CN115762005A - Card issuing device - Google Patents

Abstract

The invention discloses a card issuing device which comprises a card storage platform, a card inlet overturning assembly and a card outlet rotating table, wherein the card inlet overturning assembly is positioned between the card storage platform and the card outlet rotating table; the card storage platform comprises a horizontal rotating platform, and N card storage grooves for mounting card storage clips are arranged on the horizontal rotating platform in parallel; the outer side of the horizontal rotating platform is provided with a card outlet position; the rotary card outlet table comprises a support frame, a card pushing support and a card passing assembly, the support frame is of a vertical annular structure, and a card inlet notch and a card outlet notch are formed in the support frame; the edge of dialling the card support is provided with M and dials the draw-in groove, it is located the rear side of support frame to dial the draw-in groove, advance the both ends of card upset subassembly and correspond with going out the screens and advancing the card breach respectively. The card storage platform and the card rotary outlet platform can be effectively combined together through the card inlet overturning assembly, so that the rotary transmission of the cards is realized, and the transmission efficiency and the transmission accuracy of the cards are greatly improved.

Description

Card issuing device

Technical Field

The invention relates to the field of card issuing, in particular to a card issuing device.

Background

At the entrance of the highway, the card is required to be read and written and then delivered to the driver, the card which is not read and written is stored in the card storage platform, and the card is transmitted to the card reader and writer through the transmission device to be read and written and then delivered to the driver.

In the prior art, the card storage device has a small volume and is not accurate enough in card storage efficiency, two cards can be discharged together when the cards are discharged, or the cards cannot be discharged effectively, so that the efficiency of subsequent card reading and writing and card passing links is greatly reduced. Therefore, the efficient and accurate storage card clip is a precondition for improving the card passing efficiency.

The existing card passing device is transmitted in a mode of adding a conveying line to a metal plate, the card is not accurately positioned in the conveying mode, the card clamping phenomenon can often occur, and the card sending efficiency and the precision of the card passing device are not facilitated to be improved.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the problems in the related art. Therefore, the invention aims to provide the card issuing device, which can effectively combine the card storage platform and the card outlet rotating platform together through the card inlet overturning assembly, realize the rotation transmission of cards and greatly improve the transmission efficiency and the transmission accuracy of the cards.

In order to achieve the purpose, the following technical scheme is adopted in the application: a card issuing device comprises a card storage platform, a card inlet overturning assembly and a rotary card outlet platform, wherein the card inlet overturning assembly is positioned between the card storage platform and the rotary card outlet platform;

the card storage platform comprises a horizontal rotating platform, and N card storage grooves for mounting card storage clips are arranged on the horizontal rotating platform in parallel; the outer side of the horizontal rotating platform is provided with a card outlet position; the center of the horizontal rotating platform is provided with a card pushing assembly, and the card pushing assembly is opposite to the card outlet position; the horizontal rotating platform is connected with the horizontal rotating driving piece; n is an integer greater than 0;

the rotary card outlet table comprises a support frame, a card pushing support and a card passing assembly, the support frame is of a vertical annular structure, and a card inlet notch and a card outlet notch are formed in the support frame; the edge of the card-shifting bracket is provided with M card-shifting grooves which are positioned at the rear side of the support frame, and the card-shifting bracket is connected with a vertical rotary driving piece; m is an integer greater than 1; the card delivering assembly is opposite to the card outlet notch;

the two ends of the card-feeding overturning assembly correspond to the card-discharging position and the card-feeding notch respectively.

Further, the card storage clip is vertically arranged in a card storage slot of the card storage platform; a card pushing opening is formed in the side face, close to the card pushing assembly, of the card storage clip, and a card outlet opening is formed in the side face, far away from the card pushing assembly, of the card storage clip.

Further, the size of the push plate in the vertical direction is smaller than that of the push opening.

Further, the height of the card pushing opening is smaller than the thickness of the card; the height of the card outlet is larger than the thickness of the card and smaller than twice the thickness of the card.

Furthermore, a foolproof positioning block is arranged on the side edge of the card storage clip; the cross-sectional area of the top of the foolproof positioning block in the horizontal direction is larger than that of the bottom of the foolproof positioning block in the horizontal direction; and a positioning groove matched with the fool-proof positioning block is arranged in the card storage groove.

