CN113908304A - Self-service terminal equipment - Google Patents

Abstract

The invention discloses a self-service terminal device, which comprises: an apparatus body; the non-contact interaction module is arranged on the equipment body and used for acquiring non-contact interaction information; the disinfection type interaction module is arranged on the equipment body and used for reading or generating the information of the physical interaction piece and disinfecting the physical interaction piece; and the control module is arranged on the equipment body, is connected with the non-contact interaction module and the disinfection type interaction module, and is used for controlling the non-contact interaction module to work according to the non-contact interaction information and controlling the disinfection type interaction module to act in response to the interaction trigger instruction of the physical interaction piece. The self-service terminal equipment can reduce the probability of cross infection of viruses on a user and improve the use safety.

Description

Self-service terminal equipment

Technical Field

The invention relates to the technical field of self-service terminals, in particular to self-service terminal equipment.

Background

Self-service terminal equipment can be configured in public places, and interaction can be realized through man-machine direct contact of the self-service terminal equipment. However, in some public places such as hospitals and stations, the flow of people is large, the sources of virus bacteria are relatively large, users carrying viruses are in contact with self-service terminal equipment, the viruses are easily spread to the self-service terminal equipment, other people are in contact with the self-service terminal equipment again, the viruses are easily spread to other people, and people can be subjected to cross infection of the viruses.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, an object of the present invention is to provide a self-service terminal device, which can reduce the probability of cross infection of virus to a user and improve the safety of use.

In order to achieve the above object, an embodiment of a first aspect of the present invention provides a self-service terminal device, including: an apparatus body; the non-contact interaction module is arranged on the equipment body and used for acquiring non-contact interaction information; the disinfection type interaction module is arranged on the equipment body and used for reading or generating physical interaction piece information and disinfecting the physical interaction piece; and the control module is arranged on the equipment body, is connected with the non-contact interaction module and the disinfection type interaction module, and is used for controlling the non-contact interaction module to work according to the non-contact interaction information and controlling the disinfection type interaction module to act in response to an interaction trigger instruction of the physical interaction piece.

According to the self-service terminal equipment provided by the embodiment of the invention, the non-contact interaction module is arranged, and the control module controls the non-contact interaction module according to the non-contact interaction information, so that the non-contact interaction between a user and the equipment can be realized, and the spread of viruses or bacteria between an equipment body and the user is avoided; and the control module responds to the interaction triggering instruction of the physical interaction piece to control the disinfection type interaction module to disinfect the physical interaction piece, so that the disinfection type interaction module can be ensured to be carried out in a sterile environment when a user is in physical contact with the equipment body. Therefore, the self-service terminal equipment provided by the embodiment of the invention can perform non-contact interaction or interaction in an aseptic environment by arranging the non-contact interaction module and the disinfection type interaction module, so that a virus or bacteria propagation path in a human-equipment-human mode can be cut off, the probability of virus cross infection of a user is reduced, and the use sanitation and safety are improved.

In some embodiments of the invention, the contactless interaction module comprises: and the air touch screen unit is connected with the control module and is used for providing equipment operation guide information in an aerial target area and working according to the non-contact interaction information.

In some embodiments of the invention, the interior of the apparatus body is formed with a first receiving cavity above which the airborne target area is formed; the air touch screen unit includes: the display screen is arranged in the first accommodating cavity; the first negative refractive index optical element is arranged in the first accommodating cavity, the display screen is arranged on one side of the first negative refractive index optical element and is a light source side, and the aerial target area is positioned on the other side of the first negative refractive index optical element and is an imaging side; the first detection unit is connected with the control module and used for detecting the operation action of a user in the aerial target area to obtain the non-contact interaction information.

In some embodiments of the invention, the contactless interaction module comprises: the identity recognition unit is arranged on the equipment body and connected with the control module and used for acquiring the identity information of the user in a non-contact manner.

In some embodiments of the invention, the contactless interaction module comprises: the non-contact scanning payment unit is arranged on the equipment body, is connected with the control module and is used for providing a scanning interface and scanning payment information in a non-contact mode when the payment piece is close to the scanning interface.

In some embodiments of the invention, the contactless interaction module further comprises: and the air password keyboard unit is connected with the control module and used for generating symbol information in the air input area and generating password information according to the operation of a user in the air input area.

