CN211956512U - Double-clamping-groove card distribution device - Google Patents

Abstract

A double-card-slot card issuing device comprises a first card box, a second card box, a first card issuing mechanism, a second card issuing mechanism and a card transmission mechanism; the card-issuing mechanism is used for outputting the first card to the card-transmitting mechanism, and the second card-issuing mechanism is used for outputting the second card to the card-transmitting mechanism. The utility model discloses a two draw-in grooves hairpin devices can very big improvement work efficiency.

Description

Double-clamping-groove card distribution device

Technical Field

The utility model relates to a laser printing technical field, in particular to double cassette groove hairpin device.

Background

The certificate card is used for proving certificates and documents of identities, experiences and the like, such as personal certificates of identity cards, drivers licenses and the like. Personalized information such as a portrait, a name, an age and the like of a person on a document such as an identity card, a driver's license, a passport and the like needs to be printed by a printer. The identification card to be printed generally comprises two printing surfaces, namely a positive printing surface and a reverse printing surface.

The laser printing system is a common certificate card printing device, and generally comprises a card issuing device, a control system, a printing machine table and a laser printing device, wherein the printing machine table and the laser printing device are in communication connection with the control system. The existing card issuing device can only store one type of card at one time and cannot process multiple types of cards at the same time, and in the existing service environment, multiple types of cards are generally required to be processed to meet different requirements, so that when different types of cards are used, the cards in the card issuing device need to be manually replaced, and the working efficiency of the card issuing device is greatly influenced.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a double cassette groove hairpin device can handle two kinds at least types of cards simultaneously, realizes that multiple card sends the card in succession, very big improvement work efficiency.

A double-card-slot card issuing device comprises a first card box, a second card box, a first card issuing mechanism, a second card issuing mechanism and a card transmission mechanism;

this first card case is used for providing first card, and this second card case is used for providing the second card, and this card transport mechanism is located first card case and second card case below, and this first card issuing mechanism corresponds the setting with this first card case, and this second card issuing mechanism corresponds the setting with this second card case, and this first card issuing mechanism is used for exporting this first card to this card transport mechanism, and this second card issuing mechanism is used for exporting this second card to this card transport mechanism.

In an embodiment of the present invention, a first card slot for accommodating the first card is disposed in the first card box, a first card issuing opening communicated with the first card slot is disposed at an end of the first card box, the first card issuing mechanism includes a first card issuing wheel, the first card issuing wheel is disposed near the first card issuing opening, the first card output from the first card issuing opening contacts with the first card issuing wheel, and the first card is output by the first card issuing wheel;

the second card box is internally provided with a second clamping groove for containing the second card, the end part of the second card box is provided with a second card sending opening communicated with the second clamping groove, the second card sending mechanism comprises a second card sending wheel, the second card sending wheel is arranged close to the second card sending opening, the second card output from the second card sending opening is contacted with the second card sending wheel, and the second card is output by the second card sending wheel.

In an embodiment of the present invention, the first card box includes a first box body, a first card seat and a first elastic member, the first card seat is movably disposed in the first box body, the first elastic member is connected between the first box body and the first card seat, the first card seat extrudes the first card through an elastic force of the first elastic member, and the first card at the outermost side is abutted against the first card-issuing wheel; the second card box comprises a second box body, a second card seat and a second elastic piece, the second card seat is movably arranged in the second box body, the second elastic piece is connected between the second box body and the second card seat, the second card seat extrudes the second card through the elasticity of the second elastic piece, and the second card at the outermost side is abutted against the second card sending wheel.

In an embodiment of the present invention, a first guide rail is disposed in the first box body, and the first clamping seat is slidably connected to the first guide rail; a second guide rail is arranged in the second box body, and the second clamping seat is connected to the second guide rail in a sliding mode.

In an embodiment of the present invention, the first card issuing mechanism further includes a first motor and a first driving belt, the first driving belt is respectively connected to the first motor and the first card issuing wheel, the first motor drives the first card issuing wheel to rotate through the first driving belt, and outputs a first card; the second card issuing mechanism also comprises a second motor and a second driving belt, the second driving belt is respectively connected with the second motor and the second card issuing wheel, and the second motor drives the second card issuing wheel to rotate through the second driving belt and outputs a second card.

