CN106408041B - Card storing and taking device - Google Patents

Abstract

The invention relates to the technical field of intelligent card equipment, in particular to a card access device, which comprises: the card storage unit comprises a bottom plate, a chuck mechanism, a transmission mechanism and a card pushing mechanism, wherein the chuck mechanism, the transmission mechanism and the card pushing mechanism are arranged on the bottom plate, and the chuck mechanism comprises: the invention provides a card access device, which comprises two annular chucks which are oppositely arranged, wherein the two annular chucks which are oppositely arranged can rotate in the device, so that when a card is pushed out, the two annular chucks which are oppositely arranged only need to be rotated to a specified angle, and the card access device can find the specified card.

Description

Card storing and taking device

Technical Field

The invention relates to the technical field of intelligent card equipment, in particular to a card access device.

Background

Currently, the cards are stored in multiple cartridges or card slots on the market, and typically, tens to hundreds of cards are stored in each cartridge. A common device has 6 cartridges, each storing 100 sheets. Only cards of the same card face can be stored, so that the number of supported cards is small, and each card box corresponds to one card.

At present, the common self-service card sender adopts a large-capacity card box as the core card sender core, and each card cannot be distinguished, so that customers can only randomly send out the cards in sequence when going to a bank to transact the bank cards by self-service. Typically several hundred cards can be stored, with only the lowermost card being pushed out in sequence.

Disclosure of Invention

Aiming at the characteristics of the prior art and aiming at solving the problem that the existing card access device can only push out the lowest card in sequence, the invention provides the card access device, wherein two oppositely arranged annular chucks for placing cards in the device can rotate, so that when pushing out the cards, the two oppositely arranged annular chucks can only rotate to a specified angle, and the specified cards can be found.

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

a card access apparatus comprising: a plurality of card storage units, an electric card reader mechanism and a control module;

the card storage unit comprises a bottom plate, a chuck mechanism, a transmission mechanism and a card pushing mechanism, wherein the chuck mechanism, the transmission mechanism and the card pushing mechanism are arranged on the bottom plate;

the chuck mechanism includes: two annular chucks, a rotary supporting seat and chuck gears which are oppositely arranged; the two annular chucks which are oppositely arranged are arranged on the rotary supporting seat, the rotary supporting seat is arranged on the chuck gear, and the chuck gear is arranged on the bottom plate;

the transmission mechanism is arranged at the side edge of the chuck mechanism and comprises a driving motor and a driving wheel set, and the driving wheel set is connected with the chuck gear;

the card pushing mechanism is arranged in the two annular chucks which are oppositely arranged.

Preferably, the two opposite annular chucks are provided with guide grooves on opposite faces.

Preferably, the chuck mechanism further comprises a guide finishing wheel, and the guide finishing wheel is arranged on the side edges of the two oppositely arranged annular chucks.

Preferably, the chuck mechanism includes a chuck position sensor.

Preferably, the chuck mechanism further comprises a card position sensor.

Preferably, the card pushing mechanism includes a card pushing relay and a card pushing lever.

Preferably, the electric card reader comprises an inlet and outlet and an electric card reader.

As a preferable scheme, the two side edges of the card storage unit further comprise sliding rail devices.

Preferably, the card storage units are vertically stacked.

The card access device has the beneficial effects that:

1. compared with the prior art, the card storage unit of the card access device adopts two oppositely arranged annular chucks, the two oppositely arranged annular chucks are arranged on the rotary supporting seat, the rotary supporting seat is arranged on the chuck gear, the chuck gear is arranged on the bottom plate, and when the cards on the two oppositely arranged annular chucks are stored and taken out, the designated cards can be found in the two oppositely arranged annular chucks only by rotating the two oppositely arranged annular chucks.

2. Compared with the prior art, the card storage unit of the card access device provided by the invention adopts two annular chucks which are oppositely arranged, the opposite surfaces of the two annular chucks which are oppositely arranged are respectively provided with a guide groove, and the card is vertically placed on the guide grooves, so that the surface of the card is not easy to scratch.

3. Compared with the prior art, the two side edges of the card storage unit of the card access device comprise the sliding rail device, the sliding rail devices on the side edges enable a plurality of card storage units to be vertically stacked, the control module controls the electric card reader mechanism to move in the vertical direction, one electric card reader mechanism can butt the plurality of card storage units, and the working efficiency of the card access device is improved.

4. Compared with the prior art, the rotary support seat of the card storage unit of the card access device can rotate around the rotary support seat in the horizontal direction, so that the card access device is more convenient when searching for a specified card.

5. Compared with the prior art, the card pushing mechanism of the card storage unit of the card access device is arranged inside the two oppositely arranged annular chucks, so that the card storage unit of the card access device has smaller volume and saves space.

Drawings

Fig. 1 is a schematic structural diagram of a card access device according to an embodiment of the invention.