In some embodiments of the invention, the aerial input region is also formed above the first receiving cavity; the air password keyboard unit includes: the display unit is arranged in the first accommodating cavity; the second negative refractive index optical element is arranged in the first accommodating cavity, the display unit is arranged on one side of the second negative refractive index optical element and is a light source side, and the aerial input region is positioned on the other side of the second negative refractive index optical element and is an imaging side; the second detection unit is connected with the control module and used for detecting the operation of a user in the air input area to obtain the password information.

In some embodiments of the invention, the physical interaction element comprises at least one of an information card, a coin, a voucher; the sterile interactive module comprises at least one of: the card sender is connected with the control module and used for outputting the information card according to a card sending trigger instruction; the card reader is connected with the control module and used for responding to the insertion instruction of the information card and reading the information of the information card; the coin inserting device is connected with the control module and is used for receiving inserted coins; the receipt printer is connected with the control module and is used for generating a receipt and outputting the receipt; the disinfection interactive module further comprises a disinfection unit, and the disinfection unit is connected with the control module and is used for disinfecting at least one of the information card, the received money and the receipt.

In some embodiments of the present invention, the apparatus body is internally formed with a second receiving chamber; the disinfection type interaction module is arranged in the second accommodating cavity, and an interaction port of the disinfection type interaction module is arranged on the equipment body.

In some embodiments of the present invention, the sterilizing unit includes an ultraviolet light source disposed in the second receiving chamber; self-service terminal equipment still includes the ultraviolet light screen, the ultraviolet light screen sets up the second holds the chamber outside in order to shelter from the ultraviolet ray.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a block diagram of a self-service terminal device of one embodiment of the invention;

FIG. 2 is a block diagram of a self-service terminal device of another embodiment of the invention;

FIG. 3 is a schematic diagram of a self-service terminal device of one embodiment of the invention;

FIG. 4 is a schematic view of an air touch screen unit of one embodiment of the present invention;

FIG. 5 is a schematic view of a plate lens of one embodiment of the present invention;

FIG. 6 is a schematic diagram of two optical waveguide arrays in accordance with one embodiment of the present invention;

FIG. 7 is a block diagram of a self-service terminal device of yet another embodiment of the invention.

Reference numerals:

a self-service terminal device 100;

the device comprises an equipment body 1, a non-contact interaction module 2, a disinfection type interaction module 3, a control module 4 and an ultraviolet light shielding plate 5;

the system comprises a first accommodating cavity 11, a second accommodating cavity 12, an air touch screen unit 21, an identity recognition unit 22, a scanning interface 23, an air input area 24, a card sender 31, a card reader 32, a coin slot machine 33, a receipt printer 34 and a disinfection unit 35;

the display screen 211, the first negative refractive index optical element 212, the imaging surface 213 where the device operation guide picture is located, the first detection unit 214, and the ultraviolet light source 351;

the optical waveguide array comprises a flat lens Q, a first glass substrate A, a first optical waveguide array B, a second optical waveguide array C and a second glass substrate D.

Detailed Description

Embodiments of the present invention will be described in detail below, and the embodiments described with reference to the drawings are exemplary.

A self-service terminal device according to an embodiment of the invention is described below with reference to fig. 1-7.

In some embodiments of the invention, as shown in fig. 1, which is a block diagram of a self-service terminal device according to one embodiment of the invention, the self-service terminal device 100 comprises a device body 1, a contactless interaction module 2, a sterile interaction module 3 and a control module 4.

The non-contact interaction module 2 is arranged on the equipment body 1 and used for acquiring non-contact interaction information so as to realize non-contact interaction between the equipment and a user and reduce the probability of virus or bacteria propagation between the user and the equipment.

In some embodiments, the contactless interaction module 2 may be implemented by using floating imaging. The principle of floating imaging is as follows: and projecting light rays generated by the display content of the entity display screen into the air through the equivalent negative refractive index optical element and displaying the light rays, so as to realize floating imaging. The user can operate the floating imaging area, then the non-contact interaction information is obtained by detecting the operation action of the floating imaging area through the detection unit, and the display content of the entity display screen is controlled according to the non-contact interaction information, so that the non-contact interaction is realized.

