervals, each group of guide rods is arranged to be two, and the two guide rods of each group correspond to the inclined surfaces of the two triangular ramp plates respectively.

Further, the driving mechanism further comprises an auxiliary bevel gear, a fixing sleeve is arranged on a connecting shaft located on the rear side, a main bevel gear is meshed with the auxiliary bevel gear, a linkage shaft is arranged on the main bevel gear, an eccentric wheel is arranged at one end, far away from the main bevel gear, of the linkage shaft, a second fluted disc is fixedly arranged at the middle position of the linkage shaft, a first fluted disc is arranged at the output end of the motor and meshed with the second fluted disc, an auxiliary plate is arranged on the left side of the bottom plate, a telescopic rod penetrates through the auxiliary plate in a sliding mode, a rack is arranged at the rear end of the telescopic rod, a pressure spring is sleeved on the telescopic rod, two ends of the pressure spring are respectively connected with the rack and the auxiliary plate, the rack is meshed with the reciprocating gear, a supporting shaft is arranged on the reciprocating gear, chain wheels are arranged on the supporting shaft and the rotating shaft, a chain is sleeved on the two chain wheels, a supporting rod is arranged on one side, far away from the pressure spring, a pressing plate is arranged on the supporting rod, and one end, close to the circle center, of the outer wall of the eccentric wheel is in contact with the pressing plate.

Furthermore, the front side of the bottom plate is provided with two supports, the two supports are provided with rotary drums in a rotating mode, the two rotary drums are sleeved with the blanking conveying belt in a transmission mode, a tooth-shaped structure is arranged on the rear side wall of the blanking conveying belt, a driving gear is arranged on the connecting shaft located on the front side, and the driving gear is meshed with the tooth-shaped structure on the blanking conveying belt.

Furthermore, two sliding rails are symmetrically arranged on the top wall and the bottom wall inside the sliding sleeve, and the sliding plate is sleeved on the four sliding rails in a sliding mode.

Further, all be provided with the draw-in groove on the opposite face of two grip blocks in each recess, and each draw-in groove all communicates with the grip block back wall that corresponds, and the rear side of each grip block all is provided with the swash plate.

Furthermore, a limiting plate is arranged at the front end of the telescopic rod, and a reinforcing plate is arranged between the auxiliary plate and the bottom plate.

Further, a connecting plate is arranged between the guide rods and used for stably connecting the guide rods in series.

After the technical scheme is adopted, the invention has the beneficial effects that:

at first place the smart card in three standing groove respectively, when the sliding plate rotates the roller rear side and keeps the level, the sliding plate receives the backward drive and outwards slides along the sliding sleeve, the sliding plate gets the material to the smart card in three standing groove through three groups of material subassemblies, get after the material is accomplished, under actuating mechanism's drive, the roller slowly rotates 180 degrees (under the visual angle of left side, roller clockwise rotation 180 degrees), the sliding plate rotates the roller front side and keeps the level this moment, the sliding plate receives the backward drive and inwards slides along the sliding sleeve, at the sliding in-process that the sliding plate slided to the sliding sleeve, the smart card that is got to material subassembly clamp drops on the unloading conveyer belt, through unloading conveyer belt to the smart card after drying, the slew velocity of roller is slower, make the smart card after the roller rotates 180 degrees, just accomplish to dry, and when the roller rotates 180 degrees, the smart card is automatic to accomplish the reversal, automatically dry in batches the smart card, automatically, turn over the smart card, staff's low in labor intensity of labour, operate, dry laborsaving efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic perspective view of a structure of the present invention with a left front corner angled downward;

FIG. 2 is a schematic perspective view of the left rear downward angled view of the present invention;

FIG. 3 is a schematic perspective view of a cross-sectional left front top angle downward looking configuration of the present invention;

FIG. 4 is a schematic perspective view of a portion of the structure of the connection between the driver plate and the driver lever according to the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 1 at A in accordance with the present invention;

