CN210995355U - Sorting system - Google Patents

Abstract

The utility model relates to a sorting system includes: the card issuing component is provided with a card outlet for outputting cards; the first card receiving assembly is provided with a first card inlet; the second card receiving assembly is provided with a second card inlet; the card feeding assembly is used for receiving the card output by the card outlet, and can move and selectively enable the card to be opposite to the first card inlet or the second card inlet; when the card received by the card sending component is opposite to the first card inlet, the first card receiving component can receive the card through the first card inlet; when the card received by the card sending component is opposite to the second card inlet, the second card receiving component can receive the card through the second card inlet. According to the sorting system, the card feeding mechanism is movably arranged between the card issuing assembly and the card receiving assembly and can be aligned, the card sorting efficiency is high, and the structure is compact.

Description

Sorting system

Technical Field

The utility model relates to a card letter sorting technical field especially relates to letter sorting system.

Background

The existing multiple card certificates for storing information through a chip and/or printing information on the surface of a card usually identify and sort card surface information through manual work, for example, participating certificates of large-scale sports meetings, government meetings and the like need to manually sort out participating certificates and non-participating certificates in advance, and the operation mode is easy to make mistakes due to visual fatigue and has low efficiency. Therefore, the automatic mechanism is urgently needed to replace manual sorting, however, the structure for sorting the cards at present is complex, the sorting operation is inconvenient, and the efficiency is to be improved.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a sorting system for solving the problems of complicated sorting structure, inconvenient operation and low efficiency.

A sorting system for sorting cards, the sorting system comprising:

the card issuing component is provided with a card outlet for outputting cards;

the first card receiving assembly is provided with a first card inlet;

the second card receiving assembly is provided with a second card inlet; and

the card feeding assembly is used for receiving the card output by the card outlet, and the card feeding assembly can move and selectively enable the card to be opposite to the first card inlet or the second card inlet;

when the card received by the card sending component is opposite to the first card inlet, the first card receiving component can receive the card through the first card inlet; when the card received by the card sending component is opposite to the second card inlet, the second card receiving component can receive the card through the second card inlet.

Foretell letter sorting system, it can remove and selectively goes into the bayonet socket with card and first income bayonet socket or second relatively to send the card subassembly, compact structure, simple operation and letter sorting are efficient.

In one embodiment, the card sending assembly comprises a card sending box and a pushing mechanism, the card sending box is used for storing cards, the card outlet is formed in the card sending box, and the pushing mechanism can push the cards in the card sending box out of the card outlet.

In one embodiment, the pushing mechanism includes a first pushing plate and a first pushing driving member, a notch opposite to the card outlet is formed in the card sending box, and the first pushing driving member is connected to the first pushing plate to drive the first pushing plate to extend into the card sending box from the notch, so that the first pushing plate pushes the card out from the card outlet.

In one embodiment, the first card pushing plate comprises a body and an extending end, the extending end is provided with an inclined surface, and the inclined surface is convexly provided with a pulley.

In one embodiment, the number of the extending ends is at least more than two and the extending ends are arranged at intervals so as to adapt to cards with different sizes and push the cards out of the card outlet.

In one embodiment, the first card receiving assembly includes a first card receiving box and a first pushing mechanism, the first card inlet is opened in the first card receiving box, the first pushing mechanism includes a first card receiving plate and a first card receiving driving member, the first card receiving plate includes a fixing portion, a movable portion and an elastic member, the fixing portion is connected with the first card receiving driving member, the fixing portion is rotatably connected with the movable portion, and the elastic member is clamped between the fixing portion and the movable portion, so that the movable portion can be reset after being rotated.

In one embodiment, the second card receiving assembly includes a second card receiving box and a second pushing mechanism, the second card inlet is disposed on the second card receiving box, and the second pushing mechanism can push the card into the second card receiving box through the second card inlet.

In one embodiment, the card feeding assembly includes a fixing plate, a card pressing mechanism, a card conveying mechanism and a card reading module, the card conveying mechanism is connected with the fixing plate for receiving the card output by the card outlet, and the card reading module is disposed on one side of the card conveying mechanism for reading card surface information and/or information of a chip in the card.

In one embodiment, the card feeding assembly further includes a card pressing mechanism, the card pressing mechanism includes a card pressing plate and a card pressing driving member, the card pressing plate is slidably disposed on the fixing plate, and the card pressing driving member is connected to the card pressing plate to drive the card pressing plate to press the card.