Furthermore, the support frame comprises a first support frame and a second support frame, and a card inlet notch and a card outlet notch are formed at the splicing position of the first support frame and the second support frame.

Furthermore, the rear ends of the first support frame and the second support frame are provided with folded edges facing the card drawing groove; one end and the side edge of the card pulling groove close to the center of the card pulling support are provided with folded edges facing the support frame.

Furthermore, one end of the card pulling groove close to the center of the card pulling support is provided with a hollow folded edge.

Furthermore, a card feeding overturning assembly is arranged on one side of the card feeding gap, which is far away from the card shifting support, and an upward folded edge is arranged on one side of the card feeding overturning assembly, which is close to the support frame; the card feeding overturning assembly comprises a card feeding overturning plate and a card feeding overturning stepping motor, the card feeding overturning plate is right opposite to the card feeding notch, and the card feeding overturning stepping motor drives the card feeding overturning plate to overturn towards the card feeding notch.

Furthermore, the card inlet notch is positioned at the bottom of the support frame, and a card reader-writer is arranged on the side edge of the card outlet notch; and a card rejecting box is arranged below the card inlet gap.

Compared with the prior art, the technical scheme provided by the embodiment of the application has the following advantages: the card storage platform can simultaneously accommodate a plurality of card storage clips, and vertically stacked cards are contained in each card storage clip, so that the card capacity of the card storage platform is obviously improved; in the application, the supporting frame is fixed and is provided with a card inlet gap and a card outlet gap; dial and form the space that holds the card between draw-in groove and the support frame, vertical rotary driving spare drives simultaneously and dials the draw-in groove and advances the card from advancing card breach, and rotatory card passing to going out card breach department has improved the efficiency and the precision of card transmission greatly in this application rotation type transmission mode.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

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, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

In the drawings:

FIG. 1 is a side view of a card storage platform of the present application;

FIG. 2 is a top view of the card storage platform of the present application;

FIG. 3 is a rear view of the memory card clip of the present application;

FIG. 4 is a front view of the memory card clip of the present application;

FIG. 5 is a side view of the memory card clip of the present application;

FIG. 6 is a schematic front view of a rotary out chuck in the present application;

FIG. 7 is a side view of the rotating out chuck table of the present application;

reference numerals: 1. a first handle; 2. a second handle; 3. pushing the bayonet; 4. a bayonet outlet; 5. a fool-proof positioning block; 6. a card storage cartridge clip; 11. a horizontal rotating table; 12. a card pushing electric cylinder; 13. pushing the plate; 14. mounting a plate; 15. a horizontal rotation driving member; 21. a support frame; 22. a card-shifting bracket; 23. a card slot is pulled; 24. a card passing electric cylinder; 25. a card transferring plate; 26. a card-feeding turning stepping motor; 27. a card feeding turnover plate; 28. a vertical rotary drive; 29. and (5) rejecting the card box.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings. In the following description, it is to be understood that the directions or positional relationships indicated by "front", "rear", "upper", "lower", "left", "right", "longitudinal", "lateral", "vertical", "horizontal", "top", "bottom", "inner", "outer", "head", "tail", and the like are configured and operated in specific directions based on the directions or positional relationships shown in the drawings, and are only for convenience of describing the present invention, and do not indicate that the referred mechanism or element must have a specific direction, and thus, are not to be construed as limiting the present invention.

It should also be noted that, unless expressly specified or limited otherwise, the terms "mounted," "connected," "secured," "disposed," and the like are to be construed broadly and encompass, for example, fixed connections as well as removable connections or integral parts; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. When an element is referred to as being "on" or "under" another element, it can be "directly" or "indirectly" on the other element or intervening elements may also be present. The terms "first", "second", "third", etc. are only for convenience in describing the present technical solution, and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated, whereby the features defined as "first", "second", "third", etc. may explicitly or implicitly include one or more of such features. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, mechanisms, circuits, and methods are omitted so as not to obscure the description of the present invention with unnecessary detail.