Fig. 2 is a schematic structural diagram of a card access device according to an embodiment of the invention.

Fig. 3 is a schematic structural diagram of another card access device according to an embodiment of the invention.

Fig. 4 is a schematic view of another view structure of another card access apparatus according to an embodiment of the invention.

Fig. 5 is a schematic enlarged view of the chuck position sensor and the card position sensor of fig. 3.

Fig. 6 is a schematic enlarged view of the transmission mechanism in fig. 3.

Fig. 7 is a schematic view of another view of a card access apparatus according to an embodiment of the invention.

Fig. 8 is a schematic enlarged view of the ejection mechanism and card of fig. 7.

Reference numerals illustrate:

1. the card storage unit, 11, the slide rail device, 2, the electric card reader mechanism, 21, the card inlet and outlet port, 22, the electric card reader, 3, the control module, 4, the bottom plate, 5, the chuck mechanism, 51, two annular chucks arranged oppositely, 52, the rotary supporting seat, 53, the chuck gear, 54, the guide groove, 55, the guide finishing wheel, 56, the chuck position sensor, 57, the card position sensor, 6, the transmission mechanism, 61, the driving motor, 62, the driving wheel set, 7, the pushing mechanism, 71, the card pushing relay, 72, the card pushing lever, 8 and the card.

Detailed Description

The invention will be further described with reference to the drawings and the specific embodiments.

Referring to fig. 1 and 2, a card access device includes: a plurality of card storage units 1, an electric card reader mechanism 2 and a control module 3; the card storage units 1 are vertically stacked, and the control module 3 controls the electric card reader mechanism 2 to move in the vertical direction, so that one electric card reader mechanism 2 can butt against the card storage units 1, and the working efficiency of the card access device is improved.

The two side edges of the card storage unit 1 also comprise slide rail devices 11, and the slide rail devices 11 are convenient for production and manufacture and also convenient for pulling out, pushing in and maintaining.

Referring to fig. 3, 4, 5, 6, 7, 8, the card storage unit 1 includes a base plate 4, a chuck mechanism 5 provided on the base plate, a transmission mechanism 6, and a card pushing mechanism 7.

The chuck mechanism 5 is provided at the center of the base plate 4, and the chuck mechanism 5 includes: two oppositely arranged annular chucks 51, a rotary supporting seat 52 and chuck gears 53; the two oppositely arranged annular chucks 51 are arranged on the rotary supporting seat 52, the rotary supporting seat 52 is arranged on the chuck gear 53, and the chuck gear 53 is arranged on the bottom plate 4; the two oppositely arranged annular chucks are used for vertically placing the card 8.

As the preferred scheme, all be equipped with guide slot 54 on the opposite face of two ring chuck 51 that set up in opposition, two ring chuck 51 that set up in opposition include ring chuck and lower ring chuck, all are equipped with guide slot 54 on the opposite face of last ring chuck and lower ring chuck, let card 8 place in guide slot 54, card 8 is more stable, is favorable to the deposit and the takeout of card.

The transmission mechanism 6 is arranged on the side edge of the chuck mechanism 5 and comprises a driving motor 61 and a driving wheel set 62, the driving wheel set 62 is connected with the chuck gear 53, the driving motor 61 drives the driving wheel set 62 to move, the driving wheel set 62 drives the chuck gear 53 to move, and correspondingly, the rotating support seat 52 is driven to rotate, so that two oppositely arranged annular chucks 51 are driven.

Embodiments of the card access apparatus of the present invention may preferably employ multiple sets of two oppositely disposed annular chucks 51 stacked directly. The common set of transmission mechanisms 6 includes a drive motor 61 and drive wheel set 62, a chuck gear 53, and a rotary support 52, and a base plate 4. The transmission mechanism 6 drives the plurality of sets of two oppositely arranged annular chucks 51 to rotate simultaneously. Further reduce the volume and the production cost.

Preferably, the chuck mechanism 5 further comprises a guiding and arranging wheel 55, wherein the guiding and arranging wheel 55 is arranged at the side edges of the two oppositely arranged annular chucks 51, and the guiding and arranging wheel 55 has the function that if the inserted card 8 is not deep enough, the guiding and arranging wheel 55 can press the card 8 into the guide groove 54.

The card pushing mechanism 7 is provided inside the two oppositely disposed annular chucks 51, and is fixed to the base plate 4.

Preferably, the chuck mechanism 5 comprises a chuck position sensor 56 for detecting the rotation angle of the two oppositely arranged annular chucks 51 by the control module 3.

Preferably, the chuck mechanism 5 further includes a card position sensor 57 for detecting whether the card position is empty when the card 8 is stored in the control module 3, and for assisting in checking the position information of the card 8 when the card 8 is taken out.

