CN104016151A

CN104016151A - Working storage

Info

Publication number: CN104016151A
Application number: CN201410235741.8A
Authority: CN
Inventors: 王朝晖; 龙波; 胡勇
Original assignee: CREATOR CHINA TECHNOLOGY Co Ltd
Current assignee: CREATOR CHINA TECHNOLOGY Co Ltd
Priority date: 2014-05-29
Filing date: 2014-05-29
Publication date: 2014-09-03

Abstract

The invention discloses a working storage which comprises a shell, a storage device, a controller and a lifter. A first slot allowing cards to enter and exit from the first slot is formed in a front panel of the shell. Multiple storage chambers used for recycling and sending the cards out are formed in the storage device. The controller controls the lifter to operate. The lifter drives the storage device to move vertically, so that the cards are recycled or sent out from the first slot. A second slot allowing the cards to enter the storage chambers or exit from the storage chambers is formed in a rear panel of the shell from the outer side. On one hand, the working storage can be connected with a card issuing mechanism, manual card issuing operation can be replaced, and work efficiency is improved; on the other hand, production and manufacturing cost of the working storage is low.

Description

Temporary storage

Technical field

The present invention relates to Possum machine field, especially relate to a kind of temporary storage.

Background technology

Existing Possum machine brings very large facility to people in life, and for example ATM provides 24-hour service in 24 hours, and its appearance has alleviated the cabinet dough figurine person's of bank operation pressure, and more people provide the financial service of safe ready to experience.

Existing temporary storage gulps down after card at Possum machine, and user can verify that the card that Possum machine is returned gulped down is to user by identity information.Yet this temporary storage mainly adopts metal construction, complex structure, cost are higher.

Foregoing only, for auxiliary understanding technical scheme of the present invention, does not represent and admits that foregoing is prior art.

Summary of the invention

Main purpose of the present invention is to provide a kind of temporary storage, is intended to solve the high problem of cost that existing temporary storage is manufactured; In addition, be intended to substitute artificial hair fastener, increase work efficiency.

For realizing above object, the invention provides a kind of temporary storage, comprise shell, memory storage, controller and lifter, the front panel of shell is provided with the first bayonet socket that enters or exit for card, in memory storage, be provided with a plurality of for reclaiming and send the supply chamber of card, controller is controlled described lifter operation, lifter drives described memory storage to move up and down, card is reclaimed or sent from the first bayonet socket, it is characterized in that, on the rear panel of shell, offer the second bayonet socket that enters described supply chamber from outside or exit for card from supply chamber.

Further, described supply chamber comprises the first opening and the second opening, described the first opening is arranged at one end of described supply chamber, described the second opening is arranged at the other end of described supply chamber, described the first opening and described the second opening are symmetrical arranged, and described the first opening and the second opening all connect with described supply chamber.

Further, the equal flare setting of the first opening of described supply chamber and the second opening.

Further, described the first bayonet socket from described the second bayonet socket in different level heights.

Further, the vertical distance between described the first bayonet socket and described the second bayonet socket is greater than the first opening of described supply chamber and the height of the second opening.

Further, also comprise a recycling box, described recycling box is connected with described shell.

Further, described recycling box is located at the bottom in described shell.

Further, described recycling box is located on the rear panel of described shell, and with the corresponding connection of described the second bayonet socket.

Further, in described shell, be also provided with induction installation, described induction installation comprises sensing chip group and inductor group, and in described sensing chip group, the quantity of sensing chip is identical with the quantity of described supply chamber, and the quantity of the inductor in described inductor group is the twice of the quantity of described supply chamber.

Further, described sensing chip group is arranged at the lateral wall of described memory storage, and each sensing chip in described sensing chip group is corresponding one by one with the position of described each supply chamber; Described inductor group comprises the first inductor group and the second inductor group, described the first inductor group and described the second inductor group are all horizontally placed on the madial wall of described shell, each inductor in described the first inductor group is corresponding one by one with each inductor in described the second inductor group, and corresponding two inductors are in identical lengthwise position; Each inductor in described the first inductor group and the second inductor group is corresponding one by one with each sensing chip in described sensing chip group, and corresponding sensing chip and inductor are in identical lengthwise position.

