CN105069490B

CN105069490B - A kind of Secure Transaction media set is self-service to obtain equipment and system

Info

Publication number: CN105069490B
Application number: CN201510449250.8A
Authority: CN
Inventors: 李东声
Original assignee: Tendyron Technology Co Ltd
Current assignee: Tendyron Technology Co Ltd
Priority date: 2015-07-28
Filing date: 2015-07-28
Publication date: 2018-05-29
Anticipated expiration: 2035-07-28
Also published as: HK1214014A1; CN105069490A

Abstract

The present invention, which provides a kind of self-service acquisition equipment of Secure Transaction media set and system, the equipment, includes main control unit, the first trigger module, first information acquisition module and motion；Motion includes transmission device and cutting means；Wherein, first trigger module is used to the trigger action of user self-help acquisition Secure Transaction media set being sent to main control unit；First subscriber identity information is sent to the main control unit by the first information acquisition module for gathering the first subscriber identity information；The transmission device is used to receiving that the main control unit to send cuts transmission order to transmit the Secure Transaction media set to cutting position；The cutting means are used to receiving that the main control unit to send cuts order to be cut to being located at the transmission material strip for cutting position, and Secure Transaction media set is made to drop.The present invention can provide self-service acquisition Secure Transaction media set service to the user, improve Secure Transaction media set and obtain efficiency.

Description

Self-service acquisition equipment and system for safe transaction medium assembly

Technical Field

The invention relates to the technical field of electronics, in particular to self-service acquisition equipment and a self-service acquisition system for a safe transaction medium assembly.

Background

With the technological progress and the popularization of secure transaction services, more and more users use secure transaction media such as an IC card, a dynamic password token, an internet banking shield and the like to perform secure transactions such as payment and transfer.

At present, when a user transacts and opens a safe transaction service, the operation must be completed through manual intervention, and the application of a safe transaction medium is completed. However, the business handling process is complex and tedious, and counter pressure is increased to a great extent, so that the business handling efficiency is low, the queuing time of a user is too long, and even the user cannot handle the business in the normal business time of a bank to obtain a corresponding safe transaction medium.

Therefore, there is an urgent need for a device and system that enables users to efficiently acquire secure transaction media.

Disclosure of Invention

The invention aims to provide self-service acquisition equipment and a self-service acquisition system for a safe transaction medium assembly, so as to at least solve the problem of low efficiency of acquiring a safe transaction medium.

The invention mainly aims to provide a self-service acquisition device for a safe transaction medium assembly.

It is another object of the present invention to provide a secure transaction media component self-service acquisition system.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

the invention provides self-service acquisition equipment for a safe transaction medium assembly, wherein the safe transaction medium assembly comprises a conveying material belt and at least two safe transaction media which are arranged on the conveying material belt at intervals along the length direction of the conveying material belt; the device comprises a main control unit, a first trigger module, a first information acquisition module and a movement mechanism; the movement mechanism comprises a conveying device and a cutting device; wherein: the first trigger module is used for sending a trigger action of a user for self-service acquisition of the safe transaction medium assembly to the main control unit; the first information acquisition module is used for acquiring first user identity information and sending the first user identity information to the main control unit; the transmission device is used for receiving a cutting transmission command sent by the main control unit to transmit the safe transaction medium assembly to a cutting position; the cutting device is used for receiving the cutting command sent by the main control unit to cut the conveying material belt of the safe transaction medium assembly positioned at the cutting position, so that the corresponding safe transaction medium assembly falls to the article taking port, and the safe transaction medium assembly is obtained.

In addition, before the safe transaction medium assembly is conveyed to the cutting position, the conveying device is also used for receiving a collecting and conveying command sent by the main control unit to convey the safe transaction medium assembly to an information collecting position; the motion mechanism is matched with a second information acquisition module which is used for receiving a second information acquisition command sent by the main control unit to acquire the identity information of the safe transaction medium at the information acquisition position.

In addition, the distance between two adjacent safe transaction mediums on the conveying belt is set as d₁The distance between the cutting position and the information acquisition position is d₂，d₁Is equal to d₂。

In addition, after the secure transaction media assembly falls, the main control unit generates the cutting transmission command and sends the cutting transmission command to the transmission device.

In addition, the main control unit comprises a medium verification module used for verifying the identity information of the safe transaction medium acquired by the second information acquisition module.

In addition, the acquired secure transaction medium identity information comprises a serial number and a two-dimensional code, and the medium verification module comprises: the first checking module is used for checking whether the check bits of the two-dimensional code and the two-dimensional code are consistent; the second checking module is used for checking whether the serial number is consistent with the check bit of the serial number; and the third checking module is used for checking whether the two-dimensional code is consistent with the serial number or not.

In addition, the apparatus includes a counting module to count in real time a number of cuts of the secure transaction media assembly; the main control unit comprises a first judging module used for judging whether the cut quantity of the safe transaction medium assembly reaches a preset cutting threshold value.

Further, the apparatus further comprises: the first detection module is used for detecting whether the safe transaction medium assembly is transmitted to the information acquisition position or not and sending a first detection result to the main control unit; and/or a second detection module for detecting whether the secure transaction media assembly is conveyed to the cutting position and sending a second detection result to the main control unit; and/or a third detection module, configured to detect whether an initial position and/or an end position of a cutter of the cutting device are correct, and send a third detection result to the main control unit; and/or the fourth detection module is used for detecting whether the cut safe transaction medium assembly falls off or not and sending a fourth detection result to the main control unit.

In addition, the equipment also comprises a prompt module, wherein the prompt module comprises one or more of a display module, a voice prompt module, a light prompt module, a short message module and a communication module.

In addition, when one of the following situations occurs, the main control unit generates corresponding alarm information, and the prompt module sends out the alarm information: (1) the medium checking module fails to check; (2) the first judging module detects that the cut quantity of the safe transaction medium assembly reaches a preset cutting threshold value; (3) the first detection module detects that a secure transaction media component is not delivered to the information collection location; (4) the second detection module detects that a secure transaction media assembly is not delivered to the cutting location; (5) the third detection module detects that the initial position and/or the end position of a cutter of the cutting device are/is incorrect; (6) the fourth detection module detects that the cut secure transaction media assembly does not fall off.

In addition, the secure transaction media assembly drops to the pick-up port through a buffer device, the buffer device including a device body defining a drop channel and at least one buffer unit sequentially disposed in the drop channel along an extending direction of the drop channel, each of the buffer units including: the buffer plate is rotatably connected with the device body; and a torsion spring having a rotational arm fixed to the buffer plate, configured to incline the buffer plate at an initial angle of 20 ° to 70 ° with respect to a horizontal plane, and to allow a lower end of the buffer plate to rotate downward when the buffer plate receives the secure transaction medium assembly.

Further, each of the buffer units further includes: a guide plate fixed to the apparatus body to be inclined at an angle of 40 ° to 85 ° with respect to a horizontal plane, configured to convey the secure transaction medium assembly to the buffer plate.