In one embodiment, the card conveying mechanism includes a plurality of guide rods, a rotating member and a card conveying driving member, the end portions of the guide rods are fixed to the fixing plate, the rotating member is sleeved on the guide rods, every two guide rods are arranged at an interval and clamp a card between the two rotating members, and the card conveying driving member is connected with the rotating member to drive the rotating member to rotate relative to the guide rods.

Drawings

FIG. 1 is an isometric view of an assembly of the sortation system of the present embodiment;

FIG. 2 is an isometric view of a card-receiving cassette liner in the sorting system of FIG. 1;

FIG. 3 is an isometric view of a card receptacle housing in the sorting system of FIG. 1;

fig. 4 is an isometric view of the second card pusher assembly of the sorting system of fig. 1 in combination with a card;

FIG. 5 is an isometric view of an assembly of the card feed assembly of the sorting system of FIG. 1;

FIG. 6 is an isometric view of a card reading module in the card feed assembly shown in FIG. 5;

FIG. 7 is an isometric view of an assembly of a card receiving assembly of the sorting system of FIG. 1;

fig. 8 is an isometric view of a second one of the card receiving assemblies of fig. 7.

Detailed Description

Referring to fig. 1, a sorting system 10 according to an embodiment may be used for sorting cards such as IC cards, bank cards, identification cards, phone cards, membership cards, etc. storing information on a chip and/or printing information on a surface of the card, or may be used for sorting other identifiable cards such as tag cards. The type of cards that are sorted by the sorting system 10 is not limited herein.

The sorting system 10 includes a card issuing module 100, a card sending module 200, a first card receiving module 300, a second card receiving module 400 and a third card receiving module 500, wherein the card issuing module 100 is used for sending the cards 60 to be sorted, and the card sending module 200 can be moved and selectively aligned with the first card receiving module 300, the second card receiving module 400 and the third card receiving module 500 to receive the cards 60 sent by the card issuing module 100 and convey the cards to different card receiving modules.

Referring to fig. 1 to 3, the card issuing module 100 includes a card issuing box 110 and a pushing mechanism 120, the card issuing box 110 is used for storing the card 60, the card issuing box 110 is provided with a card outlet 111, and the pushing mechanism 120 can push the card in the card issuing box 110 out of the card outlet 111.

Specifically, referring to fig. 2 and 3, the card sending box 110 includes an inner container 101 and an outer casing 102, the outer casing 102 is sleeved outside the inner container 101, the inner container 101 includes a first sidewall 112, a second sidewall 113 and two third sidewalls 114 connected to each other, the first sidewall 112 and the second sidewall 113 are disposed opposite to each other, the two third sidewalls 114 are disposed opposite to each other, and the first sidewall 112, the second sidewall 113 and the two third sidewalls 114 surround to form a cavity 115 for storing the card 60.

In this embodiment, the inner container 101 and the outer shell 102 are separated, so as to facilitate assembly and disassembly of the components. In other embodiments, the inner container 101 and the outer container 102 may be a single structure. In this embodiment, referring to fig. 3, the housing 102 includes a first side 103, a second side 104, and a third side 105 connected to each other, the first side 103 and the second side 104 are disposed opposite to each other to make the inner container 101U-shaped, referring to fig. 2, the first side 103, the second side 104, and the third side 105 of the housing 102 respectively correspond to the first side 112, the second side 113, and the third side 114 of the inner container 101, the third side 105 is provided with a plurality of protrusions 105a, the third side 114 is provided with a plurality of grooves 114a, and the protrusions 105a can be clamped in the grooves 114a to fix the housing 102 and the inner container 101. In other embodiments, the inner container 101 and the outer shell 102 may be fixed by riveting.

Referring to fig. 4, the pushing mechanism 120 includes a first pushing plate 121 and a first pushing driving member 122, the first pushing plate 121 includes a body 123 and an extending end 124 connected to each other, the body 123 is connected to the first pushing driving member 122, referring to fig. 2 and 3, a notch 116 is disposed on each of the first sidewall 112 of the inner container 101 and the first side 103 of the outer shell 102, the notch 116 is communicated with the cavity 115, the size and the position of the notch 116 are such that the end of the extending end 124 abuts against only one card 60 when extending into the cavity 115, so as to prevent two cards 60 from being pushed out at one time, referring to fig. 3, a card outlet 111 opposite to the notch 116 is disposed on each of the second sidewall 113 of the inner container 101 and the second side 104 of the outer shell, the size of the card outlet 111 is larger than the thickness of one card and smaller than the thickness of two cards, when the first pushing driving member 122 drives the first pushing plate to move along a first direction, the extending end 124 extends into the cavity 115 from the notch 116, to push the cards 60 in the cavity 115 out through the card outlet 111 and out one card 60 at a time.