Referring to fig. 1-7, a card issuing device provided by the present application includes a card storage platform, a card entering flip-over assembly and a card rotating-out table, wherein the card entering flip-over assembly is located between the card storage platform and the card rotating-out table;

the card storage platform comprises a horizontal rotating platform 11, and N card storage grooves for mounting the card storage clips 6 are arranged on the horizontal rotating platform 11 in parallel; the outer side of the horizontal rotating platform 11 is provided with a card outlet position; a card pushing component is arranged at the center of the horizontal rotating platform 11 and is opposite to the card outlet position; the horizontal rotating platform 11 is connected with a horizontal rotating driving piece 15; n is an integer greater than 0;

the rotary card outlet table comprises a support frame 21, a card pushing support 22 and a card delivering assembly, the support frame 21 is of a vertical annular structure, and a card inlet gap and a card outlet gap are formed in the support frame 21; the edge of the card-shifting bracket 22 is provided with M card-shifting grooves 23, the card-shifting grooves 23 are positioned at the rear side of the supporting frame 21, and the card-shifting bracket 22 is connected with a vertical rotary driving piece; m is an integer greater than 1; the card delivering component is opposite to the card outlet notch;

the two ends of the card-feeding overturning assembly respectively correspond to the card-discharging position and the card-feeding notch.

In the application, the card storage platform can simultaneously accommodate a plurality of card storage clips 6, and vertically stacked cards are contained in each card storage clip 6, so that the card capacity of the card storage platform is obviously improved; in the application, the support frame 21 is fixed and is provided with a card inlet gap and a card outlet gap; dial the space that forms between draw-in groove 23 and the support frame 21 and hold the card, vertical rotary driving piece 28 drives simultaneously and dials the draw-in groove and advance the card from advancing card breach, and rotatory card passing to going out card breach department has improved the efficiency and the precision of card transmission greatly to this application rotation type transmission mode.

Example 1

The card distributing device comprises a card storage platform, a card inlet overturning assembly and a card outlet rotating table, wherein the card inlet overturning assembly is positioned between the card storage platform and the card outlet rotating table; the two ends of the card feeding turnover assembly correspond to the card discharging position and the card feeding gap respectively and are used for conveying the cards pushed out of the card storage platform to the card feeding gap of the rotary card discharging platform.

The card storage platform comprises a horizontal rotating platform 11 and a card storage clip 6, wherein N card storage slots are arranged on the horizontal rotating platform 11 in parallel; the outer side of the horizontal rotating platform 11 is provided with a card outlet position; the horizontal rotating platform is connected with the horizontal rotating driving piece; n is an integer greater than 0.

The play screens are fixed motionless in this application, and the card in all storage card clip all can go out the card in a play screens. The horizontal rotation driving piece drives the horizontal rotation platform and the card storage clip fixed in the horizontal rotation platform to rotate, and when one of the card storage clip rotates to the position of the card outlet position, the card in the card storage clip is pushed out by the card pushing assembly.

In the present application, there may be a plurality of card slots, for example, as shown in fig. 1 and fig. 2, there are 12 card slots, and 12 card clips may be correspondingly installed in the card slots. When the storage card clip is not positioned in the card outlet position, the storage card clip can be taken down for card loading or replacement. The card storage slot is positioned on the upper surface of the horizontal rotating platform, so that the card storage clip is convenient to place and install.

The horizontal rotation driving member 15 is fixed to the bottom of the horizontal rotation table 11 by a mounting plate 14. The horizontal rotation driving member 15 drives the horizontal rotation platform 11 to rotate by an angle equal to an included angle between two adjacent card storage slots. After each rotation, the card storage clip can move to the position of the card outlet.

The center of the rotating platform is provided with a card pushing component which is opposite to the card outlet position. The card pushing assembly comprises a card pushing electric cylinder 12 and a pushing plate 13, and the output end of the card pushing electric cylinder 12 is connected with the pushing plate 13; the pusher 13 is adapted to push the cards at the bottom of the magazine 6 deep into the magazine.

The card storage clip 6 is vertically arranged in a card storage slot of the card storage platform; the side of the card storage clip 6 close to the card pushing assembly is provided with a card pushing opening 3, and the side far away from the card pushing assembly is provided with a card outlet opening 4.