In addition, the device also comprises a second trigger module used for sending a trigger action of the user for replacing the secure transaction medium component to the main control unit; the transmission device is also used for receiving a reverse exchange command sent by the main control unit to transmit the safe transaction medium assembly from the cutting position to a reverse exchange position, so that the safe transaction medium assembly is in a state to be reversed.

In addition, after the main control unit receives the triggering action of the user to swap the secure transaction medium assembly sent by the second triggering module, the first information acquisition module is further used for acquiring third user identity information and sending the third user identity information to the main control unit.

In addition, after the safe transaction medium assembly is completely replaced, the transmission device is also used for receiving a collection transmission command sent by the main control unit and transmitting the safe transaction medium assembly from the replacement position to the information collection position, and the second information collection module receives a second information collection command sent by the main control unit to collect the safe transaction medium identity information of the safe transaction medium assembly located at the information collection position; and after the second information acquisition module finishes information acquisition, the main control unit generates the cutting transmission command and sends the cutting transmission command to the transmission device.

In addition, when the main control unit detects that the information acquisition position is provided with a safe transaction medium assembly, the main control unit generates a second information acquisition command and sends the second information acquisition command to the second information acquisition module.

Further, the apparatus further comprises: the fifth detection module is used for detecting whether the safe transaction medium assembly is transmitted to the swapping-back position or not and sending a fifth detection result to the main control unit; and/or a sixth detection module for detecting whether an illegal action occurs and sending a sixth detection result to the main control unit.

In addition, when one of the following situations occurs, the main control unit generates corresponding alarm information, and the prompt module sends out the alarm information: (1) the fifth detection module detects that the secure transaction media assembly is not delivered to the redemption location; (2) and the sixth detection module detects that illegal action occurs.

Further, the apparatus further comprises: the communication interface is used for performing communication connection between the equipment and an external maintenance device in a wired mode; and/or the wireless communication module is used for performing communication connection between the equipment and an external maintenance device in a wireless mode.

Furthermore, the device comprises at least two movement mechanisms.

In addition, the main control unit further comprises a first selection module, which is used for selecting the safe transaction medium components in other motion mechanisms for cutting when the cut quantity of the safe transaction medium components in the current motion mechanism reaches a cutting threshold value.

The invention also provides a self-service acquisition system of the safe transaction medium component, which comprises the equipment and a background server; the equipment further comprises a communication module, and the equipment is in interactive communication with the background server through the communication module.

In addition, the background server comprises a user verification module for verifying the collected first user identity information or third user identity information sent by the communication module.

Further, the user verification module includes: the second judgment module is used for judging whether the user authority is a common user or an administrator according to the collected third user identity information sent by the communication module; and/or the query module is used for querying whether the user transacts the secure transaction medium or not according to the collected first user identity information sent by the communication module and/or querying the type of the secure transaction medium transacted by the user.

In addition, the background server further comprises a binding module for binding the first user identity information successfully verified with the safe transaction medium identity information successfully verified.

In addition, when the user authority is an administrator, the main control unit generates the swap-back command and sends the swap-back command to the transmission device; and when the user authority is a common user, the main control unit generates the cutting command and sends the cutting command to the cutting device.

In addition, the background server also comprises an alarm module used for sending alarm information; the alarm information at least comprises one of the following: (1) when the user verification module fails to verify, the alarm information generated by the background server; (2) and the background server receives the alarm information generated by the main control unit.

In addition, the main control unit further comprises a second selection module used for selecting the safe transaction medium assembly in the corresponding motion mechanism to be cut according to the type of the safe transaction medium transacted by the user.

In addition, when the communication module is a wireless communication module, the communication module comprises a first security authentication module, and the background server further comprises a second security authentication module; the first security authentication module and the second security authentication module are used for establishing a security transmission link between the equipment and the background server, so that the information security transmission between the equipment and the background server is realized.

According to the technical scheme provided by the invention, the invention provides the self-service acquisition equipment and the self-service acquisition system for the safe transaction medium component. Compared with the prior art, the method and the system can provide the service of self-service acquisition of the safe transaction medium component for the user, reduce the counter service pressure, improve the acquisition efficiency of the safe transaction medium component and bring good user experience; and the equipment cost input is low, the operation and use are stable, the back-exchange of the medium component for safe transaction is convenient, the operation is simple and convenient, and the applicability is strong.

In addition, the invention also provides self-service acquisition equipment with the buffer device, namely the buffer device is arranged in the falling channel after the safe transaction medium assembly is cut. The buffer device can effectively prevent the safe transaction medium assembly from falling down from a higher position to the pick-up port and being broken, and has a simple structure and a convenient replacement of the torsion spring.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

Fig. 1 and 3 are schematic structural diagrams of a self-service acquisition device of a secure transaction medium assembly provided in embodiments 1 and 2 of the present invention;

FIG. 2 is a schematic structural diagram of a secure transaction media assembly according to an embodiment of the present invention;

fig. 4 and 5 are schematic structural diagrams of a detection part of a self-service acquiring device of a secure transaction medium assembly provided in embodiment 1 of the present invention;

fig. 6 is a schematic internal structural diagram of a prompt module of a self-service secure transaction medium component acquisition device according to embodiment 1 of the present invention;

fig. 7 is a schematic structural diagram of a secure transaction media component self-service acquisition device provided in embodiment 3 of the present invention;

fig. 8 is a schematic structural diagram of a detection part of a self-service acquiring device of a secure transaction medium assembly according to embodiment 3 of the present invention;

fig. 9 is a schematic partial structural diagram of a secure transaction media component self-service redundant device according to embodiment 4 of the present invention;

fig. 10-13 are schematic structural diagrams of a secure transaction media component self-service acquisition system provided in embodiment 7 of the present invention;

fig. 14 to 17 are schematic internal structural views of a buffer device according to embodiment 6 of the present invention;

fig. 18 is a schematic partial structural diagram of a secure transaction media component self-service redundant device according to embodiment 5 of the present invention;

fig. 19 is a schematic partial structural diagram of the device 1 in the self-service secure transaction medium component acquisition system provided in embodiment 7 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or quantity or location.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

In the following embodiment, a schematic structural diagram of the secure transaction media assembly is shown in fig. 2. Specifically, the secure transaction medium assembly 2 includes a conveyor belt 20 and at least two secure transaction media 21 disposed on the conveyor belt 20 at intervals along a length direction of the conveyor belt 20. The conveyor belt 20 is made of a flexible material, such as paper, PVC film, etc., and can be flexibly folded or bent. The secure transaction media 21 may be disposed (e.g., glued, adhered, etc.) directly on the same side surface of the transfer tape 20. A plurality of secure transaction media 21 may also be disposed in a plurality of packages disposed on the same side surface of the conveyor belt 20, including but not limited to the following: (1) the packaging box is a plastic uptake box with one open side, and the open side is sealed by a conveying material belt 20; (2) the packaging box is a PVC film which covers the upper part of the safe transaction medium 21 and is connected with the conveying material belt 20; (3) the packaging box is a paper box with one open side, and the open side is closed by a conveying material belt 20; (4) the packages are glued to the transport web 20. The mode can save the prior operation of manually loading the safe transaction medium into the packaging box, thereby saving the labor cost and realizing the automatic production.