Accompanying drawing explanation

Fig. 1 is temporary storage one example structure schematic diagram of the present invention;

Fig. 2 is that the temporary storage one being provided with in Fig. 1 of recycling box is implemented structure structural representation;

Fig. 3 is another example structure schematic diagram of temporary storage being provided with in Fig. 1 of recycling box;

Fig. 4 is memory storage inner structure schematic diagram in Fig. 1;

Fig. 5 is memory storage and the lifter mounting structure schematic diagram in Fig. 4;

Fig. 6 is the lateral plan that in Fig. 4, memory storage is provided with sensing chip;

Fig. 7 is the sensor structure schematic diagram that the madial wall of Fig. 1 housing is installed.

The realization of the object of the invention, functional characteristics and advantage, in connection with embodiment, are described further with reference to accompanying drawing.

The specific embodiment

Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

As shown in Figure 1 and Figure 4, Fig. 1 is temporary storage one example structure schematic diagram of the present invention, and Fig. 4 is memory storage inner structure schematic diagram in Fig. 1.

Based on Fig. 1 and Fig. 4, a kind of at embodiment, the invention provides a kind of temporary storage, for Possum machine, comprise shell 1, the front panel of shell 1 is provided with the first bayonet socket 11 for card turnover, in shell, be provided with memory storage 2, controller 3 and lifter 4, in memory storage 2, be provided with a plurality of recovery and send the supply chamber 21 that card uses (for convenient statement, the supply chamber that below relates to empty supply chamber or have card is all with 21 statements), controller 3 is controlled lifter 4 operations, lifter 4 drives memory storage 2 to move up and down, to complete card, from the first bayonet socket 11, reclaim or send, on the rear panel of shell 1, offering the second bayonet socket 12, the second bayonet sockets 12 enters from outside or exits from supply chamber 21 for card.Described temporary storage generally will be used in conjunction with card reader, when card reader is about to gulp down card, described controller 3 is controlled lifter 4 operations, drive memory storage 2 to move up and down, make certain the empty supply chamber 21 in memory storage 2 move to the position corresponding with the first bayonet socket 11, then by card reader, card is driven away in empty supply chamber 21, complete the recovery of a card.In the time the card in supply chamber 21 need to being returned to user, only need client to input authentication information (such as ID card No.), by verification, described controller 3 is controlled described lifter 4 operations, drive described memory storage 2 to move up and down, the supply chamber 21 that stores this user's card is moved to the position corresponding with the first bayonet socket 11, then by card reader, card is ejected, return to client, complete the return of a card.

The second bayonet socket 12 of described temporary storage can enter for card, for example, described the second bayonet socket 12 can be connected with card sending mechanism, when user is by after proof of identity, described controller 3 is controlled lifter 4 and is moved up and down, and card sending mechanism enters card in described supply chamber 21 by 12 of described the second bayonet sockets, and card enters described the first bayonet socket 11 from supply chamber 21, then card reader derives card to user by described the first bayonet socket 11, has completed the granting of a card.This kind of hair fastener mode can substitute artificial hair fastener, greatly increases work efficiency.In addition, described the second bayonet socket 12 can exiting for card.When storage fills when being filled with card in 2, controller 3 can be controlled lifter 4 operations, drives memory storage 2 to move up and down, and makes supply chamber 21 move to the position corresponding with the second bayonet socket 12, then card is derived.

A kind of temporary storage provided by the present invention, on the one hand, can be connected with card sending mechanism by the second bayonet socket 12, substitutes artificial hair fastener, increases work efficiency; On the other hand, temporary storage of the present invention mainly adopts plastics manufacture, greatly reduces productive costs.