In an embodiment of the present invention, the card transmission mechanism includes a first transmission channel and a second transmission channel, the first transmission channel is disposed corresponding to the first card issuing mechanism, the second transmission channel is disposed corresponding to the second card issuing mechanism, the first card issuing wheel outputs the first card to the first transmission channel, and the second card issuing wheel outputs the second card to the second transmission channel.

In an embodiment of the present invention, the card conveying mechanism includes at least one set of a first clamping set and a second clamping set, the first clamping set is disposed at the first card-sending opening, the first card-sending opening is disposed below the first clamping set, the first clamping set includes a first driven wheel and a first driving wheel, the first driven wheel is disposed opposite to the first driving wheel, the second clamping set is disposed below the first clamping set, the second clamping set includes a second driven wheel and a second driving wheel, the second driven wheel is disposed opposite to the second driving wheel, the first driven wheel and the first driving wheel and the second driven wheel and the second driving wheel form the first conveying channel.

In an embodiment of the present invention, the card conveying mechanism further includes at least one third clamping roller set, the third clamping roller set and the first clamping roller set are symmetrically disposed, the third clamping roller set is disposed at the second hairpin opening, the second hairpin roller set is disposed below the second hairpin roller, the third clamping roller set includes a third driven roller and a third driving roller, the third driven roller and the third driving roller are disposed relatively, the second clamping roller set is disposed below the third clamping roller set, the second clamping roller set further includes a fourth driven roller, the fourth driven roller and the second driving roller are disposed relatively, the third driven roller and the third driving roller and the fourth driven roller and the second driving roller form the second conveying channel.

In an embodiment of the present invention, the card conveying mechanism further includes a third motor and a third driving belt, the third driving belt is connected to the third motor, the first driving wheel, the second driving wheel and the third driving wheel respectively, and the third motor orders the first driving wheel, the second driving wheel and the third driving wheel to rotate through the third driving belt.

The utility model discloses an in the embodiment, above-mentioned double cassette groove hairpin device still includes the fixing base, the installation side has on this fixing base, this first card case, this second card case, this first hairpin mechanism, this second hairpin mechanism, this card transmission device connects on this installation side, be equipped with first guide slot and second guide slot on this installation side, this first guide slot corresponds the setting with this first transmission channel, when this first transmission channel transmits this first card, the cell wall direction of this first guide slot is passed through to a side of this first card, this second guide slot corresponds the setting with this second transmission channel, when this second transmission channel transmits this second card, the cell wall direction of this second guide slot is passed through to a side of this second card.

In an embodiment of the present invention, the above-mentioned double-card-slot card-issuing device further includes a guiding plate, the guiding plate is disposed opposite to the mounting surface, the card-transferring mechanism is connected between the fixing base and the guiding plate, the guiding plate is provided with a third guiding slot and a fourth guiding slot, the third guiding slot is disposed corresponding to the first transferring channel, when the first transferring channel transfers the first card, the other side of the first card is guided by the slot wall of the second guiding slot, the fourth guiding slot is disposed corresponding to the second transferring channel, when the second transferring channel transfers the second card, the other side of the second card is guided by the slot wall of the fourth guiding slot.

The utility model discloses a double cassette groove hairpin device can handle the card (first card and second card) of two kind at least types simultaneously, realizes that multiple card sends out the card in succession, very big improvement work efficiency.

Drawings

Fig. 1 is a schematic front view of a laser endorsement system according to a first embodiment of the invention.

Fig. 2 is a schematic perspective view of a laser endorsement system according to a first embodiment of the invention.

Fig. 3 is a partially disassembled structure diagram of the laser endorsement system according to the first embodiment of the invention.

Fig. 4 is a schematic structural diagram of the dual-card-slot card-launching device and the turnover device of the invention.

Fig. 5 is a partially disassembled structure diagram of the double-card-slot card-launching device shown in fig. 4.

Fig. 6 is a schematic front view of a laser endorsement system according to a second embodiment of the invention.

Fig. 7 is a schematic structural view of the shelterless photographing device of the present invention.