In the present embodiment, the end of the protruding end 124 is tapered in the first direction. In other embodiments, the end of the protruding end 124 may also be curved. In the present embodiment, the first pushing/locking driving member 122 is an air cylinder. In other embodiments, the first card pushing driving member 122 may also be a motor.

Further, in order to better push the card 60, referring to fig. 3, the first pushing plate 121 is further provided with a rolling member 117, and the rolling member 117 is movably disposed on the protrusion 105a of the housing 102 and partially exposed from the protrusion 105 a. Referring to fig. 2, a recess 113b is formed in a bottom wall of the groove 114a of the inner container 101, when the inner container 101 is engaged with the housing 102, the protrusion 105a is clamped in the groove 114a, the roller 117 is inserted into the recess 113b and partially exposed out of the recess 113b, when the first card pushing plate 121 pushes the card 60, the movement of the card 60 causes the roller 117 to roll along a first direction relative to the card 60, so that the roller 117 is used to enhance the moving smoothness of the card 60, and the card 60 is prevented from being damaged by friction with the third side wall 114. In this embodiment, the rolling member 117 is a pulley. In other embodiments, the rolling members 117 may also be balls.

Because the rolling member 117 is provided, the card 60 may be inclined during the pushing process, and when the protruding end 124 is completely located in the cavity 115 after one card 60 is pushed out by the protruding end 124, in order to prevent the next card 60 from directly contacting the protruding end 124 to scratch, referring to fig. 4, the protruding end 124 is provided with an inclined surface 124a, and the inclined surface 124a is convexly provided with a pulley 124b, so that the pulley 124b can guide and protect the card 60.

In order to improve the inclination of the card 60 during the pushing process, in the present embodiment, referring to fig. 4, the main body 123 includes a main plate 125, a first sub-plate 126 and a second sub-plate 127, the first sub-plate 126 and the second sub-plate 127 are both vertically connected to the main plate 125, the first sub-plate 126 is connected to the second pushing/locking driving member 133, the second sub-plate 127 is connected to the protruding end 124, and the main plate 125 plays a role in limiting when the main body 123 moves along the first direction.

In this embodiment, the second sub-plate 127 is U-shaped to form two protruding arms 127a, and the two protruding arms 127a are respectively connected to the two protruding ends 124 to accommodate cards 60 with different sizes and push the card 60 out of the card outlet 111, for example, when the card 60 is small in size, one of the protruding ends 124 abuts against the card 60 and pushes the card 60 out of the card outlet 111; when the card 60 is large in size, the other protruding end 124 can also abut against the card 60 and push the card 60 out of the card outlet 111, so that the card 60 is stressed more uniformly, and the card 60 is prevented from being stressed partially and inclined in the pushing process. The distance between the two protruding ends 124 at least meets the condition that when the protruding end 124 completely extends into the cavity 115, the pulley 124b is staggered with the rolling member 117, so as to avoid the card 60 from being stuck or damaged due to the excessive local stress of the card 60 caused by the pulley 124b opposite to the rolling member 117. In other embodiments, the second sub-plate 127 may also be E-shaped or in other shapes, so that the protruding arms 127a of the second sub-plate 127 are at least larger than two, and the protruding arms 127a are spaced apart, and the distance between the protruding arms 127a can be adjusted according to actual requirements, so as to adapt to more cards 60 with different sizes and push the cards 60 out of the card outlet 111.

In the present embodiment, the second sub-plate 127 and the protruding end 124 are integrally formed. In other embodiments, the second sub-plate 127 and the protruding end 124 may be a split structure.