The card storage clip 6 is vertically arranged in a card storage groove of the card storage platform; the cards are vertically stacked inside the card magazine 6, that is to say the cards are horizontally extended, which are stacked in the vertical direction; in consideration of the situation that the card is deformed in long-term use, the inner size of the card storage clip 6 in the application can be slightly larger than the size of the card, so that the card storage clip is compatible with deformed cards or cards with different specifications. The height of the card storage clip 6 in the application can be designed according to actual requirements; because the card outlet 4 is positioned at the bottom, the space at the top can be used for placing cards.

The bottom of two relative sides is provided with respectively in the storage card cartridge clip 6 in this application and pushes away bayonet socket 3 and play bayonet socket 4, and the size that goes out bayonet socket 4 is greater than the size that pushes away bayonet socket 3. Specifically, the size of the card outlet 4 refers to the size of the opening of the card outlet 4 in the side of the card storage clip 6, and firstly, the size of the opening needs to be matched with the size of the card, namely, the size is slightly larger than the size of the card, so as to ensure that the card can come out. Meanwhile, in order to avoid the overlarge bayonet 4, the size of the bayonet 4 is limited to be larger than that of one card and smaller than that of two cards; the size definition is mainly directed to the definition of the card outlet 4 in the vertical direction, that is, the height of the card outlet 4 is larger than the thickness of one card but smaller than the thickness of two cards. In the horizontal direction, the size of the card outlet 4 is slightly larger than the width of the card.

The size of the card pushing opening 3 can be smaller than that of the card, and only the pushing plate 13 needs to be ensured to enter the card storage clip 6 through the card pushing opening 3, and a force towards the direction of the card outlet 4 is given to the card. The pusher 13 extending into the interior of the magazine 6 may be of a size smaller than the card size to ensure that the card can only exit through the card outlet 4 and not through the card ejection opening 3.

In order to ensure that the card can be smoothly pushed out, the center of the card pushing opening 3 needs to be overlapped with the center of the card outlet 4.

In practical applications, the card outlet 4 needs to face a specific direction for card discharging, which ensures that the position of the card storage clip 6 in the card storage platform is correctly installed, i.e. one side of the card outlet 4 in the card storage clip 6 faces the card outlet of the card storage platform, and once the card is incorrectly placed, the card cannot be discharged.

In order to avoid the position error of the card-out cartridge clip, the side edge of the card storage cartridge clip 6 is also provided with a fool-proof positioning block 5; the sectional area of the top of the fool-proof positioning block 5 in the horizontal direction is larger than that of the bottom of the fool-proof positioning block in the horizontal direction; meanwhile, a positioning groove matched with the fool-proof positioning block 5 is further arranged in the card storage groove. Through the cooperation of preventing slow-witted locating piece 5 and constant head tank, ensure that the position installation of storing up card clip 6 is correct, in case the direction of storing up card clip 6 is put conversely, then prevent that slow-witted locating piece 5 can't get into in the constant head tank.

As a specific embodiment, the storage card clip 6 is a rectangular structure in the application, the bottom of the front end face and the bottom of the rear end face of the rectangular structure are respectively provided with the card pushing opening 3 and the card outlet 4, and the left side and/or the right side of the storage card clip 6 are respectively provided with the fool-proof positioning blocks 5. That is to say, prevent slow-witted locating piece 5 can set up on left side or right side alone, like this when the storage card clip 6 is reversed, prevent that slow-witted locating piece 5 also is reversed, can't place in the constant head tank. Simultaneously, prevent slow-witted locating piece 5 also can set up simultaneously on the left side and the right side of rectangle storage card clip 6, and the left side and the right side prevent slow-witted locating piece 5 asymmetry, like this when storage card clip 6 is put conversely, prevent that slow-witted locating piece 5 also can't place in the constant head tank.

As a specific example, the fool-proof positioning block 5 in the present application includes a top positioning block and a bottom positioning block, and the sectional area of the bottom positioning block in the horizontal direction is larger than the sectional area of the top positioning block in the horizontal direction. Can avoid storing up card clip 6 to put on the vertical direction is turned over like this, when storing up card clip 6 on the vertical direction is turned over, prevent slow-witted locating piece 5 unable and the positioning groove looks adaptation, can't install storing up card clip 6 in the card storage platform.