In other embodiments, the contactless interaction module 2 may be implemented by magnetic induction or laser scanning, image scanning, or the like. For example, an antenna for reading information may be provided in the device body 1, and the antenna for reading information may be subjected to special processing to read information at a long distance. For another example, an image scanning module may be disposed on the device body 1, and the barcode or the two-dimensional code information may be scanned by the image scanning module to obtain information. Therefore, the non-contact interaction module 2 can prevent the user from making physical contact with the device body 1, and can acquire non-contact interaction information.

The disinfection type interaction module 3 is arranged on the equipment body 1 and used for reading information of physical interaction pieces such as inserted information cards or coins or generating corresponding information of the physical interaction pieces when the information is output or the cards are handled by self, and disinfecting the physical interaction pieces. The physical interaction element refers to a specific physical object, and may include, but is not limited to, one of an information card, a money, and a receipt, for example, and the information card may include a card such as a bank card, a medical insurance card, and the like. The disinfection interactive module 3 has a disinfection function, for example, ultraviolet disinfection or other applicable disinfection methods can be adopted.

Specifically, when the user needs to make physical contact with the device body 1, for example, the user needs to insert or insert a card in the process of transacting business, or needs to make cash payment and print a receipt, the user inputs an interaction trigger instruction of the physical interaction component on the device body 1, for example, inserts the card or inputs cash, or inputs a trigger instruction of transacting the card or printing the receipt through the non-contact interaction module 2, and then the disinfection-type interaction module 3 reads or generates physical interaction component information, for example, reads card information or spits out the card or reads cash information or outputs the receipt. Wherein, the physical interactive piece inserts or takes out through disinfection formula interactive module 3's port, and disinfection formula interactive module 3 possesses the disinfection function, can disinfect to the physical interactive piece that inserts or take out each time to can guarantee that user self does not have the virus and carry under the circumstances and the physical contact of each time between the physical interactive piece all go on under sterile environment, thereby can completely cut off the virus.

The control module 4 is arranged on the device body 1 and is connected with the non-contact interaction module 2 and the disinfection-type interaction module 3. The control module 4 receives the non-contact interaction information and controls the non-contact interaction module 2 to work according to the non-contact interaction information; and the control module 4 is also used for controlling the action of the disinfection type interactive module 3 in response to the interaction triggering instruction of the physical interactive element, such as reading or spitting a card or outputting a receipt and the like.

Specifically, the non-contact interaction module 2 may obtain the interaction information in a non-physical contact manner, taking the non-contact interaction module 2 adopting a floating imaging technology as an example, the non-contact interaction module 2 may implement a touch screen function, for example, the non-contact interaction module 2 provides a virtual screen such as an aerial screen presented by floating imaging, a user may operate the aerial screen, and then the control module 4 controls the non-contact interaction module 2 to operate according to an operation action, such as displaying corresponding content on the aerial screen, and the aerial screen is a non-entity screen, thereby implementing the non-contact interaction. In some embodiments, device navigation information or symbol or digital information corresponding to a password, etc. may be provided by the contactless interaction module 2. For example, when a user needs to operate a device or input a password, a non-contact touch action such as device operation and password input can be performed through the non-contact interaction module 2, the non-contact interaction module 2 obtains non-contact interaction information such as operation action and password information sent by the user and sends the non-contact interaction information to the control module 4, and the control module 4 controls the non-contact interaction module 2 to operate, for example, display corresponding information according to the non-contact interaction information.

When a user needs to make direct contact with the physical and physical interaction piece of the device body 1, the user can interact with the disinfection type interaction module 3, and the disinfection type interaction module 3 disinfects the physical interaction piece, so that the user makes contact with the physical interaction piece in a sterile environment. For example, when the user inserts a card or inserts coins, the control module 4 detects that the information card or coins are inserted into the sterilizing interactive module 3, controls the sterilizing interactive module 3 to sterilize the information card or coins inserted into the apparatus body 1, and identifies information of the information card or coins. Or, when the self-service terminal device 100 performs operations such as card ejection or receipt printing, the control module 4 controls the disinfection-type interaction module 3 to eject the information card or output the receipt, and the information card or the receipt is disinfected while being ejected, so that the physical contact between the user and the physical interaction piece is ensured to be performed in a sterile environment, and virus isolation is realized.

