CN115409136A - Card issuing equipment and contain its self-service card-supplementing terminal machine - Google Patents

Abstract

The invention relates to a card issuing device and a self-service card supplementing terminal comprising the same, wherein the card issuing device comprises: the card conveying mechanism comprises a lower card conveying module and an upper card conveying module, a lower card conveying belt is arranged on the lower card conveying module, an upper card conveying belt is arranged on the upper card conveying module, and the lower card conveying belt and the upper card conveying belt oppositely form a card conveying channel; the card storage mechanism comprises a lifting bin guide base, a lifting bin arranged on the lifting bin guide base in a lifting mode and a plurality of card storage boxes arranged on the lifting bin in a distribution mode, and the lifting bin is used for enabling the card storage boxes to correspond to the card conveying channels in a lifting mode; the card driving mechanism comprises a supporting shell, a warehousing conveyor belt arranged on the supporting shell and positioned in the lifting bin, and a push plate mechanism arranged on the supporting shell and used for pushing the cards in the card storage box into the card conveying channel; the card writing mechanism is arranged on the downward card conveying module and located between the card conveying channel and the card storage box, and the card writing mechanism is used for writing data into the pushed-out card.

Description

Card issuing equipment and contain its card terminating machine of mending by oneself

Technical Field

The invention relates to the technical field of card issuing machines, in particular to card issuing equipment and a self-service card supplementing terminal comprising the same.

Background

The self-service terminal equipment is an electronic information equipment which is specially used for storing information and providing service functions such as various information inquiry, printing, payment and product vending and the like through an interactive environment formed by multimedia databases such as films, pictures, characters, music and the like. Self-service terminal equipment mainly includes: a24-hour integrated service self-service acceptance system and equipment, a business hall multimedia information publishing and self-service query system, a business hall new service self-service experience equipment, a business hall queuing management system, a window service evaluator, an LED display screen and other series electronic equipment and system software are widely applied to the industries of communication, finance, government, traffic, medical treatment, industry and commerce, tax and the like at present.

A self-service card supplementing terminal is commonly used in banks to provide self-service bank card supplementing or transact new bank cards for customers, and an SIM card issuing machine with an authorization notice number of CN 103971142B is usually arranged in the conventional self-service card supplementing terminal, and comprises a shell, and a card issuing device, a card reading device, a card transporting device and a card pushing device which are arranged on the shell, wherein the SIM card is stored through the card issuing device; the card reading device writes data into an SIM card in the card sending device; the card pushing device pushes the written SIM card into the card transporting device; and finally, the written SIM card is transmitted out through a card transporting device. In the process, if the original parts of the SIM cards in the card issuing device are used up, the original parts are held by a person in the side door needing to open the terminal machine and are placed in the card issuing device, however, the terminal machine in a bank station and a subway station is mostly placed side by side against a wall, the side door and the back door of the terminal machine are not easy to open, the original parts (empty SIM cards) held by the front panel are opened and are easily mistakenly placed in other circuits in the terminal machine, the fault of the terminal machine is caused, and the potential safety hazard exists.

Disclosure of Invention

The invention aims to solve the technical problem of providing a card issuing device which can fill card originals needing to be written with data into a terminal machine from a card taking port of a front panel of the terminal machine and a self-service card supplementing terminal machine comprising the card issuing device.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a card issuing apparatus, comprising:

the card conveying mechanism comprises a downward card conveying module and an upward card conveying module, a downward card conveying conveyor belt is arranged on the downward card conveying module, an upward card conveying conveyor belt is arranged on the upward card conveying module, and the downward card conveying conveyor belt and the upward card conveying conveyor belt oppositely form a card conveying channel;

the card storage mechanism comprises a lifting bin guide base arranged on one side of the card conveying mechanism, a lifting bin arranged on the lifting bin guide base in a lifting way, and a plurality of card storage boxes arranged on the lifting bin, wherein the lifting bin is lifted to enable the card storage boxes to correspond to the card conveying channel so as to enable the card storage boxes to receive the cards conveyed in the card conveying channel;

the card driving mechanism comprises a supporting shell, a warehousing conveyor belt arranged on the supporting shell and positioned in the lifting bin, and a push plate mechanism arranged on the supporting shell and used for pushing the cards in the card storage box into the card conveying channel;

the card writing mechanism is arranged on the downward card conveying module and located between the card conveying channel and the card storage box, and the card writing mechanism is used for writing data into the pushed-out card.