FIG. 6 is an enlarged partial schematic view of the invention at B of FIG. 1;

reference numerals: 1. a base plate; 2. a support leg; 3. a support plate; 4. a transverse plate; 5. a placement groove; 6. a airing mechanism; 601. a fixing plate; 602. a rotating shaft; 603. a roller; 604. a sliding sleeve; 605. a sliding plate; 7. a material taking assembly; 701. a connecting shaft; 702. a guide roller; 703. a belt; 704. a shifting sheet; 705. a deflector rod; 706. a support plate; 707. a guide post; 708. a clamping plate; 709. a spring; 710. a triangular ramp plate; 711. mounting a plate; 712. a guide rod; 8. a drive mechanism; 801. a motor; 802. a reciprocating gear; 803. a secondary bevel gear; 804. a linkage shaft; 805. an eccentric wheel; 806. a second fluted disc; 807. a first fluted disc; 808. an auxiliary plate; 809. a telescopic rod; 810. a rack; 811. a pressure spring; 812. a support shaft; 813. a sprocket; 814. a chain; 815. a strut; 816. pressing a plate; 817. a main bevel gear; 9. blanking a conveying belt; 10. a support; 11. a rotating drum; 12. a drive gear; 13. a slide rail; 14. a card slot; 15. a sloping plate; 16. a limiting plate; 17. a reinforcing plate; 18. a connecting plate.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

According to the full-automatic efficient airing machine for producing the smart card, the installation mode, the connection mode or the setting mode of all the components are common mechanical modes, and the specific structures, models and coefficient indexes of all the components are self-contained technologies, so that the full-automatic efficient airing machine can be implemented as long as the beneficial effects of the components can be achieved, and further description is omitted.

The fully automatic high-efficiency airing machine for producing the smart card is characterized in that, without being stated to the contrary, the directional words included in the terms such as "up, down, left, right, front, back, inside and outside, vertical and horizontal" and the like only represent the directions of the terms in the conventional use state or are common names understood by those skilled in the art, but are not to be considered as limiting the terms, meanwhile, the numerical terms such as "first", "second" and "third" and the like do not represent specific numbers and sequences, and are only used for name distinction, and the terms "comprise", "comprise" or any other variants thereof are meant to cover non-exclusive inclusion, so that a process, method, article or equipment comprising a series of elements includes not only those elements, but also other elements which are not explicitly listed, or further includes elements which are inherent to the process, method, article or equipment.