As a specific embodiment, the top locating piece is the cuboid in this application, and the bottom locating piece is the trapezoidal body, and the bottom surface of top locating piece and the top surface coincidence of bottom locating piece. Can also set up the locating part on the contact surface of the two, set up the draw-in groove with setting element looks adaptation in the constant head tank simultaneously, ensure that storage card cartridge clip 6 only when correctly placing, prevent slow-witted locating piece 5 and could install with the constant head tank adaptation, otherwise, when storage card cartridge clip 6 about when arbitrary one side is put upside down from top to bottom, prevent slow-witted locating piece 5 all can't install with the constant head tank adaptation.

In the application, a first handle 1 is arranged at the top of the card storage clip 6; the first handle 1 can drive the card storage clip 6 to move, and the card storage clip 6 is carried before the card storage platform.

The side of storing up card cartridge clip 6 in this application still is provided with second handle 2, and second handle 2 also can be used for placing storing up card cartridge clip 6 in the storing up card platform. Because the card storage platform and the card storage clip 6 both have a certain height, the handle at the side is more helpful for the operation of personnel.

The rotary card outlet table comprises a support frame 21, a card pushing support 22 and a card passing assembly, wherein the support frame 21 is of a vertical annular structure, and a card inlet notch and a card outlet notch are formed in the support frame 21; the edge of the card-shifting bracket 22 is provided with M card-shifting grooves 23, the card-shifting grooves 23 are positioned at the rear side of the supporting frame 21, and the card-shifting bracket 22 is connected with a vertical rotary driving piece 28; m is an integer greater than 1. The card delivery assembly is opposite to the card outlet notch and used for pushing the card in the card pushing groove 23 at the card outlet notch out of the card pushing groove 23.

Vertical rotary driving spare 28 sets up in this application and is dialling the rear end of card support, and dials the holistic center department of card support and connect vertical rotary driving spare, simultaneously, dials the center department of card support and is connected to through the connecting rod and dials draw-in groove 23, dials draw-in groove 23 and is located the rear side of support frame 21, and coincides with annular support frame, dials draw-in groove 23 promptly and encloses into circular structure.

In order to facilitate the setting of entering the card breach and going out the card breach in the support frame 21, support frame 21 includes first support frame 21 and second support frame 21 in this application, and just first support frame 21 and second support frame 21 butt joint splice into the ring form together, and in the position department of the two concatenation, set up two breachs, be respectively for entering the card breach and going out the card breach. The support 21 is stationary in this application and its purpose is to form two indentations.

Dial card support 22's edge in this application and be provided with and dial draw-in groove 23, dial draw-in groove 23 and just in time be located the rear end of support frame 21, dial the inside space that holds the card that forms of draw-in groove 23, dial draw-in groove 23 and be close to the one end of dialling card support 22 center and be provided with the hem towards support frame 21, the side of dialling draw-in groove 23 is provided with the hem towards support frame 21. The hem in dialling draw-in groove 23 is used for fixing spacing to the card wherein.

In the application, the rear ends of the first support frame 21 and the second support frame 21 are provided with folded edges facing the card drawing groove, that is, the card inlet gap and the card outlet gap are not provided with folded edges, and the folded edges in the support frames 21 are used for limiting one end of a card far away from the center of the support frames 21; meanwhile, the position of the card outlet gap is not limited by one end of a plurality of cards far away from the center of the support frame 21, and the cards need to be pushed out of the gap; the card is limited by the folded edge in the card-feeding turnover plate 27 at the inlet gap, and the undelivered card is removed through the card-feeding gap.

In the application, a card feeding turnover assembly is arranged on one side of the card feeding gap, which is far away from the card shifting support 22, and comprises a card feeding turnover plate 27 and a card feeding turnover stepping motor 26, wherein the card feeding turnover plate 27 is just opposite to the card feeding gap, the card feeding turnover stepping motor 26 drives the card feeding turnover plate 27 to turn over towards the card feeding gap, the turning over refers to that an output shaft of the turnover stepping motor is taken as a center, the card feeding turnover plate 27 turns over upwards from a plane vertical to the support frame 21 to a plane parallel to the support frame 21, or turns over downwards from a plane parallel to the support frame 21 to a plane vertical to the support frame 21; wherein, the output shaft of the turning stepping motor is parallel to the plane of the supporting frame 21.