As a preferred embodiment, the lifting bin is wholly in a cuboid shape and comprises two lifting bin vertical plates which are arranged oppositely, a lifting bin top plate arranged at the tops of the two lifting bin vertical plates, a lifting bin bottom plate arranged at the bottoms of the two lifting bin vertical plates and a plurality of lifting bin partition plates which are arranged between the two lifting bin vertical plates at equal intervals;

the lifting bin partition plate is integrally rectangular, the lifting bin partition plate faces towards one end of the card driving mechanism corresponds to the warehousing conveyor belt, and long holes are formed in the warehousing conveyor belt and are a plurality of relative forming of the long holes in the lifting bin partition plate.

As a preferred embodiment, the storage box comprises a storage box upper plate, a storage box lower plate, two storage box side plates and a storage box rear plate, wherein one end of the storage box close to the storage box rear plate is provided with a storage box avoiding groove so that the storage box is in a concave plate shape;

a card accommodating channel is formed between the upper plate of the card storage box and the lower plate of the card storage box relatively, and the card accommodating channel is communicated with the card storage box avoiding groove; the card storage box avoiding groove corresponds to the warehousing conveyor belt lifting channel and is used for enabling the warehousing conveyor belt to enter the card containing channel and abut against the cards in the card containing channel.

As a preferred embodiment, the lifting bin guide base comprises a guide sleeve and two guide base fixing plates symmetrically arranged on two sides of the guide sleeve, the lifting bin is slidably arranged in the guide sleeve, and a warehousing conveyor belt avoiding notch is formed in one side of the guide sleeve corresponding to the warehousing conveyor belt lifting channel;

the guide base is characterized in that a lifting driving motor is arranged on the guide base fixing plate, two screws are symmetrically arranged on two sides of the lifting bin, the screws are vertically arranged and connected with the lifting driving motor, and the lifting driving motor is used for driving the screws to lift so as to drive the lifting bin to lift.

As a preferred embodiment, the lift storehouse top plate with the one end of lift storehouse bottom plate is provided with laser sensing component relatively, correspond on the guide sleeve laser sensing component has seted up the laser and has dodged the groove, laser sensing component set up store up the card box with between the card transport passage for gather the card and get into the signal that stores up the card box completely.

As a preferred embodiment, the warehousing conveyor belt is arranged on the supporting shell through two oppositely arranged roller shaft mounting plates, and the two roller shaft mounting plates support the warehousing conveyor belt in the lifting channel of the warehousing conveyor belt;

push pedal mechanism is including setting up push pedal guide rail, slip on the support housing set up rack push pedal on the push pedal guide rail, erect push pedal guide rail top push pedal drive gear and setting are in the push pedal driving motor of push pedal drive gear one side, push pedal drive gear with rack push pedal meshing is connected, push pedal driving motor is used for the drive push pedal drive gear is rotatory, the push pedal guide rail with the conveyer belt of putting in storage is applied to the guide relatively the rack push pedal is followed the direction of conveyer belt of putting in storage is released the card storage box.

As a preferred embodiment, the lower terminal surface of rack push pedal corresponds the conveyer belt of warehousing has been seted up the rack and has been dodged the groove, makes the cross-section of rack push pedal is the n font, two push pedal vertical sections of rack push pedal respectively with two the roller mounting panel offsets, makes the rack push pedal dodges when sliding the conveyer belt of warehousing.

As a preferred embodiment, the downward card transportation module is provided with two card limiting vertical plates opposite to the card transportation channel, the two card limiting vertical plates are provided with a connection limiting plate, and a card connection channel is formed between the connection limiting plate and the upper end surface of the downward card transportation module and used for connecting the cards pushed out from the card storage box or guiding the cards into the card storage box.

As a preferred embodiment, the card writing mechanism comprises two electromagnet lifting assemblies symmetrically arranged on two sides of two card limiting vertical plates and a card writing device adjusting assembly erected on the two electromagnet lifting assemblies, wherein each electromagnet lifting assembly comprises an electromagnet mounting vertical plate, an electromagnet base arranged on the electromagnet mounting vertical plate in a sliding manner and an electromagnet fixedly arranged on the electromagnet base; the card writer adjusting assembly comprises a card writer mounting transverse plate erected on the output ends of the two electromagnets, a card writer connecting seat arranged on the card writer mounting transverse plate in a sliding manner, and a card writer fixedly arranged at the lower end of the card writer connecting seat;

and the electromagnet output end is contracted to drive the card writer installation transverse plate to descend so that the card writer is abutted against the SIM chip on the card to write data into the card.