Detailed Description

First embodiment

Fig. 1 is a front view structural schematic diagram of a laser endorsement system according to a first embodiment of the present invention, fig. 2 is a perspective structural schematic diagram of the laser endorsement system according to the first embodiment of the present invention, and fig. 3 is a partial split structural schematic diagram of the laser endorsement system according to the first embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 3, the laser endorsement system includes a dual card slot card issuing device 10, a turnover device 20 and a laser printing device 30;

the double-card-slot card issuing device 10 comprises a first card box 11, a second card box 12, a first card issuing mechanism 13, a second card issuing mechanism 14 and a card transmission mechanism 16, wherein the first card box 11 is used for providing a first card, the second card box 12 is used for providing a second card, the card transmission mechanism 15 is positioned below the first card box 11 and the second card box 12, the first card issuing mechanism 13 is arranged corresponding to the first card box 11, the second card issuing mechanism 14 is arranged corresponding to the second card box 12, the first card issuing mechanism 13 is used for outputting the first card to the card transmission mechanism 15, and the second card issuing mechanism 14 is used for outputting the second card to the card transmission mechanism 15;

the turnover device 20 is arranged below the double-card-slot card-issuing device 10, the turnover device 20 is used for turning over the first card or the second card, preferably, the turnover device 20 is used for turning over the first card or the second card in a vertical state to a horizontal state, or the turnover device 20 is used for turning over the first card or the second card in a vertical state for 45 degrees to withdraw the card;

the laser printing device 30 is disposed on one side of the flipping device 20, and the laser printing device 30 is used for printing a mark on a surface of the first card or the second card.

Further, the first card issuing mechanism 13 is disposed corresponding to the first card hopper 11, the second card issuing mechanism 14 is disposed corresponding to the second card hopper 12, the first card issuing mechanism 13 is configured to output the first card to the card conveying mechanism 15, and the second card issuing mechanism 14 is configured to output the second card to the card conveying mechanism 15. In the present embodiment, the first card hopper 11 and the second card hopper 12 are disposed opposite to each other, and the first card issuing mechanism 13 and the second card issuing mechanism 14 are located between the first card hopper 11 and the second card hopper 12.

Further, a first card slot 101 for accommodating a first card is arranged in the first card box 11, a first card issuing opening (not shown) communicated with the first card slot 101 is arranged at an end of the first card box 11, the first card issuing mechanism 13 includes a first card issuing wheel 131, the first card issuing wheel 131 is arranged near the first card issuing opening, the first card output from the first card issuing opening contacts with the first card issuing wheel 131, and the first card is output by the first card issuing wheel 131;

a second card slot 102 for accommodating a second card is arranged in the second card box 12, a second card issuing opening communicated with the second card slot 102 is arranged at the end of the second card box 12, the second card issuing mechanism 14 comprises a second card issuing wheel 141, the second card issuing wheel 141 is arranged close to the second card issuing opening, the second card output from the second card issuing opening contacts with the second card issuing wheel 141, and the second card is output by the second card issuing wheel 141.

The laser endorsement system can process at least two types of cards (the first card and the second card) at the same time, realizes continuous card issuing of a plurality of cards and greatly improves the working efficiency.

Further, the first card box 11 includes a first box body 111, a first card holder 112 and a first elastic member (not shown), the first card holder 112 is movably disposed in the first box body 111, the first elastic member is connected between the first box body 111 and the first card holder 112, the first card holder 112 extrudes the first card through the elastic force of the first elastic member, and the outermost first card is abutted against the first card-emitting wheel 131; the second card holder 12 includes a second case 121, a second card holder 122 and a second elastic member (not shown), the second card holder 122 is movably disposed in the second case 121, the second elastic member is connected between the second case 121 and the second card holder 122, and the second card holder 122 presses the second card by an elastic force of the second elastic member, so that the second card at the outermost side abuts against the second card-sending wheel 141. In this embodiment, the first elastic member and the second elastic member are, for example, springs or elastic sheets, but not limited thereto.

Further, a first guide rail 113 is arranged in the first box 111, and the first clamping seat 112 is slidably connected to the first guide rail 113; a second guide rail 123 is disposed in the second casing 121, and the second clamping seat 122 is slidably connected to the second guide rail 123.

Further, the first card issuing mechanism 13 further includes a first motor 132 and a first driving belt 133, the first driving belt 133 is respectively connected to the first motor 132 and the first card issuing wheel 131, the first motor 132 drives the first card issuing wheel 131 to rotate through the first driving belt 133, and outputs a first card; the second card issuing mechanism 14 further includes a second motor 142 and a second driving belt 143, the second driving belt 143 is connected to the second motor 142 and the second card issuing wheel 141, respectively, and the second motor 142 drives the second card issuing wheel 141 to rotate by the second driving belt 143 and outputs a second card. In the present embodiment, the first driving belt 133 and the second driving belt 143 are, for example, belts, but not limited thereto.