As shown in fig. 1, 2 and 3, a full-automatic high-efficient airing machine is used in smart card production includes: the device comprises a bottom plate 1 which is horizontally arranged, wherein four supporting legs 2 are arranged at the bottom end of the bottom plate 1; the rear side of the top end of the bottom plate 1 is provided with two supporting plates 3, the two supporting plates 3 are arranged in a bilateral symmetry manner, a transverse plate 4 is horizontally arranged on the two supporting plates 3, three placing grooves 5 are equidistantly arranged at the top end of the transverse plate 4, and the front side of each group of placing grooves 5 is provided with a notch; the drying mechanism 6 is arranged at the top end of the bottom plate 1, is located on the front side of the placing groove 5, and comprises two fixed plates 601 which are bilaterally symmetrical, a rotating shaft 602 is rotatably arranged between the two fixed plates 601, a roller 603 is fixedly sleeved on the rotating shaft 602, a sliding sleeve 604 is arranged on the roller 603, a sliding plate 605 is arranged in the sliding sleeve 604 in a sliding manner, and three material taking assemblies 7 are arranged on one side, far away from the roller 603, of the sliding plate 605 at equal intervals; a driving mechanism 8 is arranged below the airing mechanism 6 and comprises a motor 801 and a reciprocating gear 802, and the motor 801 is connected with the airing mechanism 6 through the reciprocating gear 802; the front side of the top end of the bottom plate 1 is provided with a blanking conveyer belt 9 in a transmission way; the material taking assembly 7 further comprises two connecting shafts 701 which are symmetrically arranged on the bottom plate 1 in a front-back rotating manner, guide rollers 702 are arranged on each connecting shaft 701, a belt 703 is sleeved on each guide roller 702 in a transmission manner, a shifting sheet 704 is transversely arranged on the belt 703, square holes are formed in the two sides of the top bottom of the sliding sleeve 604, shifting rods 705 are arranged at the two ends of the top bottom of the sliding plate 605, each shifting rod 705 penetrates through the corresponding square hole, the shifting rod 705 positioned below penetrates through the middle of the belt 703 all the time, three support plates 706 are arranged on the sliding plate 605 at equal intervals at one end far away from the roller 603, grooves are formed in the three support plates 706, a guide post 707 is arranged in each groove, two clamping plates 708 are symmetrically arranged in each groove, a spring 709 is arranged between the two clamping plates 708 in each groove, the two clamping plates in each groove are slidably sleeved on the guide post 707, slope plates 710 are arranged on the opposite back surfaces of the two clamping plates 708 in each groove, and slopes 710 are arranged in opposite directions all the time; wherein, the top front side of bottom plate 1 is provided with mounting panel 711, and the top equidistance of mounting panel 711 is provided with three sets of guide bars 712, and each set of guide bar 712 all sets up to two, and two guide bars 712 of each set correspond with the inclined plane of two triangle ramp plates 710 respectively.

In the using process of the device, firstly, the smart cards are respectively placed in three placing grooves 5, when a sliding plate 605 rotates to the rear side of a roller 603 and keeps horizontal, the sliding plate 605 slides outwards along a sliding sleeve 604 under the action of backward pushing force, the sliding plate 605 fetches the smart cards in the three placing grooves 5 through three groups of fetching assemblies 7, after fetching is finished, under the driving of a driving mechanism 8, the roller 603 slowly rotates for 180 degrees (the roller 603 rotates clockwise for 180 degrees at a left visual angle), at the moment, the sliding plate 605 rotates to the front side of the roller 603 and keeps horizontal, the sliding plate 605 slides inwards along the sliding sleeve 604 under the action of backward pushing force, in the process that the sliding plate 605 slides in the sliding sleeve 604, the smart cards clamped by the fetching assemblies 7 fall on a blanking conveyer belt 9, blanking is carried out on the smart cards after being dried through the blanking conveyer belt 9, the rotating speed of the roller 603 is slow, so that the smart cards just finish drying after the roller 603 rotates for 180 degrees, and when the roller 603 rotates for 180 degrees, the smart cards automatically finish reverse rotation, and dry the smart cards in batches automatically;

in the process, the intelligent card can be automatically turned over through the device, so that the labor intensity of workers is low, the operation is labor-saving, and the airing efficiency is high;

in the using process, the two connecting shafts 701 can synchronously rotate on the bottom plate 1, so that the two guide rollers 702 can drive the belt 703 to transmit, the belt 703 transmits under the driving of the driving mechanism 8, meanwhile, the belt 703 drives the shifting sheet 704 to move, in the process that the shifting sheet 704 pushes the shifting rod 705 to move backwards, the shifting rod 705 drives the sliding plate 605 to move backwards, the sliding plate 605 drives the three material taking assemblies 7 to move backwards, the two clamping plates 708 on each material taking assembly 7 are elastically connected through a spring 709, so that when the two clamping plates 708 move backwards to the position of the smart card, the two clamping plates 708 move backwards under the pushing force of the smart card, due to the effect of the spring 709, the smart card at the corresponding position is just clamped between the two clamping plates 708, at the moment, the roller 603 rotates 180 degrees under the driving of the driving mechanism 8, so that the sliding plate 605 and the smart card clamped at the position are rotated to the front of the roller 603 and continue to be kept horizontal, at the moment, the shifting sheet 704 moving along with the belt pushes the shifting rod 704 again to move towards the middle of the two clamping plates 708, the sliding plate 603, the sliding plate 605 slides towards the sliding sleeve, at the position of the sliding rod 712, and the clamping plate 710 of the sliding plate is just slides towards the inclined plane of the triangular plate 710, and the automatic clamping plate 710, and the clamping plate 710 of the sliding plate is just after the sliding plate 710, and the sliding plate is clamped by the sliding plate 710, and the sliding plate 710.