In addition, a self-service card supplementing terminal machine is also provided, and comprises a terminal machine shell, a card taking bin arranged on the front panel of the terminal machine shell, a supporting plate arranged in the terminal machine shell through a drawer sliding rail assembly, and the card issuing equipment;

the card issuing equipment is arranged on the supporting plate, and a card conveying channel of the card conveying mechanism is communicated with the card taking bin and used for taking and placing cards in the card conveying channel;

and a through hole of the supporting plate which is communicated up and down is formed in the supporting plate corresponding to the lifting bin of the card issuing equipment and is used for avoiding the lifting bin.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in:

the utility model provides a card transport mechanism's card conveying channel passes to the storage card box in lift storehouse through card linking passageway with partly of card, later be located the warehouse entry conveyer belt in the lift storehouse and accomodate the complete card that partly is located the storage card box to the storage card box, the laser sensor who sets up on the lift storehouse passes out the card and gets into the signal back in the storage card box, controller control lift driving motor work is in order to lift one section with lift storehouse lifting, and then make the empty storage card box of below rise to and link up the passageway with the card relatively, in order to accept next card.

This application stores the card with the card storage box, rather than putting into the lift storehouse after overlapping a plurality of cards, prior art adopts this kind of mode to place the card more, too much card overlaps and easily makes the frictional force between the card of the below and the card of penultimate great and leads to the card of penultimate to be driven and block card transfer passage, and has the mode that adopts the embossed seal to print the number on the current bank card, frictional force and inconvenient simple overlapping between two bank cards about having increased are deposited. The design of the storage box of the embodiment is higher than that of a simple form of overlapping storage of a plurality of cards, and the upper bank card and the lower bank card do not interfere with each other.

The utility model provides a card pushing mechanism is including the rack push pedal that corresponds warehousing conveyer belt and set up, when hairpin equipment goes out the card, push pedal drive assembly drive rack push pedal slides to the card storage box in from supporting casing one side, and push the card in the card storage box and link up the below of card writing mechanism in the passageway, the card writing ware of card writing mechanism descends to the SIM chip of card in order to write in data under the drive of electro-magnet, the rack push pedal further slides and pushes the card that will write data and transport in the passageway, the card transports the passageway and conveys the card out card transport mechanism and accomplishes out the card. This application deposits the card in the card storage box through the conveyer belt of going into the storehouse, pushes the card in the card storage box through push pedal mechanism and writes card mechanism below, takes out the card through push pedal mechanism rather than the conveyer belt that goes into the storehouse, has avoided the relative displacement between card and the conveyer belt and has caused the problem that the card can not be accurate be located and write card ware below, has increased the stability of writing the card.

Drawings

Fig. 1 is a schematic structural diagram of a terminal according to an embodiment.

Fig. 2 is a schematic diagram of the internal structure of the terminal according to the embodiment.

Fig. 3 is a schematic structural diagram of the card issuing apparatus of the embodiment.

Fig. 4 is a schematic view of the structure at another angle of fig. 3.

Fig. 5 is a schematic structural view of the card hopper module, the cartridge, and the card drive mechanism of the embodiment.

Fig. 6 is a schematic view of the structure of fig. 5 at another angle.

Fig. 7 is a schematic structural diagram of a card-holding mechanism of the embodiment.

Fig. 8 is a schematic view of the structure of fig. 7 from another angle.

FIG. 9 is a schematic structural view of the cartridge of the embodiment.

FIG. 10 is a schematic view of another angle of the cartridge of the embodiment.

Fig. 11 is a schematic configuration diagram of a card drive mechanism of the embodiment.

Fig. 12 is a schematic view of the half-section structure of fig. 11.

Fig. 13 is a schematic view of the structure at a in fig. 5.

Fig. 14 is a schematic view of the structure at B in fig. 12.

Fig. 15 is a schematic configuration diagram of a card writing mechanism of the embodiment.

Wherein: 1. a terminal housing; 1-1, taking a card bin; 1-2 receipt outlet; 1-3 identity card sensing zones; 1-4 key areas; 1-5 NFC sensing regions; 1-6 two-dimensional code scanning window; 1-7 human-computer interaction screen; 1-8 support plates; 1-9 controller housing;

2. a card conveying mechanism; 2-1, transporting the card module downwards; 2-1-1, a card conveying belt is transported downwards; 2-1-2, the downward card conveying conveyor belt drives the output end of the motor; 2-1-3 driving rollers of a card conveying belt; 2-1-4 a downward card module workbench; 2-1-5, driving the output end of the motor by the upper conveying card conveyor belt; 2-1-6 connecting the limiting plates; 2-1-7 of vertical limiting plates;

2-2, uploading the card module; 2-2-1, conveying the card conveyor belt upwards; 2-2-2, conveying a card conveying belt driving roller;

2-3 a card writing mechanism; 2-3-1 electromagnet installation vertical plates; 2-3-11 vertical plate long holes; 2-3-2 electromagnet base; 2-3-21 through holes of the countersunk heads of the bases; 2-3-22 base threaded holes; 2-3-3 electromagnets; 2-3-4 installing a transverse plate on the card writer; 2-3-5 card writer connecting seats; 2-3-6 card writer;