Further, described supply chamber 21 comprises the first opening 22 and the second opening 24, described the first opening 22 is arranged at one end of described supply chamber, described the second opening 24 is arranged at the other end of described supply chamber, described the first opening 22 is symmetrical arranged with described the second opening 24, and described the first opening 22 and the second opening 24 all with described supply chamber perforation.

Particularly, the box-packed setting connecting before and after the supply chamber 21 of described memory storage is, the first opening 22 is arranged at one end of supply chamber, the second opening 24 is arranged at the other end of supply chamber, and the first opening 22 connects with supply chamber 21, the second opening 24 connects with supply chamber, and the first opening and the second opening are symmetrical arranged.Like this, card can enter supply chamber 21 by any one end wherein, described supply chamber 21 two ends, and card also can exit supply chamber 21 by any one end wherein, described supply chamber 21 two ends.Secondly, described memory storage 2 integral structures all can adopt Plastic Parts to process, and so, can also greatly reduce the productive costs of memory storage 2 on the basis of use function that does not affect memory storage 2.

Further, the first opening 22 of described supply chamber 21 and the equal flare setting of the second opening 24.When card enters described supply chamber 21 from tell the first bayonet socket 11 or the second bayonet socket 12,22 pairs of cards of opening of flare setting enter certain directional tagging, be conducive to card and enter supply chamber 21.In addition, the inner wall smooth of the opening 22 of described supply chamber 21, can avoid like this card in the process that enters supply chamber 21, to produce unnecessary friction and hinder entering of card.

Further, described the first bayonet socket 11 from described the second bayonet socket 12 in different level heights.When described the first bayonet socket 11 and described supply chamber 21 positions are corresponding time, described the second bayonet socket 12 can not be corresponding with opening 22 positions of this supply chamber 21, this be because, in the time of the simultaneously corresponding same supply chamber of described the first bayonet socket 11 and described the second bayonet socket 12 21, the card entering supply chamber 21 from the first bayonet socket 11 may be because effect of inertia, cause a part for card to enter the second bayonet socket 12, when memory storage moves up and down like this, will make this card in the middle of described the second bayonet socket 12, cause the damage of this card or temporary storage to work.

Further, the vertical distance between described the first bayonet socket 11 and described the second bayonet socket 12 is greater than the first opening 22 of supply chamber 21 and the height of the second opening 24.Should be understood that, described the first opening 22 can have identical height with described the second opening 24, also can have different height, not affecting under the prerequisite of card and/or card release, all can implement herein.On the one hand, because the volume of described temporary storage self has certain restriction, so the vertical distance between described the first bayonet socket 11 and described the second bayonet socket 12 is unsuitable excessive.On the other hand, the vertical distance between described the first bayonet socket 11 and described the second bayonet socket 12 excessive be unfavorable for lengthwise position is higher and lengthwise position is lower supply chamber 21 enter card and/or card release.The first bayonet socket 11 of temporary storage of the present invention and the vertical distance of the second bayonet socket 12 are greater than the first opening 22 of described supply chamber 21 and the height of the second opening 24.

Further, described temporary storage also comprises a recycling box 5, and described recycling box 5 is connected with described shell 1, for reclaiming card.

Further, with reference to Fig. 2 and Fig. 4, described recycling box is installed on the bottom in described shell 1.The time of the card storage in memory storage 2 for example, while surpassing certain default threshold values (: 24 hours or 48 hours), described controller 3 is controlled lifter 4 operations, drive memory storage 2 to move up and down, make certain the empty supply chamber 21 in memory storage 2 move to the position corresponding with the first bayonet socket 11, make this card depart from described supply chamber 21, and part enters in card reader, then described controller 3 is controlled lifter 4 operations, drive upwards operation of memory storage 2, so that card reader is driven away this card in memory storage and is fallen in described recycling box by described the first bayonet socket 11.When described memory storage 2 is filled by card, described controller 3 is controlled lifter 4 operations, drive memory storage 2 to move up and down, make the supply chamber 21 that record is saved the earliest that stores in memory storage move to the position corresponding with the first bayonet socket 11, described card reader is driven this curtate in card reader away, make this card depart from described supply chamber 21, then described controller 3 is controlled lifter 4 operations, drive upwards operation of memory storage 2, so that card reader is driven away this card in memory storage 2 and fallen in described recycling box 5 by described the first bayonet socket 11.