The secure transaction media 21 may be sequentially disposed on the transfer tape 20, such that subsequent media component acquisition is also performed sequentially for ease of management. The secure transaction medium 21 includes, but is not limited to, an IC card, a dynamic password token, and an internet banking shield.

Example 1

The embodiment provides a self-service acquisition device for a secure transaction media assembly. As shown in fig. 1, the device 1 mainly includes a main control unit 10, a first trigger module 11, a first information acquisition module 12, and a movement mechanism 13; the movement mechanism 13 mainly includes a conveying device 130 and a cutting device 131; the main control unit 10 may adopt, but is not limited to, the following devices: the system comprises a smart phone, a tablet computer, an integrated circuit chip and an MCU (microprogrammed control unit) controller; the first triggering module 11 can be implemented by input means such as a key, a human-computer interaction interface (GUI), voice and the like, and is configured to send a triggering action of the user for obtaining the secure transaction medium component 2 by self to the main control unit 10; the first information acquisition module 12 is configured to receive a first information acquisition command sent by the main control unit 10 to acquire first user identity information, where the first user identity information includes but is not limited to several user unique identification information, such as an identity card number, fingerprint information, iris information, a barcode or a two-dimensional code on a service handling slip or card, and a work card number, and the first information acquisition module 12 may include but is not limited to an image acquisition device, such as an identity card reader, a barcode reader, a two-dimensional code reader, a character reader, a fingerprint sensor, an iris identification camera, and an IC card reader; the transport device 130 is used for receiving a cutting transport command sent by the main control unit 10 to transport the secure transaction media assembly 2 to a cutting position; the cutting device 131 is configured to receive a cutting command sent by the main control unit 10 to cut the conveyor belt 20 of the secure transaction medium assembly located at the cutting position, so that the secure transaction medium assembly 2 falls to the pickup opening 51, and the secure transaction medium assembly 2 is obtained.

When the main control unit 10 polls the trigger action sent by the first trigger module 11, it starts to poll the state of the first information acquisition module 12, and when detecting that the first information acquisition module 12 acquires the first user identity information, it controls the first information acquisition module 12 to return the first user identity information. The main control unit 10 generates a cutting command, and the cutting device 131 receives the command to cut the transport tape 20 located at the cutting position, so that the corresponding secure transaction media assembly 2 falls to the pick-up opening 51. After the secure transaction media assembly 2 falls off, the main control unit 10 generates the cutting transmission command, and the transmission device 130 receives the cutting transmission command and transmits the next secure transaction media assembly 2 to the cutting position to be cut; this eliminates the waiting time for transferring the secure transaction media assembly 2 to the cutting position, and the cutting operation can be performed directly as soon as the user triggers the acquisition assembly operation.

Before the secure transaction media assembly 2 is conveyed to the cutting position, optionally, the conveying device 130 may also receive a collecting and conveying command sent by the main control unit 10, and convey the secure transaction media assembly 2 to an information collecting position. As shown in fig. 3, the moving mechanism 13 is equipped with a second information collecting module 132, configured to receive a second information collecting command sent by the main control unit 10 to collect identity information of the secure transaction medium 21 located at the information collecting location. The identity information of the secure transaction medium 21 is unique and includes, but is not limited to, the following types: product serial number, two-dimensional code, bar code and card number; the second information collecting module 132 may include, but is not limited to, a camera, a serial number reading device, a barcode reader, a two-dimensional code reader, a character reader, and other image collecting devices. In order to facilitate the second information collecting module 132 to collect information, the identity information may be directly printed on the corresponding transport tape 20 of each secure transaction medium 21, and besides the identity information of the secure transaction medium, the product specification, the product operation diagram and other contents may also be directly printed on the corresponding transport tape 20, so that the product manufacturing cost may be saved.

The self-service acquisition device designed according to the scheme probably takes t seconds to release the secure transaction medium components required by the user, and the time is relatively long. In order to reduce the total time consumed from triggering to acquiring, a person skilled in the art generally selects a high-performance method of a main control unit, an information acquisition device and a cutting device with a fast response speed by increasing the transmission speed of a conveying device. The application of these methods not only greatly increases the manufacturing cost of the equipment, but also reduces the time to a short extent relative to the total time consumed, which does not significantly reduce the total time consumed. Therefore, the applicant proposes the following inventive technical solutions:

as shown in fig. 2, alternatively, the distance d between two adjacent secure transaction mediums 21 on the conveyor belt 20 may be the same₁The distance between the cutting position and the information acquisition position is d₂And d is₁Is equal to d₂. Therefore, while the current first secure transaction media component is sent to the cutting position and the next secure transaction media component is sent to the information collecting position, the main control unit 10 sends a cutting command to the cutting device 131 and also sends a second information collecting command to the second information collecting module 132. Therefore, before each secure transaction medium component 2 is sent to the cutting position, the secure transaction medium component is sent to the information acquisition position for identity information acquisition, so that waiting time for identity information acquisition of the secure transaction medium 21 is saved, and cutting operation can be directly performed as soon as a user triggers the operation of acquiring the medium component, so that the total consumption time for the device 1 to dispense the secure transaction medium components is about t-3 seconds.

Optionally, when the main control unit 10 detects that the information collection position has the secure transaction media assembly 2, the main control unit 10 generates the second information collection command.

As shown in fig. 3, optionally, the main control unit 10 may include a medium verification module 100, configured to verify the identity information of the secure transaction medium acquired by the second information acquisition module 132, and may detect whether the identity information on the secure transaction medium 21 is correct and complete. For example, if the collected identity information of the secure transaction medium 21 includes a serial number and a two-dimensional code, triple verification may be adopted, that is, the medium verification module 100 includes: the first checking module is used for checking whether the check bits of the two-dimensional code and the two-dimensional code are consistent; the second checking module is used for checking whether the serial number is consistent with the check bit of the serial number; and the third checking module is used for checking whether the two-dimensional code is consistent with the serial number or not.

The apparatus 1 may also include a counting module 14 for counting the number of cuts of the secure transaction media assembly 2 in real time. As shown in fig. 4, the counting module 14 may be a counting program of the main control unit 10 itself, and records a specific cutting number according to the cutting action of the cutting device 131; as shown in fig. 5, the counting module 14 may also be a counting sensor (e.g., an infrared sensor, a photoelectric sensor, etc.) disposed at the cutting position or the drop position of the secure transaction medium assembly 2, and then transmits the counting result back to the main control unit 10 in real time. The main control unit 10 may further include a first determining module 101 for determining whether the cut amount of the secure transaction media assembly 2 reaches a preset cutting threshold.