Further, fig. 4 is a schematic structural diagram of the dual card slot card issuing device of the present invention cooperating with the flipping device, fig. 5 is a schematic structural diagram of a partial split structure of the dual card slot card issuing device shown in fig. 4, as shown in fig. 4 and fig. 5, the card transport mechanism 15 includes a first transport channel and a second transport channel, the first transport channel is disposed corresponding to the first card issuing mechanism 13, the second transport channel is disposed corresponding to the second card issuing mechanism 14, the first card issuing wheel 131 outputs the first card to the first transport channel, and the second card issuing wheel 141 outputs the second card to the second transport channel.

Further, the card conveying mechanism 15 includes at least one set of a first clamping roller set 151 and a second clamping roller set 152, the second clamping roller set 152 is disposed below the first card-issuing wheel 131, the first clamping roller set 151 includes a first driven wheel 151a and a first driving wheel 151b, the first driven wheel 151a is disposed opposite to the first driving wheel 151b, the second clamping roller set 152 is disposed below the first clamping roller set 151, the second clamping roller set 152 includes a second driven wheel 152a and a second driving wheel 152b, the second driven wheel 152a is disposed opposite to the second driving wheel 152b, and first conveying channels are formed between the first driven wheel 151a and the first driving wheel 151b and between the second driven wheel 152a and the second driving wheel 152 b. In this embodiment, the card transferring mechanism 15 includes two sets of first clamping roller sets 151, the two sets of first clamping roller sets 151 are disposed oppositely, and the number of the first clamping roller sets 151 can be increased or decreased freely according to actual needs.

Further, the card conveying mechanism 15 further includes at least one third pinch roller set 153, the third pinch roller set 153 is symmetrically disposed with the first pinch roller set 151, the third pinch roller set 153 is disposed below the second hairpin mouth and the second hairpin wheel 141, the third pinch roller set 153 includes a third driven wheel 153a and a third driving wheel 153b, the third driven wheel 153a is disposed opposite to the third driving wheel 153b, the second pinch roller set 152 is disposed below the third pinch roller set 153, the second pinch roller set 152 further includes a fourth driven wheel 152c, the fourth driven wheel 152c is disposed opposite to the second driving wheel 152b, and second conveying channels are formed between the third driven wheel 153a and the third driving wheel 153b and between the fourth driven wheel 152c and the second driving wheel 152 b. In this embodiment, the card conveying mechanism 15 includes two sets of third clamping roller sets 153, the two sets of third clamping roller sets 153 are disposed opposite to each other, and the number of the third clamping roller sets 153 can be freely increased or decreased according to actual needs.

Furthermore, the inlet bayonet of the first transmission channel corresponds to the first outlet bayonet, the inlet bayonet of the second transmission channel corresponds to the second outlet bayonet, the outlet bayonet of the first transmission channel gradually draws close to the outlet bayonet of the second transmission channel to be converged, so that the first transmission channel and the second transmission channel are combined to form a V shape, the junction of the two outlet bayonets corresponds to the turnover device 20, namely, the first transmission channel and the second transmission channel transmit the first card and the second card to the turnover device 20.

Further, the card transport mechanism 15 further includes a third motor 154 and a third drive belt 155, the third drive belt 155 is connected to the third motor 154, the first drive wheel 151b, the second drive wheel 152b, and the third drive wheel 153b, respectively, and the third motor 154 drives the first drive wheel 151b, the second drive wheel 152b, and the third drive wheel 153b to rotate by the third drive belt 155. In the present embodiment, the third driving belt 155 is, for example, a belt, but is not limited thereto.

Further, the double-card-slot card issuing device 10 further comprises a fixing seat 40, a mounting side surface 41 is arranged on the fixing seat 40, the first card box 11, the second card box 12, the first card issuing mechanism 13, the second card issuing mechanism 14, the card conveying mechanism 15, the turnover device 20 and the laser printing device 30 are connected to the mounting side surface 41, the first card box 11 and the second card box 12 are located on the upper side of the mounting side surface 41, the card conveying mechanism 15 is arranged along the vertical direction, the card conveying mechanism 15 vertically conveys the first card or the second card to the turnover device 20, the turnover device 20 turns over the first card or the second card 180 ° after one surface of the first card or the second card is printed by the laser printing device 30, and the other surface of the first card or the second card is printed by the laser printing device 30.