The card-entering turnover plate 27 is provided with a hem facing upwards at one end close to the support frame 21 in the application. The folded edge is similar to the folded edge at the rear end of the support frame 21 and is used for limiting the bottom of the card entering the card gap.

Vertical rotary driving piece 28 angle of rotation at every turn equals adjacent two angle of dialling between the draw-in groove 23 in this application, simultaneously, in order to ensure to pick the card convenience, along the direction of rotation of dialling draw-in groove 23 in this application, advance the card breach and go out the card breach and be in adjacent position, and go out the next station of card breach for advancing the card breach, that is to say, on the direction of rotation of dialling draw-in groove 23, advance the card breach and go out and be provided with the storage card station between the card breach.

As a specific embodiment, the number of the card-dialing slots 23 in the present application is 4, and the card-dialing slots 23 are uniformly distributed in the card-dialing support 22, and an angle between adjacent card-dialing slots 23 is 90 °. The card inlet notch is located at the bottom of the support frame 21, and the card outlet notch is located at the left side or the right side of the support frame 21, and is specifically determined according to the rotation direction of the card-dialing support 22.

As a specific embodiment, the card is rectangular in the present application, the card pushing slot 23 is also rectangular, when the card is located in the card pushing slot 23 corresponding to the position of the card entering notch in fig. 1, the upper surface of the concave slot in the card pushing slot 23 is used for limiting the back of the card, the folded edge near the central end of the card pushing support 22 in the card pushing slot 23 is used for limiting the top end of the card, the folded edge at the side of the card pushing slot 23 is used for limiting the left and right sides of the card, the card entering turning plate 27 drives the card to be turned to the position parallel to the support frame 21, at this time, the folded edge in the card entering turning plate 27 is located at the bottom of the card entering notch and is used for limiting the bottom end of the card, and meanwhile, the card entering turning plate 27 is used for limiting the front of the card. Then the vertical rotary driving member 28 drives the card-shifting groove 23 and the cards therein to rotate to the adjacent card-storing positions, which refer to the stations corresponding to the card-shifting groove 23 except the card-inlet gap and the card-outlet gap.

When the card is located a card outlet gap, as shown in fig. 1, the front of the card is exposed through the gap, the back of the card is limited by the card shifting groove 23, the right end of the card is limited by the folded edge close to the center end of the card shifting bracket 22 in the card shifting groove 23, the upper end and the lower end of the card are limited by the folded edge on the side edge of the card shifting groove 23, the left end of the card is exposed, and the card passing electric cylinder 24 drives the card passing plate 25 to push the card out from the right end.

In order to ensure to pass cardboard 25 and to release the card, dial in this application in the draw-in groove 23 and be close to the hem of dialling card support 22 center one end for hollow structure, there is the vacancy in the centre of hem promptly, pass cardboard 25 and go deep into to dialling inside the draw-in groove 23 through this vacancy to make and dial the inside card of draw-in groove 23 and pass out through going out the card breach.

When the card is located and stores up the screens, dial the upper surface of draw-in groove 23 mesorecess and be used for spacing the back of card, dial in the draw-in groove 23 and be close to the hem of dialling card support 22 center one end and be used for spacing the top of card, the hem of dialling card groove 23 side is used for spacing the side about the card, the hem of support frame 21 rear end is used for spacing the bottom of card, support frame 21 is used for spacing the front of card simultaneously.

According to the card issuing method, the card reader-writer is arranged on the side edge of the card issuing gap and used for reading and writing the card at the card issuing gap, the card reader-writer is in communication connection with the card issuing cylinder 24, and when the card reader-writer recognizes that the card at the card issuing gap is successfully read and written, the card issuing cylinder 24 is pushed out, so that the card at the card issuing gap is issued; when the card reader-writer recognizes that the card at the card gap is not successfully read and written, the card passing electric cylinder 24 does not operate, the vertical rotary driving piece 28 directly drives the card shifting support 22 to rotate, so that the card shifting groove 23 rotates to the card entering gap, at the moment, the card entering turnover plate 27 is not turned over to the position parallel to the plane of the support frame 21, namely, the lower end of the card cannot be limited, the card directly drops into the card rejecting box 29 at the lower end of the card entering gap, and the rejection of the unread and writeable successful card is completed.