Further, described recycling box 5 is located on the rear panel of described shell 1, and with the corresponding connection of described the second bayonet socket 12.The time of the storage of the card in described memory storage 2 for example, while surpassing certain default threshold values (: 24 hours or 48 hours), described controller 3 is controlled lifter 4 operations, drive memory storage 2 to move up and down, the supply chamber 21 that stores this card is moved to the position corresponding with the second bayonet socket 12, then this card is spat into storage shell.When described memory storage 2 is filled by card, described controller 3 is controlled lifter 4 operations, drive memory storage 2 to move up and down, by storing the supply chamber 21 that record is saved the earliest, move to the position corresponding with the second bayonet socket, then this card is spat into recycling box 5.Should be understood that, described shell 1 can be installed two recycling boxes 5 herein, be installed on respectively bottom in shell 1 and shell 1 outer with the second bayonet socket 12 junctions, so, can be for reclaiming different classes of card.

Further, with reference to Fig. 5, described lifter 4 comprises reducing motor 41, gear 42, guide plate 43, attaching parts 44 and connecting element 45, described guide plate 43 is fixedly connected with described memory storage 2, described attaching parts 44 is fixedly installed on described guide plate 43, described connecting element 45 is fixedly installed in the madial wall of described shell 1, described guide plate 43 is provided with the tooth bar 431 with described gear 42 adaptations, described attaching parts 44 both sides are provided with sliding limit 441, and described connecting element 45 is provided with the chute 451 with described sliding limit 441 adaptations.Described controller 3 is controlled the operation of described lifter 4, and at first, reducing motor 41 starts rotation, by gear 42, tooth bar 431, the guide plate 43 that is connected with memory storage 2 and attaching parts 44 is slided on described connecting element 45 in lifter 4 operations.Described gear 42, guide plate 43, attaching parts 44 and connecting element 45 all can adopt plastic injection-moulded forming, and can greatly reduce production costs like this, and not affect use of the present invention.

Further, with reference to Fig. 6 and Fig. 7, for the accurate position of locating the card release of each supply chamber 21 in memory storage or entering card, in described shell 1, be also provided with a set of induction installation, described induction installation comprises sensing chip group 23 and inductor group, in described sensing chip group 23, the quantity of sensing chip is identical with the quantity of described supply chamber 21, and the quantity of the inductor in described inductor group is the twice of the quantity of described supply chamber 21.Should be understood that herein, an each supply chamber 21 corresponding sensing chip and two inductor, an inductor in sensing chip and two inductors is used in conjunction with, can accurately locate entering card and going out card position of a supply chamber 21, sensing chip can also be used in conjunction with another one inductor, can accurately locate entering card and going out card position of this supply chamber 21.Should be understood that herein, described memory storage 2 can adopt plastic injection-moulded forming, and can greatly reduce its productive costs, in addition, because the supply chamber that described memory storage 2 is provided with is more, the memory storage 2 of employing plastics manufacture can alleviate the weight of temporary storage of the present invention greatly.

Further, described sensing chip group 23 is arranged at the lateral wall of described memory storage 2, and each sensing chip in described sensing chip group 23 is corresponding one by one with the position of described each supply chamber 21.Described inductor group comprises the first inductor group 13 and the second inductor group 14, and described the first inductor group 13 and described the second inductor group 13 are all horizontally placed on the madial wall of described shell 1; Each inductor in described the first inductor group 13 is corresponding one by one with each sensing chip in described sensing chip group 23, corresponding sensing chip and inductor are all in identical lengthwise position, each inductor in described the second inductor group 14 is corresponding one by one with each sensing chip in described sensing chip group, and corresponding sensing chip and inductor are all in identical lengthwise position.