As shown in fig. 4 and 5, the apparatus 1 may further include: the first detection module 15 is configured to detect whether the secure transaction media assembly 2 is transmitted to the information acquisition location, and send a first detection result to the main control unit 10; and/or a second detection module 16, configured to detect whether the secure transaction media assembly 2 is conveyed to the cutting position, and send a second detection result to the main control unit 10; and/or a third detecting module 17, configured to detect whether a start position and/or an end position of a cutting knife of the cutting device 131 are correct, and send a third detection result to the main control unit 10; and/or a fourth detection module 18, configured to detect whether the cut secure transaction medium assembly 2 falls, and send a fourth detection result to the main control unit 10. The first detection module 15, the second detection module 16, the third detection module 17 and the fourth detection module 18 may employ an infrared sensor or a laser sensor.

The main control unit 10 generates a corresponding alarm message when one of the following conditions occurs: (1) the media check module 100 fails the check; (2) the first judging module 101 detects that the cut number of the secure transaction media assembly 2 reaches a preset cutting threshold; (3) the first detection module 15 detects that the secure transaction media assembly 2 is not delivered to the information collection location; (4) the second detection module 16 detects that the secure transaction media assembly 2 is not being conveyed to the cutting position; (5) the third detecting module 17 detects that the starting position and/or the ending position of the cutting knife of the cutting device 131 are/is not correct; (6) the fourth detection module 18 detects that the cut secure transaction media assembly 2 has not dropped.

The device 1 may further include a prompt module 19, as shown in fig. 6, the prompt module 19 may include one or more of a display module 190, a voice prompt module 191, a light prompt module 192, a short message module 193, and a call module 194. The prompting module 19 may prompt the user for further operations, such as: the screen shows a text prompt of "you put the ID card in the information reading position", and the voice prompts the user to "ask you to take … …, thank you! "and the like.

The prompt module 19 may also prompt the alarm information, for example: the display module 190 displays the alarm information, and a screen pops up a lifting frame or displays an alarm animation and the like; the voice reminding module 191 automatically generates voice alarm information and plays pre-stored voice alarm information; the light reminding module 192 reminds the user of abnormal behavior by flashing light; the short message module 193 automatically generates an alarm notification short message, sends the alarm notification short message to a preset telephone number, and notifies related personnel to check and overhaul the equipment; the call module 194 automatically dials a preset telephone number, and after the call is connected, the prestored voice alarm information can be automatically played.

Example 2

The present embodiment provides a self-service acquiring device for a secure transaction medium component, which adds a function of swapping a secure transaction medium component 2 on the basis of embodiment 1, and therefore, as shown in fig. 7, the device 1 further includes a second trigger module 40 (for example, a key, a human-computer interaction interface (GUI), a voice, and other input means) for sending a trigger action of swapping the secure transaction medium component 2 by a user to the main control unit 10; the transmission device 130 is further configured to receive a swap back command sent by the main control unit 10 to transmit the secure transaction media assembly 2 from the cutting position to a swap back position (a position convenient for a user to perform a swap back operation) via the information collecting position, so that the secure transaction media assembly 2 is in a state to be swapped back.

The second triggering module 40 is triggered when one of the following occurs:

(1) the first judging module 101 detects that the cut quantity of the safe transaction medium component 2 reaches a preset cutting threshold value, which indicates that the residual quantity of the safe transaction medium 21 in the equipment 1 reaches a limit value, and the safe transaction medium component 2 needs to be supplemented in time so as to avoid the situation that the normal operation of the equipment 1 and the business handling requirement of a user are influenced due to the fact that the safe transaction medium component 2 in the equipment 1 is insufficient;

(2) the current secure transaction media component within the device 1 needs to be swapped out for other types of secure transaction media components, where the difference in types can be divided according to media function: such as bank cards, IC cards, dynamic password cards and internet bank shields, and can also belong to different models of the same functional medium; as long as the distance between two adjacent safe transaction media 21 of the safe transaction medium assembly 2 to be placed can be kept consistent with the distance between the cutting position and the information acquisition position of the equipment 1, the equipment 1 can be used as any type of safe transaction medium assembly self-service acquisition equipment, only the safe transaction medium assembly 2 needs to be replaced, the equipment 1 does not need to be modified, and the equipment can be mounted and used;

(3) when other abnormal states occur, the safe transaction medium component 2 needs to be taken out to overhaul the equipment 1, and the like;

(4) system maintenance of the device 1 is required.

In case of the above situation (1), when the above situation is supplemented, the added secure transaction media components are connected end to end with the remaining secure transaction media components in the device 1, and a new secure transaction media component is put into the corresponding position of the device 1, that is, the first secure transaction medium 21 on the transport tape 20 is located at the reverse position.

In case (2) described above, when the exchange is performed, the secure transaction medium assembly in the device 1 is taken out, and a new secure transaction medium assembly is put in the corresponding position, i.e. the first secure transaction medium 21 on the transport tape 20 is located in the reverse position.

In the above cases (3) and (4), the secure transaction medium assembly 2 in the device 1 is taken out, and after the device 1 is overhauled or maintained, the secure transaction medium assembly 2 is put in, that is, the first secure transaction medium 21 on the transport tape 20 is located at the reverse position.

The device 1 may further be provided with a key module corresponding to the above cases (1) - (4), respectively. After the administrator performs the above-mentioned swapping-back operation, the administrator presses the corresponding key module, so that the operation information of the administrator is recorded by the background server 3, so as to generate log information. The key module can be arranged outside the device 1, and can also be arranged inside the device 1; the key can be an entity key or a virtual key on a human-computer interaction interface; if the virtual key is arranged outside the device 1, the virtual key is displayed only when the administrator performs the back-off operation, so that the virtual key is prevented from being operated by people except the administrator, and the safety of the system is guaranteed.

Optionally, the device 1 may be in a box shape and provided with a box door, and the box door may be further provided with an electronic lock; when the main control unit 10 generates the switch-back command, the electronic lock is simultaneously controlled to be opened, and the user can open the door of the box. For convenient putting in and taking out, the safe transaction medium component 2 can be arranged in the material box; after the box door is opened, the user can directly take out the material box and supplement, replace or take out the safe transaction medium component 2. After the user closes the box door, the electronic lock automatically closes.

Optionally, the device 1 further includes a communication interface connected to the main control unit 10, and the communication interface is used for performing communication connection between the device 1 and an external maintenance apparatus in a wired manner. The communication interface includes but is not limited to USB interface, network port, serial port; preferably, the communication interface is arranged inside the equipment 1, and the external maintenance device can be accessed into the communication interface only by opening the equipment 1, so that people can be prevented from randomly accessing the device to the equipment 1 to perform illegal operation, and the safety of the equipment is improved. The external service device may be a PC.

Optionally, the device 1 further includes a wireless communication module connected to the main control unit 10, and configured to perform communication connection between the device 1 and an external maintenance apparatus in a wireless manner. The wireless communication module can include but is not limited to infrared, Bluetooth, radio frequency and other communication modules; the external service device may include, but is not limited to, a handheld device such as a cell phone, a tablet computer, and a PDA.

Because the two adjacent secure transaction mediums 21 on the conveyor belt 20 have a certain distance, the rest of the secure transaction medium assembly 2 can be folded and placed in the storage space in the device 1, and the storage space is saved.