As a preferable example of the above embodiment, as shown in fig. 1, 2, 3 and 6, the driving mechanism 8 further includes a secondary bevel gear 803, the fixed sleeve is disposed on a connecting shaft 701 located at the rear side, the primary bevel gear 817 is engaged with the secondary bevel gear 803, the primary bevel gear 817 is provided with a linkage shaft 804, one end of the linkage shaft 804 away from the primary bevel gear 817 is provided with an eccentric wheel 805, the middle position of the linkage shaft 804 is fixedly sleeved with a second toothed disc 806, the output end of the motor 801 is provided with a first toothed disc 807, the first toothed disc 807 is engaged with the second toothed disc 806, the left side of the bottom plate 1 is provided with an auxiliary plate 808, the auxiliary plate 808 is slidably provided with a telescopic rod 809, the rear end of the telescopic rod 809 is provided with a rack 810, the telescopic rod 809 is sleeved with a pressure spring 811, two ends of the pressure spring 811 are respectively connected with the rack 810 and the auxiliary plate 808, the rack 810 is engaged with the reciprocating gear 802, the reciprocating gear 802 is provided with a supporting shaft 812, the supporting shaft 812 and a sprocket 813 are both arranged on the rotating shaft 602, two sprockets 813 are slidably sleeved with a chain 814, one end of the rack 810 away from the pressure spring 811 is provided with a supporting rod 815, a supporting rod 816, one end of the supporting rod 815 is provided with a supporting rod 816, and one end of the supporting rod 815 is in contact with a circle center of the eccentric wheel 816.

In the using process, the motor 801 drives the linkage shaft 804 to rotate through the first fluted disc 807 and the second fluted disc 806, the linkage shaft 804 drives the main bevel gear 817 to rotate, the main bevel gear 817 drives the connecting shaft 701 to rotate through the auxiliary bevel gear 803, and then driving force is provided for the belt 703, the linkage shaft 804 drives the main bevel gear 817 to rotate and simultaneously drives the eccentric wheel 805 to rotate, due to the structural characteristics of the eccentric wheel 805, when the eccentric wheel 805 rotates for a circle, the rack 810 reciprocates once along a straight line, the pressure spring 811 provides elastic acting force required by resetting for the rack 810, the reciprocating motion of the rack 810 drives the reciprocating gear 802 to reciprocate, the reciprocating gear 802 drives the roller 603, the sliding plate 605 and the clamped smart card to reciprocate, and then driving force is provided for the roller 603.

As shown in fig. 1 and 3, preferably, the front side of the bottom plate 1 is provided with two supports 10, each of the two supports 10 is rotatably provided with a rotating drum 11, the blanking conveyor belt 9 is sleeved on the two rotating drums 11 in a transmission manner, wherein a tooth-shaped structure is provided on the rear side wall of the blanking conveyor belt 9, a driving gear 12 is provided on the connecting shaft 701 located at the front side, and the driving gear 12 is meshed with the tooth-shaped structure on the blanking conveyor belt 9.

In the use, because be provided with on the lateral wall of unloading conveyer belt 9 with the dentate structure of drive gear 12 meshing, and drive gear 12 rotates along with connecting axle 701, drive unloading conveyer belt 9 when connecting axle 701 pivoted and carry out the transmission for the smart card that drops on unloading conveyer belt 9 is collected by the transmission appointed region, can realize automatic unloading, and easy operation saves the labour.