Further, because described sensing chip group 23 is arranged at the lateral wall of described memory storage 2, each sensing chip in described sensing chip group 23 is corresponding one by one with the position of described each supply chamber 21.So, when lifter 3 brings into operation, and drive memory storage 2 to move up and down, when a sensing chip in described sensing chip group 23 runs to a sensor location in described inductor group (the second inductor group 14 of take is example), described lifter 4 is out of service; Now, 14 groups of described supply chamber 21 and the second inductors are just on identical horizontal surface.Make described supply chamber 21 reclaim or exit card, just must make the first opening 22 of supply chamber 21 or the second opening 24 corresponding with the first bayonet socket 11 or the second bayonet socket 12 positions.The first inductor group 13 of the present invention is with described the first bayonet socket 11 on same horizontal surface, and described the second inductor group 14 and described the second bayonet socket 12 are on same horizontal surface.Like this, the first opening 22 of supply chamber 21 or the second opening 24 just can be corresponding with the position of described the first bayonet socket 11 or the second bayonet socket 12, so that the recovery of card and/or send.

Should be understood that; these are only the preferred embodiments of the present invention; can not therefore limit the scope of the claims of the present invention; every equivalent structure or conversion of equivalent flow process that utilizes specification sheets of the present invention and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims

1. a temporary storage, comprise shell, memory storage, controller and lifter, the front panel of described shell is provided with the first bayonet socket that enters or exit for card, in described memory storage, be provided with a plurality of for reclaiming and send the supply chamber of card, described controller is controlled described lifter operation, described lifter drives described memory storage to move up and down, card is reclaimed or sent from described the first bayonet socket, it is characterized in that, on the rear panel of described shell, offer the second bayonet socket that enters described supply chamber or exit from outside for card from described supply chamber.

2. temporary storage according to claim 1, it is characterized in that, described supply chamber comprises the first opening and the second opening, described the first opening is arranged at one end of described supply chamber, described the second opening is arranged at the other end of described supply chamber, described the first opening and described the second opening are symmetrical arranged, and described the first opening and the second opening all connect with described supply chamber.

3. temporary storage according to claim 2, is characterized in that, the equal flare setting of the first opening of described supply chamber and the second opening.

4. temporary storage according to claim 2, is characterized in that, described the first bayonet socket from described the second bayonet socket in different level heights.

5. temporary storage according to claim 4, is characterized in that, the vertical distance between described the first bayonet socket and described the second bayonet socket is greater than the first opening of described supply chamber and the height of the second opening.

6. temporary storage according to claim 2, is characterized in that, also comprises a recycling box, and described recycling box is connected with described shell.

7. temporary storage according to claim 6, is characterized in that, described recycling box is located at the bottom in described shell.

8. temporary storage according to claim 6, is characterized in that, described recycling box is located on the rear panel of described shell, and with the corresponding connection of described the second bayonet socket.

9. temporary storage according to claim 1 and 2, it is characterized in that, in described shell, be also provided with induction installation, described induction installation comprises sensing chip group and inductor group, in described sensing chip group, the quantity of sensing chip is identical with the quantity of described supply chamber, and the quantity of the inductor in described inductor group is the twice of the quantity of described supply chamber.

10. temporary storage according to claim 9, is characterized in that, described sensing chip group is arranged at the lateral wall of described memory storage, and each sensing chip in described sensing chip group is corresponding one by one with the position of described each supply chamber; Described inductor group comprises the first inductor group and the second inductor group, described the first inductor group and described the second inductor group are all horizontally placed on the madial wall of described shell, each inductor in described the first inductor group is corresponding one by one with each inductor in described the second inductor group, and corresponding two inductors are in identical lengthwise position; Each inductor in described the first inductor group and the second inductor group is corresponding one by one with each sensing chip in described sensing chip group, and corresponding sensing chip and inductor are in identical lengthwise position.