3. a card storage mechanism; 3-1, lifting bin guide base; 3-1-1 guide base fixing plate; 3-1-2 guide sleeve; 3-1-21, putting the conveyor belt into a bin to avoid the notch; 3-1-22 laser avoidance grooves;

3-2, a lifting driving motor;

3-3, lifting the bin; 3-3-1 lifting bin vertical plates; 3-3-2 lead screw; 3-3-3 lifting the top plate of the bin; 3-3-31 laser receiver; 3-3-32 top screw rod mounting plate; 3-3-4 lifting the bin bottom plate; 3-3-41 laser transmitter; 3-3-42 bottom screw rod mounting plate; 3-3-5 lifting bin partition boards; a warehousing conveyor belt lifting channel; 3-3-6 long bolt assemblies;

4. a card drive mechanism; 4-1 supporting the housing; 4-1-1 shell fixing seat; 4-1-2 vertical plates of the shell; 4-1-3 lengthening the supporting plate; 4-1-4 shell body working table; 4-1-5 push plate guide rails;

4-2 push plate drive assembly; 4-2-1 push plate driving motor; 4-2-2 motor support; 4-2-3 bearing seats; 4-2-4 push plate drive gear;

4-3 rack push plate; 4-3-1 push plate vertical part; 4-3-2 rack avoidance grooves;

4-4 warehousing conveyor belts; 4-4-1 roller shaft mounting plate; 4-4-2, a warehousing conveyor belt driving roller; 4-4-3, putting the conveyor belt into a bin to drive the output end of the motor;

5. a card storage box; 5-1, loading the card storage box; 5-2, storing the lower plate of the card box; 5-2-1 storing the convex part of the lower plate of the card box; 5-3, storing the side plate of the card box; 5-4, storing the rear plate of the card box; 5-5, avoiding the groove by the card storage box; 5-6 card receiving channels.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail and fully with reference to the following embodiments.

A card issuing apparatus as shown in fig. 1 to 15, comprising:

the card conveying mechanism 2 shown in fig. 3 to 6 comprises a lower card conveying module 2-1 and an upper card conveying module 2-2, wherein a lower card conveying belt 2-1-1 is arranged on the lower card conveying module 2-1, an upper card conveying belt 2-2-1 is arranged on the upper card conveying module 2-2, and a card conveying channel is formed by the lower card conveying belt 2-1-1 and the upper card conveying belt 2-2-1 in an opposite manner;

the card storage mechanism 3 shown in fig. 7 to 8 comprises a lifting bin guide base 3-1 arranged at one side of the card conveying mechanism 2, a lifting bin 3-3 arranged on the lifting bin guide base 3-1 in a lifting way, and a plurality of card boxes 5 arranged on the lifting bin 3-3, wherein the lifting bin 3-3 is lifted and lowered to enable the card boxes 5 to correspond to the card conveying channel so that the card boxes 5 receive the cards conveyed in the card conveying channel;

the card driving mechanism 4 shown in fig. 11 to 12 comprises a supporting housing 4-1, a feeding conveyor 4-4 disposed on the supporting housing 4-1 and located in the lifting bin 3-3, and a pushing plate mechanism disposed on the supporting housing 4-1 for pushing the cards in the magazine 5 into the card conveying channel, wherein the distance between the end of the card conveying channel and the front end of the feeding conveyor 4-4 is smaller than the length of the card in the length direction, so as to ensure the normal transportation of the cards;

the card writing mechanism 2-3 shown in fig. 15 is arranged on the lower card transport module 2-1 and between the card transport path and the card storage box 5, and the card writing mechanism 2-3 is used for writing data in the card pushed out by the push plate mechanism.

The lifting bin 3-3 shown in fig. 7 and fig. 8 is a cuboid whole and comprises two lifting bin vertical plates 3-3-1 which are arranged oppositely, lifting bin top plates 3-3-3 which are arranged at the tops of the two lifting bin vertical plates 3-3-1, lifting bin bottom plates 3-3-4 which are arranged at the bottoms of the two lifting bin vertical plates 3-3-1, and a plurality of lifting bin partition plates 3-3-5 which are arranged between the two lifting bin vertical plates 3-3-1 at equal intervals. The lifting bin partition plates 3-3-5 are rectangular integrally, strip holes are formed in the ends, facing the card driving mechanism 4, of the lifting bin partition plates 3-3-5, corresponding to the warehousing conveyor belts 4-4, and the strip holes in the lifting bin partition plates 3-3-5 are opposite to form a warehousing conveyor belt lifting channel a.