After the fallback is completed, the device 1 returns to the initialization state, i.e.: the first secure transaction medium 21 on the conveyor belt 20 is located at the back-exchange position (also called an initial position), the main control unit 10 generates a collection transmission command, and the transmission device 130 receives the collection transmission command and transmits the secure transaction medium 21 to the information collection position; when the main control unit 10 detects that the secure transaction medium assembly 2 is located at the information acquisition position, the main control unit 10 generates a second information acquisition command, and the second information acquisition module 132 receives the second information acquisition command and acquires the identity information of the secure transaction medium 21 located at the information acquisition position; after the second information collecting module 132 collects information, the main control unit 10 generates a cutting and transmitting command, and the transmitting device 130 receives the cutting and transmitting command, and transmits the secure transaction medium assembly 21 from the information collecting position to the cutting position, so that the secure transaction medium assembly is in a to-be-cut state.

In addition, after the second triggering module 40 sends a triggering action of the user to swap the secure transaction medium assembly 2 back to the main control unit 10, the main control unit 10 polls the state of the first information collection module 12, and when detecting that the first information collection module 12 collects the third user identity information, controls the first information collection module 12 to return the third user identity information to the main control unit 10. The third user identity information includes but is not limited to several user unique identification information, such as an identity card number, fingerprint information, iris information and a work card number, and the third user identity information can also include information, such as an administrator password and an authority password, so as to ensure that the identity of the user who performs the fallback operation is effectively verified.

As shown in fig. 8, the apparatus 1 may further include: a fifth detecting module 41 (e.g., an infrared sensor or a laser sensor) for detecting whether the secure transaction medium assembly 2 is transferred to the swap position, and sending a fifth detection result to the main control unit 10; and/or a sixth detection module 42, configured to detect whether an illegal action, such as a violent disassembling apparatus, occurs, and send a sixth detection result to the main control unit 10, where the sixth detection module 42 may select an explosion-proof sensor for detection.

The master control unit 10 generates a corresponding alarm message when one of the following conditions occurs: (1) the fifth detection module 41 detects that the secure transaction media assembly 2 is not delivered to the redemption location; (2) the sixth detection module 42 detects that an illegal action occurs. The prompt module 19 sends the alarm information in the same manner as in embodiment 1, and details are not repeated here.

Example 3

The embodiment provides a self-service acquiring device of a safe transaction medium assembly (see fig. 1), which is added with the function of replacing the safe transaction medium assembly 2 on the basis of the embodiment 1. That is, the user authority of the acquired first user identity information is determined by the background, if the user authority is an administrator, the main control unit 10 generates a fallback command and sends the fallback command to the transmitting device 130, and the subsequent operations refer to embodiment 1 and are not described herein again; if the user is a normal user, the main control unit 10 generates the cutting command and sends the cutting command to the cutting device 131, and the subsequent operations refer to embodiment 2 and are not described herein again.

Example 4

The present embodiment provides a self-service acquiring device for a secure transaction medium assembly, where the device 1 differs from embodiments 1 and 2 in that: at least two movement mechanisms 13 are included. The equipment 1 belongs to emergency redundant equipment, namely when the running moving mechanism 13 is in failure and can not run or the allowance of the safe transaction medium component 2 in the moving mechanism 13 is insufficient, other moving mechanisms 13 can be selected for cutting, so that the situation that the equipment can not run due to emergencies such as equipment failure and insufficient inventory can be avoided, and the business operation of obtaining the safe transaction medium component by a user is influenced.

As shown in FIG. 9, the apparatus 1 comprises n (n ≧ 2) motion mechanisms 13, and the main control unit 10 may further include a first selection module 102 connected to the first determination module 101 for selecting one motion mechanism from the motion mechanisms currently in the non-operating state as a new operating object when the cut number of the secure transaction media assembly 2 in the motion mechanism 13 currently in the operating state reaches a cutting threshold. For example, assuming that the motion mechanism 13(1) is currently in the running state, the first selection module 102 may select any one of the motion mechanisms 13(2) -13(n) as a new running object and the internal secure transaction component 2 as a new cutting object when the cut number of the secure transaction media component 2 in the motion mechanism 13(1) reaches the cutting threshold.

In addition, different movement mechanisms 13 can correspond to different types of secure transaction media components 2, and a user can select the corresponding movement mechanism 13 to obtain the secure transaction media component 2, so that the device 1 can be used for multiple purposes, and the manufacturing cost is saved.

Example 5

The embodiment provides a self-service acquiring device for a secure transaction medium assembly, and the device 1 is different from the embodiment 4 in that: the function of replacing the secure transaction media assembly 2 is added. The user may designate the secure transaction media pack 2 stored by any of the movement mechanisms 13 within the device 1 for a fallback operation. The designated operation can be realized by the second trigger module 40, that is, the information of the movement mechanism 13 designated by the user is carried in the trigger action; as shown in fig. 18, the main control unit 10 further includes a third selecting module 104, configured to select the secure transaction media assembly 2 in the corresponding motion mechanism 13 for swapping back according to the motion mechanism 13 information specified by the user. For the subsequent swap back operation, reference may be specifically made to the description of the function of swapping back the secure transaction medium assembly 2 in embodiment 2, and details are not described herein again.

When the types of secure transaction media stored by the operating mechanisms within the device 1 are different, the user may specify which kinematic structure 13 to initiate a fallback request by, but not limited to: the second trigger module 40 is a knob, the knob corresponds to different gears, and each gear corresponds to a type of safe transaction medium; the second trigger module 40 is a plurality of keys, and each key corresponds to one type of safe transaction medium; the human-computer interaction interface displays a plurality of icons, each icon corresponding to one type of secure transaction medium, and the like.

Example 6

The embodiment provides a self-service acquisition device for a safe transaction medium assembly, which is characterized in that a buffer device is added on the basis of the device 1 in any one of the embodiments 1 to 5, and is used for reducing the speed of the safe transaction medium assembly in the falling process and preventing the assembly from being broken. Specifically, the device 1 is provided with a dropping channel, as shown in fig. 14, a discharge port 50 and a pickup port 51 are arranged on the peripheral wall of the dropping channel, and the secure transaction medium assembly 2 drops from the discharge port 50 to the pickup port 51 through a buffer device; the buffer device comprises a device body and at least one buffer unit, wherein the device body is limited with a falling channel, and the at least one buffer unit is sequentially arranged in the falling channel along the extension direction of the falling channel.

Each of the buffer units includes a buffer plate 45 and a torsion spring 46. The buffer plate 45 is rotatably connected to the apparatus body. A rotational arm of the torsion spring 46 is fixed to the buffer plate 45 and is configured such that the buffer plate 45 is disposed obliquely at an initial angle θ of 20 ° to 70 ° with respect to the horizontal plane and allows the lower end of the buffer plate 45 to be rotated downward when the buffer plate 45 receives the secure transaction medium assembly 2. That is, when the component 2 dropped from above drops onto the buffer plate 45, the buffer plate 45 is rotated against the torsion force of the torsion spring 46 by the gravity and the impact force of the component 2, and the dropping speed of the component 2 is reduced. Preferably, the torsion spring 46 is configured such that the buffer plate 45 is disposed obliquely at an initial angle θ of 42 ° to 47 ° with respect to the horizontal plane.