Furthermore, a first guide groove and a second guide groove are formed in the installation side surface 41, the first guide groove is arranged corresponding to the first transmission channel, when the first transmission channel transmits the first card, one side edge of the first card is guided by the groove wall of the first guide groove, the second guide groove is arranged corresponding to the second transmission channel, and when the second transmission channel transmits the second card, one side edge of the second card is guided by the groove wall of the second guide groove.

Further, as shown in fig. 4, the dual card slot card issuing device 10 further includes a guide plate 16, the guide plate 16 is disposed opposite to the mounting side surface 41, the card transmission mechanism 15 is connected between the fixing base 40 and the guide plate 16, a third guide slot (not shown) and a fourth guide slot (not shown) are disposed on the guide plate 16, the third guide slot is disposed corresponding to the first transmission channel, when the first transmission channel transmits the first card, the other side edge of the first card is guided by the slot wall of the second guide slot, the fourth guide slot is disposed corresponding to the second transmission channel, and when the second transmission channel transmits the second card, the other side edge of the second card is guided by the slot wall of the fourth guide slot.

Further, the laser sign system further comprises a card control device 50, the card control device 50 is connected to the mounting side surface 41, the card control device 50 is located between the card transmission mechanism 15 and the turnover device 20, the card control device 50 comprises a transmission main wheel 51, a driven auxiliary wheel 52, a fourth motor 53 and a fourth driving belt 54, the transmission main wheel 51 and the driven auxiliary wheel 52 are arranged oppositely, a first transmission channel can transmit a first card between the transmission main wheel 51 and the driven auxiliary wheel 52, a second transmission channel can transmit a second card between the transmission main wheel 51 and the driven auxiliary wheel 52, the fourth driving belt 54 is respectively connected with the fourth motor 53 and the transmission main wheel 51, and the fourth motor 53 drives the transmission main wheel 51 to rotate through the fourth driving belt 54 and transmits the first card or the second card to the turnover device 20. In this embodiment, the card control device 50 is used for controlling the first card or the second card to enter the turnover device 20, after the laser printing device 30 finishes printing, the turnover device 20 outputs the card, and meanwhile, the card control device 50 controls the first card or the second card to be printed to enter the turnover device 20, so as to ensure that the first card or the second card is accurately aligned with the turnover device 20.

Further, the turning device 20 includes a turning frame (not shown) and a turning driving motor 21, the turning driving motor 21 is connected to the turning frame through a linkage structure, the turning frame is provided with a first positioning slot and a second positioning slot for accommodating two side edges of the first card or the second card, when the turning frame is in a vertical state, the first positioning slot and the second positioning slot are right opposite to the card control device 50, the fourth motor 53 drives the driving main wheel 51 to rotate through a fourth driving belt 54, and transmits the first card or the second card to the turning frame, and one side edge of the first card or the second card is located in the first positioning slot, the other side edge of the first card or the second card is located in the second positioning slot, at this time, the first card or the second card is in a vertical state, after the laser printing device 30 prints one surface of the first card or the second card, the turning driving motor 21 drives the turning frame to turn 180 degrees through the linkage structure, and the other surface of the first card or the second card is opposite to the laser printing device 30 until the double-sided printing of the first card or the second card is completed.

Further, the linkage structure of the turnover driving motor 21 comprises a turnover belt 22, a linkage wheel 23 and a linkage shaft (not shown), the turnover belt 22 is respectively connected with the turnover driving motor 21 and the linkage wheel 23, one end of the linkage shaft is connected with the linkage wheel 23, and the other end of the linkage shaft is connected with the turnover frame.