Referring to fig. 9 and 10, the storage card box 5 comprises a storage card box upper plate 5-1, a storage card box lower plate 5-2, two storage card box side plates 5-3 and a storage card box rear plate 5-4, wherein one end of the storage card box 5, which is close to the storage card box rear plate 5-4, is provided with a storage card box avoiding groove 5-5, so that the storage card box 5 is in a concave plate shape.

Referring to fig. 9 and 10, a card accommodating passage 5-6 is formed between the upper plate 5-1 and the lower plate 5-2 of the cartridge, and the card accommodating passage 5-6 is communicated with the cartridge escape groove 5-5, so that the elevating bin 3-3 does not interfere with the warehousing conveyor belt 4-4 when being elevated. The card storage box avoiding groove 5-5 corresponds to the warehousing conveyor belt lifting channel a and is used for enabling the warehousing conveyor belt 4-4 to enter the card accommodating channel 5-6 and abut against the cards in the card accommodating channel 5-6. The upper plate 5-1 of the card storage box, the lower plate 5-2 of the card storage box and the side plates 5-3 of the two card storage boxes are provided with round corners towards one end of the card conveying channel and used for receiving the cards conveyed by the round corners and increasing the fault tolerance of the cards conveyed by the round corners. The cartridge back plate 5-4 serves to limit card transport and prevent card transport out of the cartridge 5. In the embodiment, the card box 5 is detachably arranged between two adjacent lifting bin partition plates 3-3-5, one end of the lower plate 5-2 of the card box protrudes out of the back plate 5-4 of the card box to form a convex part 5-2-1 of the lower plate of the card box, and through holes are oppositely clamped on the top plate 3-3-3 of the lifting bin, the convex part 5-2-1 of the lower plate of the card box and the lifting bin partition plates 3-3-5 and used for penetrating through long bolt assemblies 3-3-6 to connect and fix the card box 5 and the lifting bin 3-3.

As shown in fig. 7 to 8, the lifting bin guide base 3-1 comprises a guide sleeve 3-1-2 and two guide base fixing plates 3-1-1 symmetrically arranged at two sides of the guide sleeve 3-1-2, the lifting bin 3-3 is slidably arranged in the guide sleeve 3-1-2, and a warehousing conveyor belt avoiding notch 3-1-21 is formed in one side of the guide sleeve 3-1-2 corresponding to the warehousing conveyor belt lifting channel a. The guide base fixing plate 3-1-1 is provided with a lifting driving motor 3-2, two sides of the lifting bin 3-3 are symmetrically provided with two lead screws 3-3-2, the lead screws 3-3-2 are vertically arranged and connected with the lifting driving motor 3-2, and the lifting driving motor 3-2 is used for driving the lead screws 3-3-2 to lift and further driving the lifting bin 3-3 to lift.

Referring to fig. 7, a laser sensing assembly (i.e., a laser receiver 3-3-31 disposed on the top plate 3-3-3 of the elevator bin and a laser emitter 3-3-41 disposed on the bottom plate 3-3-4 of the elevator bin) is disposed at one end of the top plate 3-3-3-3 of the elevator bin, and a laser avoiding groove 3-1-22 is disposed on the guide sleeve 3-1-2 corresponding to the laser sensing assembly, the laser sensing assembly is disposed between the card storage box 5 and the card conveying channel and used for collecting a signal when a card completely enters the card storage box 5, and the controller controls the elevator bin 3-3 to ascend and descend according to the collected signal, so that an empty card storage box 5 (card entering the card storage box) or a card storage box 5 (card exiting the card storage box) with a card corresponds to the card connecting channel.

Referring to fig. 11 to 14, the warehousing conveyor belt 4-4 is arranged on the supporting shell 4-1 through two oppositely arranged roller shaft mounting plates 4-4-1, and the two roller shaft mounting plates 4-4-1 support the warehousing conveyor belt 4-4 in the warehousing conveyor belt lifting channel a. The push plate mechanism comprises a push plate guide rail 4-1-5 arranged on the supporting shell 4-1, a rack push plate 4-3 arranged on the push plate guide rail 4-1-5 in a sliding mode, a push plate driving gear 4-2-4 erected above the push plate guide rail 4-1-5 and a push plate driving motor 4-2-1 arranged on one side of the push plate driving gear 4-2-4, wherein the push plate driving gear 4-2-4 is connected with the rack push plate 4-3 in a meshing mode, the push plate driving motor 4-2-1 is used for driving the push plate driving gear 4-2-4 to rotate, and the push plate guide rail 4-1-5 and the warehousing conveyor belt 4-4 are relatively used for guiding the rack push plate 4-3 to push out a card from the card storage box 5 along the direction of the warehousing conveyor belt 4-4. The lower end face of the rack push plate 4-3 is provided with a rack avoidance groove 4-3-2 corresponding to the warehousing conveyor belt 4-4, so that the section of the rack push plate 4-3 is n-shaped, and the vertical parts 4-3-1 of the two push plates of the rack push plate 4-3 are respectively abutted against the two roller shaft mounting plates 4-4-1, so that the rack push plate 4-3 avoids the warehousing conveyor belt 4-4 when sliding. In this embodiment, when the rack push plate 4-3 pushes the card into the card transportation path, the rack push plate 4-3 is still located in the lift path a of the warehousing conveyor so as not to interfere with the lift bin 3-3.