Furthermore, in order to prevent the card 60 from being skewed during the pushing process, referring to fig. 2, the card-issuing assembly 100 further includes a card-issuing supporting mechanism 130, the card-issuing supporting mechanism 130 includes a second card-pushing plate 131, a second card-pushing sliding rail 132 and a second card-pushing driving member 133, the first side wall 112 and the second side wall 113 both have the second card-pushing sliding rail 132, the second card-pushing plate 131 includes a front surface and two side surfaces, the second card-pushing plate 131 is located in the cavity 115, the two side surfaces are respectively slidably connected to the second card-pushing sliding rail 132, the second card-pushing sliding rail 132 extends along a second direction, the second card-pushing driving member 133 is connected to the second card-pushing plate 131, when a plurality of cards 60 are placed in the cavity 115 side by side, the second card-pushing driving member 133 drives the second card-pushing plate 131 to slide along the second direction, so as to push the card 60 from the rear end to the front end of the cavity 115, and the card 60 is always supported between the second card-pushing plate 131 and the, preventing the card 60 from skewing during the pushing process.

In this embodiment, referring to fig. 3 and fig. 1, the second pushing driving member 133 includes a driving portion, a first rod portion and a second rod portion (not shown in the drawings), the driving portion is located outside the cavity 115 and connected to the second pushing plate 131 through the second rod portion to drive the second pushing plate 131 to move along the second direction, referring to fig. 2, the first sidewall 112 of the inner container 101 is provided with a first hole 111a, the first side surface 103 of the outer shell 102 is provided with a second hole (not shown in the drawings), and when the first rod portion moves towards the second pushing plate 131 along the second direction, the first rod portion is inserted into the first hole 111a and the second hole to further fix the inner container 101 and the outer shell 102. The second push latch driver 133 is a cylinder. In other embodiments, the second card pushing driving member 133 may also be a servo motor.

Referring to fig. 1, the card feeding assembly 200 is movably disposed between the card issuing assembly 100 and the card receiving assembly 200, and the card feeding assembly 200 can move and selectively align the card with the card issuing assembly 100 and the card receiving assembly 300.

Specifically, referring to fig. 5, for convenience of installation and fixation, an installation plate 140 is further provided, two sides of the installation plate 140 are respectively connected with the card issuing component 100 and the card receiving component 300, a guide rail 141 is provided on the installation plate 140, the guide rail 141 extends along a third direction, the third direction is perpendicular to both the first direction and the second direction, and the card sending component 200 is slidably disposed on the guide rail 141.

Referring to fig. 5, the card feeding assembly 200 includes a fixing plate 210, a card pressing assembly 220 and a card transferring assembly 230, wherein the fixing plate 210 includes a first fixing plate 211, a second fixing plate 212 and a third fixing plate 213 connected to each other, the first fixing plate 211 and the second fixing plate 212 are disposed in parallel at an interval, and the third fixing plate 213 is slidably connected to the guide rail 410, so that the card feeding assembly 200 can slide along a third direction (i.e., slide up and down). The card pressing assembly 220 includes a pressing plate 221 and a card pressing driving member 222, the pressing plate 221 penetrates through the first fixing plate 211, and the card pressing driving member 222 is connected to the pressing plate 221 to drive the pressing plate 221 to move along the third direction and extend into the gap between the first fixing plate 211 and the second fixing plate 212 to press the card 60. In this embodiment, the press-fit driving member 222 is an air cylinder. In other embodiments, the press stud driver 222 may also be a motor.

Referring to fig. 5, the card transferring assembly 230 includes a plurality of guide rods 231, a rotating member 232 and a card transferring driving member 233, two ends of the guide rods 231 are respectively fixed to the first fixing plate 211 and the second fixing plate 212, the rotating member 232 is sleeved on the guide rods 231, the card transferring driving member 233 is connected with the rotating member 232 to drive the rotating member 232 to rotate around the guide rods 231, every two guide rods 231 are arranged at intervals and clamp the card 60 between the two rotating members 232, and a gap between the two rotating members 232 is located at a position where the card outlet 111 of the card issuing assembly 100 and the card receiving assembly 300 are aligned, so that the rotating member 232 rotates to receive the card 60 sent by the card issuing assembly 100 and transmit the card to the card receiving assembly 300.

Further, in order to distinguish different types of cards 60, the card feeding assembly 200 further includes a card reading module 240 and a control module (not shown in the drawings), which are electrically connected to each other, please refer to fig. 5 and 6, the card reading module 240 is fixed to the third fixing plate 213 and is inserted into the gap between the first fixing plate 211 and the second fixing plate 212 for emitting a scanning signal 241 to photograph and identify the card surface information of the card 60 and/or the information of the chip in the card 60, and the control module is connected to the card pressing assembly 220. Specifically, the card reading module 240 is a reader/writer.