It is to be understood that the foregoing examples, while indicating the preferred embodiments of the invention, are given by way of illustration and description, and are not to be construed as limiting the scope of the invention; it should be noted that, for those skilled in the art, the above technical features can be freely combined, and several changes and modifications can be made without departing from the concept of the present invention, which all belong to the protection scope of the present invention; therefore, all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. A card distributing device is characterized by comprising a card storage platform, a card inlet overturning assembly and a card outlet rotating platform, wherein the card inlet overturning assembly is positioned between the card storage platform and the card outlet rotating platform;

the card storage platform comprises a horizontal rotating platform, and N card storage grooves for mounting card storage clips are arranged on the horizontal rotating platform in parallel; the outer side of the horizontal rotating platform is provided with a card outlet position; the center of the horizontal rotating platform is provided with a card pushing assembly, and the card pushing assembly is opposite to the card outlet position; the horizontal rotating platform is connected with the horizontal rotating driving piece; n is an integer greater than 0;

the rotary card outlet table comprises a support frame, a card pushing support and a card passing assembly, the support frame is of a vertical annular structure, and a card inlet notch and a card outlet notch are formed in the support frame; the edge of the card-shifting bracket is provided with M card-shifting grooves which are positioned at the rear side of the support frame, and the card-shifting bracket is connected with a vertical rotary driving piece; m is an integer greater than 1; the card delivering assembly is opposite to the card outlet notch;

the two ends of the card-feeding overturning assembly correspond to the card-discharging position and the card-feeding gap respectively.

2. The card dispensing apparatus as claimed in claim 1, wherein said card magazine is mounted vertically in a card magazine slot of a card magazine platform; a card pushing opening is formed in the side face, close to the card pushing assembly, of the card storage clip, and a card outlet opening is formed in the side face, far away from the card pushing assembly, of the card storage clip.

3. The card-issuing device according to claim 2, wherein the card-pushing component comprises a card-pushing electric cylinder and a push plate, the output end of the card-pushing electric cylinder is connected with the push plate, and the size of the push plate in the vertical direction is smaller than that of the card-pushing opening.

4. The card issuing device according to claim 3, wherein the height of the card pushing opening is smaller than the thickness of the card; the height of the card outlet is larger than the thickness of the card and smaller than twice the thickness of the card.

5. The card distribution device according to claim 1, wherein a fool-proof positioning block is further arranged on a side of the card storage clip; the cross-sectional area of the top of the foolproof positioning block in the horizontal direction is larger than that of the bottom of the foolproof positioning block in the horizontal direction; and a positioning groove matched with the fool-proof positioning block is arranged in the card storage groove.

6. The card distribution device of claim 1, wherein the support frame comprises a first support frame and a second support frame, and the joint of the first support frame and the second support frame forms a card inlet notch and a card outlet notch.

7. The card distribution device of claim 6, wherein the rear ends of the first and second support frames are provided with folded edges facing the card-drawing slot; one end and the side edge of the card pulling groove close to the center of the card pulling support are provided with folded edges facing the support frame.

8. The card distribution device according to claim 7, wherein one end of the card-pulling groove close to the center of the card-pulling bracket is provided with a hollow folded edge.

9. The card distributing device according to claim 1, wherein a card feeding overturning assembly is arranged on one side of the card feeding gap away from the card shifting bracket, and an upward folded edge is arranged on one side of the card feeding overturning assembly close to the supporting frame; the card feeding overturning assembly comprises a card feeding overturning plate and a card feeding overturning stepping motor, the card feeding overturning plate is right opposite to the card feeding notch, and the card feeding overturning stepping motor drives the card feeding overturning plate to overturn towards the card feeding notch.

10. The card distribution device according to claim 1, wherein the card inlet notch is located at the bottom of the support frame, and a card reader is arranged on the side of the card outlet notch; and a card rejecting box is arranged below the card inlet gap.

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