Referring to fig. 5, 6 and 15, the lower card transportation module 2-1 is provided with two card limiting vertical plates 2-1-7 opposite to the card transportation channel, the two card limiting vertical plates 2-1-7 are provided with engaging limiting plates 2-1-6, and a card engaging channel for engaging the cards pushed out of the card storage box 5 or guiding the cards into the card storage box 5 is formed between the engaging limiting plates 2-1-6 and the upper end surface of the lower card transportation module 2-1.

Referring to fig. 15, the card writing mechanism 2-3 includes two electromagnet lifting assemblies symmetrically disposed on two sides of the two card limiting vertical plates 2-1-7 and a card writing device adjusting assembly erected on the two electromagnet lifting assemblies, and the electromagnet lifting assemblies include an electromagnet mounting vertical plate 2-3-1, an electromagnet base 2-3-2 slidably disposed on the electromagnet mounting vertical plate 2-3-1, and an electromagnet 2-3-3 fixedly disposed on the electromagnet base 2-3-2.

Referring to fig. 15, the card writer adjusting assembly comprises a card writer mounting transverse plate 2-3-4 erected on the output ends of the two electromagnets 2-3-3, a card writer connecting seat 2-3-5 slidably arranged on the card writer mounting transverse plate 2-3-4, and a card writer 2-3-6 fixedly arranged at the lower end of the card writer connecting seat 2-3-5, wherein a metal contact is arranged at the bottom of the card writer 2-3-6, and the card writer abuts against the SIM chip through the metal contact to write data. And the output end of the electromagnet 2-3-3 is contracted to drive the card writer installation transverse plate 2-3-4 to descend so that the card writer 2-3-6 is abutted against the SIM chip on the card to write data into the card.

Card actuating mechanism 4 of this embodiment stores the card in the card linking passageway in empty card storage box 5 through going into storehouse conveyer belt 4-4, after the card that the laser sensor subassembly was gathered totally submerges in card storage box 5 (card partly lies in card linking passageway partly lies in empty card storage box 5 and has blocked laser signal, laser signal communicates again after card totally submerges in card storage box 5), the work of two lift driving motor 3-2 of controller control makes lift storehouse 3-3 rise a check (fixed height), empty card storage box 5 of below rises to the position relative with card linking passageway in order to accept next card and accomplish the card storage.

The card pushing mechanism of the embodiment slides along the warehousing conveyor belt 4-4 through the rack pushing plate 4-3 to accurately push the cards in the card storage box 5 to the position below the card writing mechanism 2-3 so as to write the cards, then the rack pushing plate 4-3 further slides to push the cards into the card transportation channel, and the card transportation channel conveys the cards into the card taking bin 1-1. In this embodiment, the displacement stroke of the rack push plate 4-3 is controlled by controlling the rotation angle of the push plate driving gear 4-2-4, that is, the controller controls the push plate driving motor 4-2-1 to make the push plate driving gear 4-2-4 rotate by a fixed angle to control the displacement stroke of the rack push plate 4-3, and the rack push plate 4-3 realizes the reset of the push plate after the push plate acts.

The electromagnet installation vertical plate 2-3-1 of the card writing mechanism 2-3 of the embodiment is provided with a vertical plate long strip hole 2-3-11, the electromagnet base 2-3-2 is arranged on the electromagnet installation vertical plate 2-3-1 in a sliding mode and is provided with a base countersunk through hole 2-3-21 and a base threaded hole 2-3-22 in a relatively opposite mode, a screw is used for applying to sequentially penetrate through the base countersunk through hole 2-3-21, the vertical plate long strip hole 2-3-11 and the base threaded hole 2-3-22 to fix the electromagnet base 2-3-2 at a proper position, meanwhile, the card writing device installation transverse plate 2-3-4 fixes the card writing device connecting seat 2-3-5 at a proper position through the screw, the card writing device 2-3-6 corresponds to the SIM chip position on a card, the position of the SIM chip on the existing card with the SIM chip is not uniform, and the design enables the application range of the card writing mechanism 2-3 of the embodiment to be wider.