Preferably, the card pushing mechanism 7 includes a card pushing relay 71 and a card pushing lever 72, and when the card 8 needs to be pushed out, the card pushing relay 71 is energized to push the card pushing lever 72 out of the guide groove 54.

The electric card reader 2 is arranged at a position corresponding to the card pushing mechanism 7 pushing out the card 8, and inserts the card 8 into the guide groove 54 at a certain speed when the card is discharged from the rear end of the electric card reader. As well as the card 8 pushed by the suction card pushing lever 72.

The electric card reader mechanism 2 comprises a card inlet and outlet 21 and an electric card reader 22, the card inlet and outlet 21 is used for allowing a card 8 to enter and exit, the electric card reader 22 is used for reading data of the card 8, rollers are further arranged in the electric card reader mechanism 2, and when the card 8 needs to enter the guide groove 54 from the card inlet and outlet 21, the rollers can drive the card 8 to enter the guide groove 54. When the card 8 needs to be discharged from the guide groove 54, the card pushing mechanism 7 pushes the card 8 out to be sent into the rear end of the electric card reader 22, the rear end of the electric card reader 22 is used for feeding the card, and the rollers in the electric card reader 22 can drive the card 8 to be discharged from the inlet and outlet 21.

Workflow of depositing card 8:

the card 8 enters the card inlet and outlet 21, the electric card reader 22 sucks the card 8, reads the data of the magnetic stripe or the IC chip of the card 8, acquires information such as a card number, and the like, records the card number information on a computer through the control module 3, searches for gaps on the guide grooves 54 in the two oppositely arranged annular chucks 51 through the control module 3, the driving motor 61 drives the chuck gears 53 to move through the driving wheel group 62, and correspondingly drives the rotary supporting seat 52 to rotate, so that the two oppositely arranged annular chucks 51 are driven to rotate by a certain angle, the gaps of the guide grooves 54 are aligned with the rear end of the electric card reader 22, the roller can drive the card 8 to enter the guide grooves 54, and the card number of the card 8 and the guide grooves 54 form a one-to-one correspondence.

The work flow of card 8 card-out:

the card number of the card 8 to be taken out is input, the position of the corresponding guide groove 54 is found through the control module 3, the driving motor 61 drives the chuck gear 53 to move through the driving wheel group 62, the corresponding rotating support seat 52 is also driven to rotate, the two oppositely arranged annular chucks 51 are driven to rotate by a certain angle, the position of the guide groove 54 of the card 8 to be found rotates to the rear end of the electric card reader 22, the card pushing mechanism 7 works, the card pushing relay 71 is electrified, the card pushing lever 72 is driven to act, the card 8 is pushed into the rear end of the electric card reader 22, and meanwhile, the rollers of the electric card reader 22 can absorb the card 8. If the card 8 is correct, the card reader 22 reads the card number information and sends out the card 8 from the access slot 21. If the card 8 is wrong, the card 8 is returned to the empty position of the guide slot 54. The two oppositely arranged annular chucks 51 are rotated to the original position, the position correction is completed, the rotation is carried out again to a designated angle, and the card discharging process is repeated.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present invention still fall within the scope of the technical solutions of the present invention.

Claims (2)

1. A card access apparatus, comprising: a plurality of card storage units, an electric card reader mechanism and a control module;

the card storage unit comprises a bottom plate, a chuck mechanism, a transmission mechanism and a card pushing mechanism, wherein the chuck mechanism, the transmission mechanism and the card pushing mechanism are arranged on the bottom plate;

the chuck mechanism includes: two annular chucks, a rotary supporting seat and chuck gears which are oppositely arranged;

guide grooves are formed in opposite faces of the two annular chucks which are oppositely arranged; the two annular chucks which are oppositely arranged are arranged on the rotary supporting seat, the rotary supporting seat is arranged on the chuck gear, and the chuck gear is arranged on the bottom plate;

the transmission mechanism is arranged at the side edge of the chuck mechanism and comprises a driving motor and a driving wheel set, and the driving wheel set is connected with the chuck gear;

the card pushing mechanism is arranged in the two annular chucks which are oppositely arranged; the card pushing mechanism comprises a card pushing relay and a card pushing lever;

the chuck mechanism further comprises a guide tidying wheel, wherein the guide tidying wheel is arranged at the side edges of the two annular chucks which are oppositely arranged;

the chuck mechanism includes a chuck position sensor;

the chuck mechanism further includes a card position sensor;

the two side edges of the card storage unit also comprise sliding rail devices;

the card access device adopts a plurality of groups of two annular chucks which are oppositely arranged to be directly and vertically stacked, and shares a set of transmission mechanism including a driving motor and a driving wheel group, a chuck gear and a rotary supporting seat and a bottom plate; the transmission mechanism drives a plurality of groups of annular chucks which are oppositely arranged to rotate simultaneously.

2. The card access device of claim 1, wherein: the electric card reader mechanism comprises an inlet and outlet and an electric card reader.

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