Furthermore, in order to distinguish the cards 60 with different sizes, the card feeding assembly 200 further includes a channel sensor for detecting the size of the card 60, the channel sensor is disposed on one side of the guide rod 231 and electrically connected to the control module. When the card 60 is received in the card conveying assembly 230, the card reading module 240 detects the size and the type of the card 60, and when the card 60 is small, the control module controls the pressing plate 221 to press the card 60 downwards to prevent the card 60 from being inclined in the transmission process; when the card 60 is large in size, the control module controls the pressing plate 221 to lift upward, and referring to fig. 5, the abutting positions of the first fixing plate 211 and the second fixing plate 212 with the card 60 are both provided with a receiving groove 211a for limiting the card 60.

Referring to fig. 7, the first card receiving assembly 300 includes a first card receiving box 310 and a first pushing mechanism 320, wherein a first card slot 311 is opened in the first card receiving box 310, and the first pushing mechanism 320 can push the card 60 into the first card receiving box 310 through the first card slot 311.

Specifically, the structure of the card receiving box 310 is identical to that of the card sending box 110, and will not be described in detail here. Referring to fig. 7 and 8, the first pushing mechanism 320 includes a first card receiving plate 321 and a first card receiving driving member 322, the first card receiving plate 321 includes a fixed portion 323, a movable portion 324 and an elastic member (not shown in the figures), the fixed portion 323 is connected to the first card receiving driving member 322, the fixed portion 323 is rotatably connected to the movable portion 324, and the elastic member is clamped between the fixed portion 323 and the movable portion 324, so that the movable portion 324 can be reset after rotating. When the card feeding assembly 200 pushes the card 60 to the card receiving box 310, the card 60 presses the movable portion 324, the movable portion 324 rotates, and after the card 60 crosses the movable portion 324, the movable portion 324 resets and limits the card 60, so that the card 60 is prevented from moving in the opposite direction of pushing.

Further, to prevent the card 60 from skewing during the pushing process, the card receiving assembly 300 further includes a card receiving holding mechanism 330. Specifically, the card receiving abutting mechanism 330 includes a second card receiving plate 331, a second card receiving slide rail 332 and a second card receiving driving member 333, and the second card receiving plate 331, the second card receiving slide rail 332 and the first card receiving driving member 333 are completely the same as the second card pushing plate 131, the second card pushing slide rail 132 and the second card pushing driving member 133, and will not be described in detail here.

Referring to fig. 1, the second card receiving assembly 400 has a structure identical to that of the first card receiving assembly 300, the second card receiving assembly 400 includes a second card receiving box (identical to the first card receiving box 310) and a second pushing mechanism (identical to the first pushing mechanism 320), the second card inserting opening (identical to the first card inserting opening 311) is opened in the second card receiving box, and the second pushing mechanism can push the card into the second card receiving box through the second card inserting opening.

In the present embodiment, the second card receiving box and the first card receiving box 310 are stacked and arranged in the same direction, and the second pushing mechanism and the first pushing mechanism 320 are arranged in the same direction. In other embodiments, the second card receiving box and the first card receiving box 310 may be disposed on the same horizontal plane, for example, the second card receiving box and the first card receiving box 310 are disposed in a staggered manner, and the card feeding assembly 200 can move horizontally and align with the second card receiving box and the first card receiving box 310 respectively, at this time, the card pushing directions of the second pushing mechanism and the first pushing mechanism 320 are opposite.

In order to facilitate the separate loading of the cards 60 of different types and sizes, in the present embodiment, a third card receiving assembly 500 is further provided, in the present embodiment, the third card receiving assembly 500 and the second card receiving assembly 400 are arranged side by side at an interval, the first card receiving assembly 300 and the second card receiving assembly 400 are arranged in an up-down stacking manner, the card sending assembly 200 is slidably arranged between the first card receiving assembly 300 and the card sending assembly 100, and the card sending assembly 200 can be lifted up and down to align with the first card receiving assembly 300, the second card receiving assembly 400 and the third card receiving assembly 500, and sort the cards to different card inlets. In other embodiments, the number and the placement position of the card receiving assemblies can be adjusted according to actual requirements.