In addition, an embodiment of the self-service card-supplementing terminal machine shown in fig. 1 and fig. 2 is provided, which comprises a terminal machine housing 1, a card-taking bin 1-1 arranged on a front panel of the terminal machine housing 1, a support plate 1-8 arranged in the terminal machine housing 1 through a drawer slide rail assembly, and the aforementioned card-issuing equipment. The card issuing equipment is arranged on the supporting plates 1-8, and a card conveying channel of the card conveying mechanism 2 is communicated with the card taking bin 1-1 and used for taking and placing cards through the card conveying channel. And a vertically through supporting plate through hole is formed in the supporting plate 1-8 corresponding to the lifting bin 3-3 of the card issuing equipment and is used for avoiding the lifting bin 3-3. The user can fill or remove cards by taking the card compartment 1-1.

Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art may still make modifications to the technical solutions described in the foregoing embodiments, or may substitute some technical features of the embodiments; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A card issuing apparatus, characterized in that it comprises:

the card conveying mechanism (2) comprises a lower card conveying module (2-1) and an upper card conveying module (2-2), a lower card conveying conveyor belt (2-1-1) is arranged on the lower card conveying module (2-1), an upper card conveying conveyor belt (2-2-1) is arranged on the upper card conveying module (2-2), and a card conveying channel is formed by the lower card conveying conveyor belt (2-1-1) and the upper card conveying conveyor belt (2-2-1) in a relative mode;

the card storage mechanism (3) comprises a lifting bin guide base (3-1) arranged on one side of the card conveying mechanism (2), a lifting bin (3-3) arranged on the lifting bin guide base (3-1) in a lifting mode and a plurality of card storage boxes (5) arranged on the lifting bin (3-3), and the lifting bin (3-3) is used for enabling the card storage boxes (5) to correspond to the card conveying channel in a lifting mode so that the card storage boxes (5) can receive cards conveyed in the card conveying channel;

the card driving mechanism (4) comprises a supporting shell (4-1), a warehousing conveyor belt (4-4) which is arranged on the supporting shell (4-1) and is positioned in the lifting bin (3-3), and a push plate mechanism which is arranged on the supporting shell (4-1) and is used for pushing the cards in the card storage box (5) into the card conveying channel;

the card writing mechanism (2-3) is arranged on the downward card conveying module (2-1) and located between the card conveying channel and the card storage box (5), and the card writing mechanism (2-3) is used for writing data into the pushed-out card.

2. The card distribution equipment according to claim 1, wherein the lifting bin (3-3) is a cuboid comprising two lifting bin vertical plates (3-3-1) arranged oppositely, a lifting bin top plate (3-3-3) arranged on the tops of the two lifting bin vertical plates (3-3-1), a lifting bin bottom plate (3-3-4) arranged on the bottoms of the two lifting bin vertical plates (3-3-1), and a plurality of lifting bin partition plates (3-3-5) arranged between the two lifting bin vertical plates (3-3-1) at equal intervals;

the lifting bin partition plates (3-3-5) are integrally rectangular, strip holes are formed in one ends, facing the card driving mechanism (4), of the lifting bin partition plates (3-3-5) and corresponding to the warehousing conveyor belts (4-4), and the strip holes in the lifting bin partition plates (3-3-5) are opposite to form warehousing conveyor belt lifting channels (a).

3. The card issuing equipment according to claim 2, wherein the card storage box (5) comprises a card storage box upper plate (5-1), a card storage box lower plate (5-2), two card storage box side plates (5-3) and a card storage box rear plate (5-4), one end of the card storage box (5) close to the card storage box rear plate (5-4) is provided with a card storage box avoiding groove (5-5) to enable the card storage box (5) to be in a concave plate shape;

a card accommodating channel (5-6) is formed between the upper plate (5-1) of the card storage box and the lower plate (5-2) of the card storage box relatively, and the card accommodating channel (5-6) is communicated with the card storage box avoiding groove (5-5); the card storage box avoiding groove (5-5) corresponds to the warehousing conveyor belt lifting channel (a) and is used for enabling the warehousing conveyor belt (4-4) to enter the card accommodating channel (5-6) and abut against the cards in the card accommodating channel (5-6).

4. The card issuing equipment according to claim 2, characterized in that the lifting bin guide base (3-1) comprises a guide sleeve (3-1-2) and two guide base fixing plates (3-1-1) symmetrically arranged at two sides of the guide sleeve (3-1-2), the lifting bin (3-3) is slidably arranged in the guide sleeve (3-1-2), and a warehousing conveyor belt avoiding notch (3-1-21) is arranged at one side of the guide sleeve (3-1-2) corresponding to the warehousing conveyor belt lifting channel (a);

the guide base fixing plate (3-1-1) is provided with a lifting driving motor (3-2), two sides of the lifting bin (3-3) are symmetrically provided with two lead screws (3-3-2), the lead screws (3-3-2) are vertically arranged and are connected with the lifting driving motor (3-2), and the lifting driving motor (3-2) is used for driving the lead screws (3-3-2) to lift and further driving the lifting bin (3-3) to lift.