As a preferred embodiment, as shown in fig. 2, two sliding rails 13 are symmetrically disposed on both the top wall and the bottom wall inside the sliding sleeve 604, and the sliding plate 605 is slidably sleeved on the four sliding rails 13.

In the using process, the sliding plate 605 always moves linearly along the four sliding rails 13, so that the sliding of the sliding plate 605 is more stable.

As a preferable example of the above embodiment, as shown in fig. 1, 3, 4 and 5, the opposite surfaces of the two clamping plates 708 in each groove are provided with the clamping grooves 14, each clamping groove 14 is communicated with the rear wall of the corresponding clamping plate 708, and the rear side of each clamping plate 708 is provided with the inclined plate 15.

In the use, the height of draw-in groove 14 is slightly bigger than the thickness of smart card for the smart card just can block into to draw-in groove 14 in, the screens is accurate, simultaneously, blocks into to the in-process in draw-in groove 14 at the smart card, the atress limit of smart card at first with two symmetrical swash plates 15 on following contact, makes the in-process that presss from both sides the smart card and can not appear the card circumstances of pausing, the working process is smooth.

As shown in fig. 1, the front end of the telescopic rod 809 is preferably provided with a stopper plate 16, and a reinforcing plate 17 is provided between the auxiliary plate 808 and the base plate 1.

In the use process, the limiting plate 16 can limit the telescopic rod 809, and the reinforcing plate 17 can enhance the firmness of the auxiliary plate 808.

As a preferred example of the above embodiment, as shown in fig. 1 and 3, a connecting plate 18 is provided between the guide rods 712 for stably connecting the guide rods 712 in series.

In the use process, the connecting plate 18 can connect and fix a plurality of guide rods 712, so that the stability is improved.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a smart card production is with full-automatic high-efficient machine of drying, its characterized in that includes:

the device comprises a bottom plate (1) which is horizontally arranged, wherein four supporting legs (2) are arranged at the bottom end of the bottom plate (1);

the rear side of the top end of the bottom plate (1) is provided with two supporting plates (3), the two supporting plates (3) are arranged in a bilateral symmetry manner, a transverse plate (4) is horizontally arranged on the two supporting plates (3), three placing grooves (5) are equidistantly arranged at the top end of the transverse plate (4), and the front side of each group of placing grooves (5) is provided with a notch;

the drying mechanism (6) is arranged at the top end of the bottom plate (1), is positioned on the front side of the placing groove (5) and comprises two fixed plates (601) which are bilaterally symmetrical, a rotating shaft (602) is rotatably arranged between the two fixed plates (601), a roller (603) is fixedly sleeved on the rotating shaft (602), a sliding sleeve (604) is arranged on the roller (603), a sliding plate (605) is arranged in the sliding sleeve (604) in a sliding manner, and three material taking assemblies (7) are arranged on one side, far away from the roller (603), of the sliding plate (605) at equal intervals;

a driving mechanism (8) is arranged below the airing mechanism (6) and comprises a motor (801) and a reciprocating gear (802), and the motor (801) is connected with the airing mechanism (6) through the reciprocating gear (802);

a blanking conveyer belt (9) is arranged at the front side of the top end of the bottom plate (1) in a transmission way;

the material taking assembly (7) further comprises two connecting shafts (701), the connecting shafts are symmetrically arranged on the bottom plate (1) in a front-back rotating mode, guide rollers (702) are arranged on each connecting shaft (701), belts (703) are sleeved on the two guide rollers (702) in a transmission mode, shifting sheets (704) are transversely arranged on the belts (703), square holes are formed in two sides of the top bottom of the sliding sleeve (604), shifting rods (705) are arranged at two ends of the top bottom of the sliding plate (605), each shifting rod (705) penetrates through the corresponding square hole, the shifting rod (705) located below penetrates through the middle of the belt (703) all the time, three support plates (706) are arranged on one end, far away from the roller (603), of the sliding plate (605), grooves are formed in the three support plates (706), guide columns (707) are arranged in each groove, clamping plates (708) are symmetrically arranged in each groove, springs (709) are arranged between the two clamping plates (708) in each groove, two clamping plates (708) in each groove are slidably sleeved on the guide columns (707), and the triangular inclined planes (710) are arranged oppositely;