Optionally, each buffer unit may further include a guide plate 47. The guide plate 47 is fixed to the apparatus body so as to be inclined at an angle of 40 ° to 85 ° with respect to the horizontal plane, and is arranged to convey the modules 2 toward the buffer plate 45. Preferably, the guide plate 47 is obliquely fixed to the apparatus body at an angle of 75 ° to 82 ° with respect to the horizontal plane, and the angle between the guide plate 47 of each buffer unit and the horizontal plane is larger than the initial angle θ of the buffer plate 45 of the buffer unit with respect to the horizontal plane, so that it is possible to ensure that the component 2 falls onto the buffer plate 45 and can fall along the buffer plate 45.

The lower end of the buffer plate 45 of each buffer unit is located below the lower end of the guide plate 47 of the buffer unit. Alternatively, the projection of the lower end of the buffer plate 45 of each buffer unit in the horizontal plane is located between the projection of the upper end of the buffer plate 45 of that buffer unit in the horizontal plane and the projection of the upper end of the guide plate 47 in the horizontal plane. The projection of the lower end of the buffer plate 45 of each buffer unit in the horizontal plane is located between the projection of the lower end of the guide plate 47 of that buffer unit in the horizontal plane and the projection of the upper end of the guide plate 47 in the horizontal plane.

As shown in fig. 15, at least a partial section of the drop channel is a vertical section. The number of buffer units, preferably at least two, is arranged in succession in the vertical direction in the vertical section of the drop shaft, the buffer unit lying below being configured to receive the components 2 dropped from the buffer unit adjacent above it. Because the number of the buffer units in the buffer device is multiple, the whole buffer structure is of a zigzag structure, and the assembly 2 can be buffered for many times in the falling process, thereby achieving the best buffer effect. And the guide plate 47 of the lower cushion unit is arranged to receive the component 2 dropped from the cushion plate 45 of the upper adjacent cushion unit.

The buffer structure composed of different numbers of buffer units can be suitable for dropping of the components 2 with different heights. When the device 1 comprises at least two movement mechanisms 13, each movement mechanism 13 may correspond to a respective drop channel, or may share a drop channel. When a drop channel is shared, as shown in fig. 16, a plurality of discharge ports 50 and a pick-up port 51 are opened in the peripheral wall of the drop channel on the apparatus 1 to drop the modules 2 in the different movement mechanisms 13 from the discharge ports 50 at the respective heights onto a buffer unit.

As shown in fig. 14 to 16, solid arrows indicate the moving direction of the secure transaction medium assembly, and dotted arrows indicate the rotating direction of the buffer plate 45 when an impact is applied. The buffering mechanism of this embodiment is a passive buffering mechanism, and the component 2 can slide downward through the guiding plate 47 after coming out from the discharging port 50, and when reaching the lower end of the guiding plate 47, the component will be separated from the guiding plate 47 and fall onto the buffering plate 45, and under the action of the gravity and the falling impact of the component 2, the lower end of the buffering plate 45 rotates downward to compress the torsion spring 46. The initial angle theta of the buffer plate 45 increases and the module 2 will slide slowly down the buffer plate 45 under the influence of gravity and finally fall onto the guide plate 47 of the next buffer unit or into the pick-up port 51.

As shown in fig. 16, each buffer unit may further optionally include an adjustment plate 44, another rotational arm fixed to the torsion spring 46, configured to adjust an initial angle θ of the buffer plate 45 with respect to the horizontal plane by the torsion spring 46, so that the initial angle θ of the buffer plate 45 with respect to the horizontal plane is different when the adjustment plate 44 is at different positions with respect to the apparatus body. With this embodiment, for assemblies 2 of different properties, the initial angle of the buffer plate 45 with respect to the horizontal plane can be adjusted to different angles by the adjustment plate 44 to suit assemblies 2 of various properties. Preferably, each buffer unit may further include a rotation shaft 48 fixed to the apparatus body. The torsion spring 46 is fitted around the rotating shaft 48. One rotary arm of the torsion spring 46 is fixed to the upper end of the buffer plate 45, and the other rotary arm is fixed to the upper end of the adjustment plate 44, so that the buffer plate 45 and the adjustment plate 44 form an approximate splayed structure. In some alternative embodiments, the buffer plate 45 has a rotation shaft at the middle and both sides of the upper end thereof. The rotation shafts of both sides of the buffer plate 45 are inserted into the corresponding rotation holes of the device body. The torsion spring 46 is sleeved on the rotating shaft in the middle of the upper end of the buffer plate 45, and one rotating arm of the torsion spring is fixed on the buffer plate 45, and the other rotating arm of the torsion spring is fixed on the upper end of the adjusting plate 44.

As shown in fig. 17, at least one gear groove set is optionally further provided on the device body, and each gear groove set has a plurality of gear grooves 49. The adjustment plate 44 of each cushion unit is mounted in one shift groove 49 of a shift groove group to make the initial angle θ of the cushion plate 45 different with respect to the horizontal plane when the adjustment plate 44 is located in a different shift groove 49 of the shift groove group. For example, the angle between each two adjacent shift grooves 49 is 20 °. In some alternative embodiments, the initial angle θ of the buffer plate 45 with respect to the horizontal plane may also be changed by replacing the torsion springs 46 of different spring coefficients.

When at least two motion mechanisms 13 are included in the device 1 and share the same drop path, or different types of secure transaction medium assemblies 2 are replaced in the original motion mechanism 13, the currently dropped assembly 2 may stagnate on the buffer plate 45 if the currently dropped assembly 2 is lighter in weight than the previously dropped assembly 2. In order to enable the lighter assembly 2 to fall down, each damping unit may further comprise a fine adjustment mechanism. The fine adjustment mechanism is configured to adjust an initial angle θ of the cushion plate 45 with respect to the horizontal plane in a range of 0 to 5 ° by the adjustment plate 44. The fine adjustment mechanism of each cushion unit is, for example, a bolt 52 rotatably mounted to the apparatus body. One end of the bolt 52 of each cushion unit is in contact abutment with a lower portion of the side of the adjustment plate 44 facing away from the cushion plate 45, so that when the components 2 are light in weight and cannot fall down, the bolts 52 are rotated to slightly increase the angle between the cushion plate 45 with respect to the horizontal plane, allowing these components 2 to fall down. The adjustment of the fine adjustment mechanism can make the assemblies 2 slide off the buffer plate 45.

Example 7

The embodiment provides a self-service acquisition system for a secure transaction medium component, as shown in fig. 10, the system includes the device 1 and the backend server 3 described in any one of embodiments 1 to 6, and the backend server 3 monitors and manages the running state of the device 1 in real time.

As shown in fig. 11, the device 1 may further include a communication module 43, and the device 1 performs interactive communication with the background server 3 through the communication module 43. When the communication module 43 is a wireless communication module, the communication module 43 includes a first security authentication module 430, and the background server 3 further includes a second security authentication module 30; the first security authentication module 430 and the second security authentication module 30 are configured to establish a secure transmission link between the device 1 and the backend server 3, so as to realize secure transmission of information between the device 1 and the backend server 3.