5. The card issuing equipment according to claim 4, characterized in that the end of the lifting bin top plate (3-3-3) opposite to the end of the lifting bin bottom plate (3-3-4) is provided with a laser sensing assembly, the guide sleeve (3-1-2) is provided with a laser avoiding groove (3-1-22) corresponding to the laser sensing assembly, and the laser sensing assembly is arranged between the card storage box (5) and the card conveying channel and used for acquiring a signal that the card completely enters the card storage box (5).

6. A card dispensing apparatus according to claim 2, characterized in that the warehousing conveyor (4-4) is arranged on the support housing (4-1) by means of two oppositely arranged roller mounting plates (4-4-1), the two roller mounting plates (4-4-1) supporting the warehousing conveyor (4-4) in the warehousing conveyor lifting channel (a);

the push plate mechanism comprises a push plate guide rail (4-1-5) arranged on the supporting shell (4-1), a rack push plate (4-3) arranged on the push plate guide rail (4-1-5) in a sliding mode, a push plate driving gear (4-2-4) erected above the push plate guide rail (4-1-5) and a push plate driving motor (4-2-1) arranged on one side of the push plate driving gear (4-2-4), wherein the push plate driving gear (4-2-4) is meshed with the rack push plate (4-3) and connected with the push plate driving motor (4-2-1) in a meshing mode, the push plate driving motor (4-2-1) is used for driving the push plate driving gear (4-2-4) to rotate, and the push plate guide rail (4-1-5) and the warehousing conveyor belt (4-4) are relatively applied to guide the rack push plate (4-3) to push a card out of the card storage box (5) along the direction of the warehousing conveyor belt (4-4).

7. The card distribution equipment according to claim 6, wherein a rack avoidance groove (4-3-2) is formed in the lower end surface of the rack push plate (4-3) corresponding to the warehousing conveyor belt (4-4), so that the cross section of the rack push plate (4-3) is n-shaped, and two push plate vertical parts (4-3-1) of the rack push plate (4-3) respectively abut against the two roller shaft mounting plates (4-4-1), so that the rack push plate (4-3) avoids the warehousing conveyor belt (4-4) when sliding.

8. The card issuing equipment according to claim 2, wherein the card downward-conveying module (2-1) is provided with two card limiting vertical plates (2-1-7) opposite to the card conveying channel, the two card limiting vertical plates (2-1-7) are provided with connecting limiting plates (2-1-6) in an erected mode, and a card connecting channel is formed between the connecting limiting plates (2-1-6) and the upper end face of the card downward-conveying module (2-1) and used for connecting cards pushed out of the card storage box (5) or guiding the cards into the card storage box (5).

9. The card issuing equipment according to claim 8, wherein the card writing mechanism (2-3) comprises two electromagnet lifting components symmetrically arranged on two sides of two card limiting vertical plates (2-1-7) and a card writing device adjusting component erected on the two electromagnet lifting components, and the electromagnet lifting components comprise an electromagnet mounting vertical plate (2-3-1), an electromagnet base (2-3-2) slidably arranged on the electromagnet mounting vertical plate (2-3-1), and an electromagnet (2-3-3) fixedly arranged on the electromagnet base (2-3-2); the card writer adjusting assembly comprises a card writer mounting transverse plate (2-3-4) erected on the output ends of the two electromagnets (2-3-3), a card writer connecting seat (2-3-5) arranged on the card writer mounting transverse plate (2-3-4) in a sliding manner, and a card writer (2-3-6) fixedly arranged at the lower end of the card writer connecting seat (2-3-5);

the output end of the electromagnet (2-3-3) contracts to drive the card writer installation transverse plate (2-3-4) to descend so that the card writer (2-3-6) abuts against the SIM chip on the card to write data into the card.

10. A self-service card supplementing terminal machine is characterized by comprising a terminal machine shell (1), a card taking bin (1-1) arranged on a front panel of the terminal machine shell (1), a support plate (1-8) arranged in the terminal machine shell (1) through a drawer slide rail assembly, and the card issuing equipment as claimed in claim 1;

the card issuing equipment is arranged on the supporting plate (1-8), and a card conveying channel of the card conveying mechanism (2) is communicated with the card taking bin (1-1) and used for taking and placing cards in the card conveying channel;

and a vertically through supporting plate through hole is formed in the supporting plate (1-8) corresponding to the lifting bin (3-3) of the card issuing equipment and is used for avoiding the lifting bin (3-3).

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