The sorting process of the sorting system 10 is as follows: a plurality of cards 60 to be sorted are stored in the card sending box 110, the cards 60 are pushed to the front end from the rear end of the card sending box 110 along the second direction through the card sending abutting mechanism 130, and the cards 60 are pushed out from the card outlet 111 of the card sending box 110 through the pushing mechanism 120; the card 60 is pushed to the card feeding assembly 200, meanwhile, the channel sensor detects the size of the card 60, when the card 60 is small in size, the control module controls the pressing plate 221 to press the card 60 downwards, and when the card 60 is large in size, the control module controls the pressing plate 221 to lift upwards, so that the card 60 is prevented from being inclined in the conveying process; the card reading module 240 then identifies the information of the cards 60 for sorting, and the control module controls the card feeding assembly 200 to ascend and descend and align with different card inlets so as to sort the cards 60 of different categories to different card receiving assemblies.

In the sorting system 10, the card feeding assembly 200 is slidably disposed between the card receiving assembly 300 and the card issuing assembly 100, and the card feeding assembly 200 can move and selectively align with different card inlets to receive the cards 60 sent by the card issuing assembly 100 and convey the cards to different card receiving assemblies.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A sorting system for sorting cards, the sorting system comprising:

the card issuing component is provided with a card outlet for outputting cards;

the first card receiving assembly is provided with a first card inlet;

the second card receiving assembly is provided with a second card inlet; and

the card feeding assembly is used for receiving the card output by the card outlet, and the card feeding assembly can move and selectively enable the card to be opposite to the first card inlet or the second card inlet;

when the card received by the card sending component is opposite to the first card inlet, the first card receiving component can receive the card through the first card inlet; when the card received by the card sending component is opposite to the second card inlet, the second card receiving component can receive the card through the second card inlet.

2. The sorting system according to claim 1, wherein the card issuing assembly comprises a card issuing box and an ejecting mechanism, the card issuing box is used for storing cards, the card outlet is opened in the card issuing box, and the ejecting mechanism can eject the cards in the card issuing box from the card outlet.

3. The sorting system according to claim 2, wherein the ejecting mechanism comprises a first ejecting plate and a first ejecting driving member, the card slot is provided with a notch opposite to the card outlet, the first ejecting driving member is connected to the first ejecting plate to drive the first ejecting plate to extend into the card slot from the notch, and the first ejecting plate is enabled to eject the card from the card outlet.

4. The sortation system as claimed in claim 3, wherein said first ejector plate includes a body and an extended end, said extended end having an inclined surface, said inclined surface having a pulley thereon.

5. A sorting system according to claim 4, wherein the number of projecting ends is at least two and spaced to accommodate different size cards and to push the cards out of the outlet.

6. The sorting system according to claim 1, wherein the first card receiving assembly comprises a first card receiving box and a first pushing mechanism, the first card inlet is opened in the first card receiving box, the first pushing mechanism comprises a first card receiving board and a first card receiving driving member, the first card receiving board comprises a fixed part, a movable part and an elastic member, the fixed part is connected with the first card receiving driving member, the fixed part is rotatably connected with the movable part, and the elastic member is clamped between the fixed part and the movable part, so that the movable part can be reset after being rotated.

7. The sorting system according to claim 1, wherein the second card receiving assembly includes a second card receiving box and a second pushing mechanism, the second card inlet is opened in the second card receiving box, and the second pushing mechanism can push the card into the second card receiving box through the second card inlet.

8. The sorting system according to claim 1, wherein the card feeding assembly comprises a fixing plate, a card conveying mechanism and a card reading module, the card conveying mechanism is connected with the fixing plate and used for receiving the cards output by the card outlet, and the card reading module is arranged on one side of the card conveying mechanism and used for reading card surface information and/or information of chips in the cards.

9. The sorting system according to claim 8, wherein the card feeding assembly further comprises a card pressing mechanism, the card pressing mechanism comprises a card pressing plate and a card pressing driving member, the card pressing plate is slidably disposed on the fixing plate, and the card pressing driving member is connected to the card pressing plate to drive the card pressing plate to press the card.

10. The sorting system according to claim 8, wherein the card feeding mechanism comprises a plurality of guide rods, a rotating member and a card feeding driving member, the ends of the guide rods are fixed to the fixing plate, the rotating member is sleeved on the guide rods, every two guide rods are arranged at intervals and clamp a card between the two rotating members, and the card feeding driving member is connected with the rotating member to drive the rotating member to rotate relative to the guide rods.

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