As shown in fig. 12 (the first triggering module 11, the moving mechanism 13, and other modules are not shown), the background server 3 may include a user verification module 31 for verifying the collected first user identity information or the third user identity information sent by the communication module 43.

Specifically, the user verification module 31 may include one or two of the following modules:

(1) the second judging module 311 is configured to judge whether the user right is a normal user or an administrator according to the collected third user identity information sent by the communication module 43. After the main control unit 10 receives the triggering action of the user to swap the secure transaction medium assembly 2 sent by the second triggering module 40, the second judging module 311 receives the third user identity information acquired by the first information acquiring module 12, and judges the user right of the user through database query; if the result is the administrator, the main control unit 10 generates the swap back command again, and performs the subsequent swap back operation, that is, the transmission device 130 receives the swap back command to transmit the secure transaction medium assembly 2 located at the cutting position to the swap back position, so that the secure transaction medium assembly is in the state to be swapped; if the judgment result is that the user is a normal user, the prompt module 19 will give an error prompt and stop the switch-back process. Therefore, only after the user authority is confirmed to be the administrator, the main control unit 10 can generate the swap back command, so that the persons without the authority can be prevented from swapping back the secure transaction medium components in the device 1, and the security of the system is improved.

(2) A query module 310, configured to query whether the user transacts a secure transaction medium according to the collected first user identity information sent by the communication module 43, and/or query the type of the secure transaction medium transacted by the user (the type of the medium selected when the user transacts related services); if the user is inquired that the safe transaction medium is transacted, the subsequent operation of acquiring the safe transaction medium is executed, namely the cutting device 131 receives a cutting command to cut the conveying material belt 20 at the cutting position; if the user does not inquire that the user transacts the secure transaction medium, the prompt module 19 gives an error prompt and stops the acquisition process.

When the device 1 is the device according to embodiment 4 or 5 of the present invention, as shown in fig. 19, the main control unit 10 may further include a second selection module 103 for selecting the safe transaction medium assembly 2 in the corresponding moving mechanism 13 to be cut according to the type of the safe transaction medium handled by the user.

The background server 3 may further include a binding module 32, configured to bind the first user identity information (i.e., the identity information of the general user who has handled the secure transaction medium) successfully verified by the user verification module 31 with the identity information of the secure transaction medium successfully verified by the medium verification module 100, and store the bound information in the background server 3.

As shown in fig. 13, the background server 3 may further include an alarm module 33 for sending alarm information. The alarm module 33 can adopt but not limited to sound and light, voice, mail, short message, call, remote alarm and other alarm modes; the alarm information at least comprises one of the following: (1) when the user verification module 31 fails to verify, the alarm information generated by the background server 3; (2) and the alarm information generated by the main control unit 10 and received by the background server 3.

The background server 3 may also have the following functions:

(1) counting the release amount of the secure transaction medium component 2;

(2) records of maintenance, addition, deletion, inquiry, modification, etc. of the secure transaction media assembly 2;

(3) modifying the running state of the equipment 1, and setting the equipment 1 into a freezing state, a maintainable state, a waste state and the like;

(4) maintenance records of the device 1;

(5) the device 1 is upgraded online, including application upgrade, firmware version upgrade, software upgrade, etc.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and alternate implementations are included within the scope of the preferred embodiment of the present invention in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present invention.

It should be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above embodiments, the various steps or methods may be implemented in software or firmware stored in memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, any one or combination of the following techniques, which are known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.

It will be understood by those skilled in the art that all or part of the steps carried by the method for implementing the above embodiments may be implemented by hardware related to instructions of a program, which may be stored in a computer readable storage medium, and when the program is executed, the program includes one or a combination of the steps of the method embodiments.

In addition, functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may exist alone physically, or two or more units are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. The integrated module, if implemented in the form of a software functional module and sold or used as a stand-alone product, may also be stored in a computer readable storage medium.

The storage medium mentioned above may be a read-only memory, a magnetic or optical disk, etc.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made in the above embodiments by those of ordinary skill in the art without departing from the principle and spirit of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A secure transaction media component self-service acquisition device, comprising: the safe transaction medium assembly comprises a conveying material belt and at least two safe transaction media which are arranged on the conveying material belt at intervals along the length direction of the conveying material belt;

the device comprises a main control unit, a first trigger module, a first information acquisition module and a movement mechanism; the movement mechanism comprises a conveying device and a cutting device; wherein,

the first trigger module is used for sending a trigger action of a user for self-service acquisition of the safe transaction medium assembly to the main control unit;

the first information acquisition module is used for acquiring first user identity information and sending the first user identity information to the main control unit;

the transmission device is used for receiving a cutting transmission command sent by the main control unit to transmit the safe transaction medium assembly to a cutting position;

the cutting device is used for receiving a cutting command sent by the main control unit to cut the conveying material belt of the safe transaction medium assembly positioned at the cutting position, so that the corresponding safe transaction medium assembly falls to a piece taking port to obtain the safe transaction medium assembly;

the motion mechanism is matched with a second information acquisition module and is used for receiving a second information acquisition command sent by the main control unit to acquire the identity information of the safe transaction medium component positioned at the information acquisition position; the main control unit sends the cutting command to the cutting device and sends a second information acquisition command to the second information acquisition module;

and the distance between two adjacent safe transaction media on the conveying material belt is set as d₁The distance between the cutting position and the information acquisition position is d₂，d₁Is equal to d₂。

2. The secure transaction media component self-service acquisition device of claim 1, wherein: and after the safe transaction medium assembly falls off, the main control unit generates the cutting transmission command and sends the cutting transmission command to the transmission device.

3. The secure transaction media component self-service acquisition device of claim 1, wherein: the main control unit comprises a medium verification module used for verifying the identity information of the safe transaction medium acquired by the second information acquisition module.

4. A secure transaction media component self-service acquisition device as recited in claim 3, wherein: the acquired identity information of the safe transaction medium comprises a serial number and a two-dimensional code, and the medium checking module comprises:

the first checking module is used for checking whether the check bits of the two-dimensional code and the two-dimensional code are consistent;

the second checking module is used for checking whether the serial number is consistent with the check bit of the serial number; and

and the third checking module is used for checking whether the two-dimensional code is consistent with the serial number.

5. The secure transaction media component self-service acquisition device of claim 1, wherein: the apparatus further includes a counting module for counting in real time a number of cuts of the secure transaction media assembly;

the main control unit comprises a first judging module used for judging whether the cut quantity of the safe transaction medium assembly reaches a preset cutting threshold value.