Further, the turnover device 20 further includes a driving gear 24, a driven gear set 25, a translation roller set (not shown), a translation driving motor 26 and a translation belt 27, the driving gear 24 and the driven gear set 25 are engaged with each other, the driving gear 24, the driven gear set 25 is rotatably connected to the linkage wheel 23, the translation roller set is rotatably connected to the turnover frame, the driven gear set 25 is connected to the translation roller set through a transmission shaft, the translation belt 27 is respectively connected to the translation driving motor 26 and the driving gear 24, the translation roller set includes an upper roller set and a lower roller set, a first positioning groove is formed between the upper roller set and the lower roller set, the translation driving motor 26 drives the translation roller set to rotate through the translation belt 27, and the translation of the first card or the second card is realized.

Further, the laser endorsement system further comprises a camera device 60, a card output device 70 and a card reading and writing device 80, wherein the camera device 60, the card output device 70 and the card reading and writing device 80 are connected to the mounting side surface 41, the camera device 60 is obliquely arranged, the camera device 60 is used for acquiring an image of a first card or a second card, the card output device 70 is arranged on one side of the turnover device 20, the card output device 70 is used for outputting the printed first card or second card, the card reading and writing device 80 is arranged above the card output device 70, and the card reading and writing device 80 is used for reading or inputting information of the first card or second card.

Further, the laser endorsement system also comprises a waste material box 90, wherein the waste material box 90 is arranged on one side of the turnover device 20 and is positioned below the card output device, when the camera device 60 identifies that the first card or the second card has problems, the turnover device 20 needs to withdraw the card, the turnover frame overturns 45 degrees at the moment, and the first card or the second card is withdrawn into the waste material box 90 in an inclined and downward mode.

Second embodiment

Fig. 6 is a front view structure diagram of the laser endorsement system of the second embodiment, as shown in fig. 6, the laser endorsement system of this embodiment is substantially the same as the laser endorsement system of the first embodiment, and the difference lies in that the laser endorsement system of this embodiment further comprises a non-shielding photographing device 100, the non-shielding photographing device 100 is connected on the installation side surface 41, the non-shielding photographing device 100 is located between the turnover device 20 and the card output device 70, and the non-shielding photographing device 100 is used for realizing the non-shielding photographing inspection.

Further, fig. 7 is a schematic structural diagram of the shelterless photographing device of the present invention, as shown in fig. 6 and 7, the shelterless photographing device 100 comprises a photographing camera 1011, a photographing frame 1021, a tilting module 1031 and a translation module 1041.

Further, the camera 1011 is disposed above the camera housing 1021. Preferably, the photographing camera 1011 is fixed to the first card hopper 11.

Further, the camera housing 1021 is formed with a transmission passage through which the first card or the second card passes. The camera rack 1021 includes a first side plate 1022 and a second side plate 1023 that photograph vertically and oppositely disposed, and a transmission channel for passing the first card or the second card is formed between the first side plate 1022 and the second side plate 1023.

Further, the flipping module 1031 includes a first rotating shaft 1032, a second rotating shaft 1033, a third rotating shaft 1034, and a driving mechanism 1035. The first rotating shaft 1032 is rotatably arranged on the camera frame 1021, and is arranged at one side of the transmission channel along the card transmission direction; the second shaft 1033 is rotatably disposed on the camera frame 1021, and is disposed at the other side of the transmission channel along the card transmission direction. In this embodiment, the first rotating shaft 1032 is rotatably disposed at the top of the first photographing side plate 1022; the second shaft 1033 is rotatably disposed on the top of the second photographing side plate 1023. The third rotating shaft 1034 is rotatably disposed on the camera frame 1021, one end of the third rotating shaft 1034 is in linkage connection with the first rotating shaft 1032 through a gear, the other end of the third rotating shaft 1034 is in linkage connection with the second rotating shaft 1033 through a gear, the driving mechanism 1035 is connected with the third rotating shaft 1034, and the driving mechanism 1035 drives the third rotating shaft 1034 to rotate, so as to drive the first rotating shaft 1032 and the second rotating shaft 1033 to realize a turning motion.

Further, the translation module 1041 is configured to drive the first card or the second card to translate to reach or leave the predetermined photographing position. The translation module 1041 includes a plurality of first translation upper driving wheels 1042 and a plurality of first translation lower driving wheels 1043 located at one side of the conveying passage, and a plurality of second translation upper driving wheels 1044 and a plurality of second translation lower driving wheels 1045 located at the other side of the conveying passage.