the front side of the top end of the bottom plate (1) is provided with a mounting plate (711), three groups of guide rods (712) are arranged on the top end of the mounting plate (711) at equal intervals, each group of guide rods (712) is arranged into two, and the two guide rods (712) of each group respectively correspond to the inclined planes of the two triangular ramp plates (710).

2. The full-automatic efficient airing machine for producing the smart card as claimed in claim 1, wherein the driving mechanism (8) further comprises a secondary bevel gear (803), the secondary bevel gear is fixedly sleeved on a connecting shaft (701) located at the rear side, a main bevel gear (817) is meshed with the secondary bevel gear (803), a linkage shaft (804) is arranged on the main bevel gear (817), an eccentric wheel (805) is arranged at one end, far away from the main bevel gear (817), of the linkage shaft (804), a second toothed disc (806) is fixedly sleeved at the middle position of the linkage shaft (804), a first toothed disc (807) is arranged at the output end of a motor (801), the first toothed disc (807) is meshed with the second toothed disc (806), an auxiliary plate (808) is arranged on the left side of the base plate (1), a telescopic rod (809) is slidably arranged on the auxiliary plate (808), a rack (810) is arranged at the rear end of the telescopic rod (809), a pressure spring (811) is sleeved on the telescopic rod (809), two ends of the pressure spring (811) are respectively connected with the rack (810) and the auxiliary plate (808), the rack (810) is meshed with the reciprocating gear (802), a rotating shaft (802) and two chain wheels (813) are arranged on the reciprocating shaft (802), a supporting rod (815) is arranged on one side, away from the pressure spring (811), of the rack (810), a pressing plate (816) is arranged on the supporting rod (815), and one end, close to the circle center, of the outer wall of the eccentric wheel (805) is in contact with the pressing plate (816).

3. The full-automatic high-efficiency airing machine for producing the smart card as claimed in claim 1, wherein two supports (10) are arranged on the front side of the base plate (1), the two supports (10) are respectively provided with a rotating drum (11) in a rotating manner, the blanking conveyer belt (9) is sleeved on the two rotating drums (11) in a transmission manner, a tooth-shaped structure is arranged on the rear side wall of the blanking conveyer belt (9), a driving gear (12) is arranged on the connecting shaft (701) on the front side, and the driving gear (12) is meshed with the tooth-shaped structure on the blanking conveyer belt (9).

4. The full-automatic high-efficiency airing machine for producing the smart card as claimed in claim 1, wherein two sliding rails (13) are symmetrically arranged on the top wall and the bottom wall inside the sliding sleeve (604), and the sliding plate (605) is slidably sleeved on the four sliding rails (13).

5. The full-automatic high-efficiency airing machine for producing smart cards according to claim 1, wherein clamping grooves (14) are formed in opposite surfaces of the two clamping plates (708) in each groove, each clamping groove (14) is communicated with the rear wall of the corresponding clamping plate (708), and an inclined plate (15) is arranged on the rear side of each clamping plate (708).

6. The full-automatic efficient airing machine for producing the smart card as claimed in claim 2, wherein a limiting plate (16) is arranged at the front end of the telescopic rod (809), and a reinforcing plate (17) is arranged between the auxiliary plate (808) and the bottom plate (1).

7. The full-automatic high-efficiency airing machine for producing smart cards according to claim 1, wherein a connecting plate (18) is arranged between the guide rods (712) and used for stably connecting the guide rods (712) in series.