6. The secure transaction media component self-service acquisition device of claim 1, wherein the device further comprises:

the first detection module is used for detecting whether the safe transaction medium assembly is transmitted to the information acquisition position or not and sending a first detection result to the main control unit; and/or

The second detection module is used for detecting whether the safe transaction medium assembly is conveyed to the cutting position or not and sending a second detection result to the main control unit; and/or

The third detection module is used for detecting whether the initial position and/or the end position of the cutter of the cutting device are correct or not and sending a third detection result to the main control unit; and/or

And the fourth detection module is used for detecting whether the cut safe transaction medium assembly falls off or not and sending a fourth detection result to the main control unit.

7. The secure transaction media component self-service acquisition device of claim 1, wherein: the equipment also comprises a prompt module, wherein the prompt module comprises one or more of a display module, a voice prompt module, a light prompt module, a short message module and a communication module.

8. The self-service secure transaction media component acquisition device of claim 7, wherein the master control unit generates corresponding alarm information when one of the following occurs, and the prompt module sends the alarm information:

(1) the medium checking module fails to check;

(2) the first judging module detects that the cut quantity of the safe transaction medium assembly reaches a preset cutting threshold value;

(3) the first detection module detects that the secure transaction media assembly is not transmitted to the information acquisition location;

(4) a second detection module detects that a secure transaction media assembly is not conveyed to the cutting position;

(5) the third detection module detects that the initial position and/or the end position of a cutter of the cutting device are/is incorrect;

(6) the fourth detection module detects that the cut secure transaction media assembly does not fall off.

9. The secure transaction media component self-service acquisition device of claim 1, wherein: the safe transaction medium assembly falls to the pick-up port through the buffer device, the buffer device comprises a device body limited with a falling channel and at least one buffer unit sequentially arranged in the falling channel along the extending direction of the falling channel, and each buffer unit comprises:

the buffer plate is rotatably connected with the device body; and

a torsion spring having a rotational arm fixed to the buffer plate, configured to tilt the buffer plate at an initial angle of 20 ° to 70 ° with respect to a horizontal plane, and to allow a lower end of the buffer plate to rotate downward when the buffer plate receives a secure transaction medium assembly.

10. The secure transaction media component self-service acquisition device of claim 9, wherein: each of the buffer units further includes: a guide plate fixed to the apparatus body to be inclined at an angle of 40 ° to 85 ° with respect to a horizontal plane, configured to convey the secure transaction medium assembly to the buffer plate.

11. The secure transaction media component self-service acquisition device of claim 1, wherein: the device also comprises a second trigger module used for sending a trigger action of the user for replacing the safe transaction medium component to the main control unit;

the transmission device is also used for receiving a reverse exchange command sent by the main control unit to transmit the safe transaction medium assembly from the cutting position to a reverse exchange position, so that the safe transaction medium assembly is in a state to be reversed.

12. The secure transaction media component self-service acquisition device of claim 11, wherein: after the main control unit receives the triggering action of the user to replace the safe transaction medium assembly sent by the second triggering module, the first information acquisition module is also used for acquiring third user identity information and sending the third user identity information to the main control unit.

13. The secure transaction media component self-service acquisition device of claim 11, wherein: after the safe transaction medium assembly is reversed, the transmission device is also used for receiving a collection transmission command sent by the main control unit and transmitting the safe transaction medium assembly from the reversing position to the information collection position, and the second information collection module receives a second information collection command sent by the main control unit to collect the safe transaction medium identity information of the safe transaction medium assembly positioned at the information collection position;

and after the second information acquisition module finishes information acquisition, the main control unit generates the cutting transmission command and sends the cutting transmission command to the transmission device.

14. The secure transaction media component self-service acquisition device of claim 1, wherein: and when the main control unit detects that the information acquisition position is provided with a safe transaction medium assembly, the main control unit generates a second information acquisition command and sends the second information acquisition command to the second information acquisition module.

15. The secure transaction media component self-service acquisition device of claim 11, wherein the device further comprises:

the fifth detection module is used for detecting whether the safe transaction medium assembly is transmitted to the swapping-back position or not and sending a fifth detection result to the main control unit; and/or

And the sixth detection module is used for detecting whether illegal actions occur or not and sending a sixth detection result to the main control unit.

16. The self-service secure transaction media component acquisition device of claim 15, wherein the master control unit generates a corresponding alert message and the prompt module sends the alert message when one of the following conditions occurs:

(1) the fifth detection module detects that the secure transaction media assembly is not delivered to the redemption location;

(2) and the sixth detection module detects that illegal action occurs.

17. A secure transaction media assembly self-service acquisition device according to any of claims 11 to 16, wherein the device further comprises:

the communication interface is used for performing communication connection between the equipment and an external maintenance device in a wired mode; and/or

And the wireless communication module is used for performing communication connection between the equipment and an external maintenance device in a wireless mode.

18. The secure transaction media component self-service acquisition device of claim 1, wherein: the device comprises at least two motion mechanisms.

19. A secure transaction media component self-service acquisition device as recited in claim 18, wherein: the main control unit further comprises a first selection module used for selecting the safe transaction medium assemblies in other motion mechanisms to cut when the cut number of the safe transaction medium assemblies in the current motion mechanism reaches a cutting threshold value.

20. A secure transaction media component self-service acquisition system, comprising: the system comprises the device of any one of claims 1 to 19 and a backend server; the equipment further comprises a communication module, and the equipment is in interactive communication with the background server through the communication module.

21. A secure transaction media component self-service acquisition system as defined in claim 20, wherein: the background server comprises a user verification module used for verifying the collected first user identity information or the third user identity information sent by the communication module.

22. A secure transaction media assembly self-service acquisition system as defined in claim 21 wherein the user verification module comprises:

the second judgment module is used for judging whether the third user authority is a common user or an administrator according to the collected third user identity information sent by the communication module; and/or

And the query module is used for querying whether the first user transacts the secure transaction medium or not and/or querying the type of the secure transaction medium transacted by the user according to the collected first user identity information sent by the communication module.

23. A secure transaction media component self-service acquisition system according to claim 21 or 22, wherein: the background server further comprises a binding module used for binding the first user identity information which is successfully verified with the safe transaction medium identity information which is successfully verified.

24. A secure transaction media component self-service acquisition system as defined in claim 22, wherein: when the user authority is an administrator, the main control unit generates a swap-back command and sends the swap-back command to the transmission device; and when the user authority is a common user, the main control unit generates the cutting command and sends the cutting command to the cutting device.

25. The secure transaction media component self-service acquisition system of claim 21, wherein the backend server further comprises an alarm module for sending alarm information; the alarm information at least comprises one of the following:

(1) when the user verification module fails to verify, the alarm information generated by the background server;

(2) and the background server receives the alarm information generated by the main control unit.

26. A secure transaction media component self-service acquisition system as defined in claim 22, wherein: the main control unit also comprises a second selection module which is used for selecting the corresponding safe transaction medium component in the movement mechanism to cut according to the type of the safe transaction medium transacted by the user.

27. A secure transaction media component self-service acquisition system as defined in claim 20, wherein: when the communication module is a wireless communication module, the communication module comprises a first security authentication module, and the background server further comprises a second security authentication module; the first security authentication module and the second security authentication module are used for establishing a security transmission link between the equipment and the background server, so that the information security transmission between the equipment and the background server is realized.