Further, a plurality of first translation upper driving wheels 1042 are sequentially arranged on the first rotating shaft 1032 along the axial direction of the first rotating shaft 1032; a plurality of first translation lower driving wheels 1043 are arranged on the camera frame 910, and are sequentially arranged on one side of the transmission channel along the axial direction of the first rotating shaft 1032, the plurality of first translation lower driving wheels 1043 are positioned below the plurality of first translation upper driving wheels 1042 and are arranged in a direction perpendicular to the card direction; the plurality of first translation upper driving wheels 1042 correspond to the plurality of first translation lower driving wheels 1043 one to one. A plurality of second translation upper driving wheels 1044 are sequentially arranged on the second rotating shaft 1033 along the axial direction of the second rotating shaft 1033; a plurality of second translation lower driving wheels 1045 are arranged on the camera frame 910, and are sequentially arranged on the other side of the transmission channel along the axial direction of the second rotating shaft 1033, and a plurality of second translation lower driving wheels 1045 are positioned below the plurality of second translation upper driving wheels 1044 and are arranged in a direction perpendicular to the direction of the certificate card; the plurality of second translation upper driving wheels 1044 correspond to the plurality of second translation lower driving wheels 1045 one to one.

Further, when the first rotating shaft 1032 drives the plurality of first translation upper driving wheels 1042 to turn to the initial position, the plurality of first translation upper driving wheels 1042 are disposed perpendicular to the direction of the card, and a translation gap is formed between the first translation upper driving wheel 1042 and the corresponding first translation lower driving wheel 1043 so as to clamp one side of the first card or the second card and drive the card to translate; when the first rotating shaft 1032 drives the first translation upper driving wheels 1042 to turn to the photographing position, the first translation upper driving wheels 1042 are disposed parallel to the card direction, so that the first translation upper driving wheels 1042 avoid (or do not shield) the first card or the second card. When the second shaft 1033 drives the second translation upper driving wheels 1044 to turn to the initial position, the second translation upper driving wheels 1044 are placed perpendicular to the card direction, and a translation gap is formed between the second translation upper driving wheel 1044 and the second translation lower driving wheel 1045 opposite to the second translation upper driving wheel 1044, so as to clamp the other side of the first card or the second card and drive the card to translate; when the second shaft 1033 is turned to the photographing position (which may also be referred to as a second position), the second translation upper driving wheels 1044 are disposed parallel to the card direction, so that the second translation upper driving wheels 1044 avoid (or do not shield) the first card or the second card.

The utility model discloses not be limited to the specific details among the above-mentioned embodiment the utility model discloses a within the technical idea scope, can be right the technical scheme of the utility model carry out multiple simple variant, these simple variants all belong to the utility model discloses a protection scope. The various features described in the foregoing detailed description may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, the present invention does not separately describe various possible combinations.

Claims (11)

1. A double-card-slot card issuing device is characterized by comprising a first card box, a second card box, a first card issuing mechanism, a second card issuing mechanism and a card transmission mechanism;

this first card case is used for providing first card, and this second card case is used for providing the second card, and this card transport mechanism is located first card case and second card case below, and this first card issuing mechanism corresponds the setting with this first card case, and this second card issuing mechanism corresponds the setting with this second card case, and this first card issuing mechanism is used for exporting this first card to this card transport mechanism, and this second card issuing mechanism is used for exporting this second card to this card transport mechanism.

2. The dual card slot card dispensing device of claim 1, wherein the first card box has a first card slot for receiving a first card therein, the first card box has a first card dispensing opening at an end thereof, the first card dispensing mechanism includes a first card dispensing wheel, the first card dispensing wheel is disposed adjacent to the first card dispensing opening, the first card output from the first card dispensing opening contacts the first card dispensing wheel, and the first card is output from the first card dispensing wheel;

the second card box is internally provided with a second clamping groove for containing a second card, the end part of the second card box is provided with a second card sending port communicated with the second clamping groove, the second card sending mechanism comprises a second card sending wheel, the second card sending wheel is arranged close to the second card sending port, the second card output from the second card sending port is contacted with the second card sending wheel, and the second card is output by the second card sending wheel.

3. The dual card slot dispensing device of claim 2, wherein the first card box comprises a first box body, a first card seat and a first elastic member, the first card seat is movably disposed in the first box body, the first elastic member is connected between the first box body and the first card seat, the first card seat presses the first card by an elastic force of the first elastic member, and the outermost first card abuts against the first dispensing wheel; the second card box comprises a second box body, a second card seat and a second elastic piece, the second card seat is movably arranged in the second box body, the second elastic piece is connected between the second box body and the second card seat, the second card seat extrudes the second card through the elasticity of the second elastic piece, and the second card at the outermost side is abutted against the second card sending wheel.

4. The dual card slot card launching device of claim 3, wherein a first guide rail is provided in the first housing, the first card slot being slidably coupled to the first guide rail; a second guide rail is arranged in the second box body, and the second clamping seat is connected to the second guide rail in a sliding mode.

5. The dual card slot card issuing device according to claim 2, wherein the first card issuing mechanism further comprises a first motor and a first driving belt, the first driving belt is connected to the first motor and the first card issuing wheel respectively, and the first motor drives the first card issuing wheel to rotate through the first driving belt and outputs a first card; the second card issuing mechanism also comprises a second motor and a second driving belt, the second driving belt is respectively connected with the second motor and the second card issuing wheel, and the second motor drives the second card issuing wheel to rotate through the second driving belt and outputs a second card.

6. The dual card slot card launching device of claim 2, wherein the card transport mechanism includes a first transport channel and a second transport channel, the first transport channel being disposed in correspondence with the first card launching mechanism, the second transport channel being disposed in correspondence with the second card launching mechanism, the first card launching wheel outputting the first card to the first transport channel, the second card launching wheel outputting the second card to the second transport channel.

7. The dual card slot card dispensing device of claim 6, wherein the card transporting mechanism comprises at least one set of a first clamping wheel set and a second clamping wheel set, the first clamping wheel set is disposed under the first card dispensing opening and the first card dispensing opening, the first clamping wheel set comprises a first driven wheel and a first driving wheel, the first driven wheel is disposed opposite to the first driving wheel, the second clamping wheel set is disposed under the first clamping wheel set, the second clamping wheel set comprises a second driven wheel and a second driving wheel, the second driven wheel is disposed opposite to the second driving wheel, and the first transporting channel is formed between the first driven wheel and the first driving wheel and between the second driven wheel and the second driving wheel.

8. The dual card slot card dispensing device of claim 7, wherein the card transporting mechanism further comprises at least one third clamping roller set, the third clamping roller set is symmetrically disposed with respect to the first clamping roller set, the third clamping roller set is disposed under the second card dispensing opening and the second card dispensing opening, the third clamping roller set comprises a third driven roller and a third driving roller, the third driven roller is disposed opposite to the third driving roller, the second clamping roller set is disposed under the third clamping roller set, the second clamping roller set further comprises a fourth driven roller, the fourth driven roller is disposed opposite to the second driving roller, and the second transporting channel is formed between the third driven roller and the third driving roller and between the fourth driven roller and the second driving roller.

9. The dual card slot card dispensing device of claim 8, wherein the card transporting mechanism further comprises a third motor and a third driving belt, the third driving belt is connected to the third motor, the first driving wheel, the second driving wheel and the third driving wheel, respectively, and the third motor drives the first driving wheel, the second driving wheel and the third driving wheel to rotate through the third driving belt.

10. The dual card slot card dispensing device of claim 6, wherein the dual card slot card dispensing device further comprises a fixing base, the fixing base has a mounting side surface, the first card box, the second card box, the first card dispensing mechanism, the second card dispensing mechanism, and the card conveying mechanism are connected to the mounting side surface, the mounting side surface has a first guide slot and a second guide slot, the first guide slot is disposed corresponding to the first conveying channel, when the first conveying channel conveys the first card, one side edge of the first card is guided by the slot wall of the first guide slot, the second guide slot is disposed corresponding to the second conveying channel, when the second conveying channel conveys the second card, one side edge of the second card is guided by the slot wall of the second guide slot.

11. The dual card slot hairpin device of claim 10 wherein the dual card slot hairpin device further comprises a guide plate disposed opposite the mounting side, the card transport mechanism is connected between the holder and the guide plate, the guide plate is provided with a third guide slot and a fourth guide slot, the third guide slot is disposed corresponding to the first transport path, the other side of the first card is guided by the slot wall of the second guide slot when the first transport path transports the first card, the fourth guide slot is disposed corresponding to the second transport path, and the other side of the second card is guided by the slot wall of the fourth guide slot when the second transport path transports the second card.

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