According to the self-service terminal device 100 provided by the embodiment of the invention, the non-contact interaction module 2 and the disinfection type interaction module 3 are arranged on the device body 1, the control module 4 controls the non-contact interaction module 2 to work according to non-contact interaction information, man-machine non-contact interaction can be realized, the control module 4 also responds to an interaction trigger instruction of the physical interaction piece to control the disinfection type interaction module 3 to disinfect the physical interaction piece, and the physical contact between a user and the physical interaction piece is realized in a sterile environment. Based on the contactless interaction and disinfection type interactive processing mode, in the process of operating the equipment body 1 by a user, the contactless interaction between the user and the equipment body 1 can be ensured, or when the user and the equipment body 1 need to be in direct physical contact, the human-computer interaction process can be ensured to be carried out in an aseptic environment, so that a transmission chain of virus cross infection from the human to the self-service terminal equipment 100 to the human can be cut off, the purpose of virus isolation is achieved, and the use safety and the cleanliness are improved.

A contactless interaction module according to an embodiment of the present invention is described below with reference to fig. 2 to 6.

In some embodiments of the present invention, as shown in fig. 2, it is a block diagram of a self-service terminal device according to another embodiment of the present invention, wherein the non-contact interaction module 2 includes an air touch screen unit 21, and the air touch screen unit 21 is connected with the control module 4, and is used for providing device operation guide information in an aerial target area and working according to the non-contact interaction information.

When a user needs to transact business by using the self-service terminal device 100, the control module 4 controls the air touch screen unit 21 to form an air virtual screen in an air target area, and provides device operation guide information on the air virtual screen, such as information for prompting insertion of an information card, payment, password input and the like. The user can perform touch operation according to the device operation guide information provided by the air touch screen unit 21, the air touch screen unit 21 obtains non-contact interaction information according to the touch operation action, and the control module 4 controls the non-contact interaction module 2 to display corresponding content through an aerial virtual screen according to the non-contact interaction information, so that non-contact interaction between the user and the air touch screen unit 21 is realized.

Specifically, as shown in fig. 3, the self-service terminal device according to an embodiment of the present invention is a schematic diagram, wherein an internal physical screen of the air touch screen unit 21 is processed by a special optical element to project display content of the physical screen to an aerial target area, a planar aerial virtual screen composed of air is formed in the aerial target area, and a user can directly obtain device operation guide information provided by the air touch screen unit 21 on the aerial virtual screen. And the aerial virtual screen has the same touch control function as the entity touch screen, and a user can perform non-contact operation according to the equipment operation guide information, such as directly clicking on the display content of the aerial virtual screen to provide interactive information. In the interaction process, the user avoids physical contact with the entity part of the device body 1 through non-contact operation, and the propagation of bacteria or viruses is effectively prevented.

In some embodiments of the present invention, the apparatus body 1 is internally formed with a first accommodating chamber 11, and an aerial target area is formed above the first accommodating chamber 11. Specifically, the air touch screen unit 21 may be disposed below the air target area, and the air touch screen unit 21 is displayed as an image on the air target area. The three-dimensional space of the aerial virtual screen of the air touch screen unit 21 corresponds to an aerial target area.

In an embodiment, as shown in fig. 4, the air touch screen unit 21 according to an embodiment of the present invention is a schematic diagram, wherein the air touch screen unit 21 includes a display screen 211 and a first negative refractive index optical element 212, and the display screen 211 is disposed in the first accommodating cavity 11 for displaying a guiding picture and the like. The first negative refractive index optical element 212 is disposed in the first accommodating cavity 11, and is configured to converge and image light of the guiding picture displayed by the display screen 211 onto an aerial target area to form an aerial virtual screen.

The display screen 211 is disposed on one side of the first negative refractive index optical element 212, which is a light source side, an included angle between the display screen 211 and the first negative refractive index optical element 212 may be 45 degrees, an aerial target region is located on the other side of the first negative refractive index optical element 212, which is an imaging side, and the aerial target region is used for transmitting light reflected by the first negative refractive index optical element 212. Specifically, the first negative refractive optical element 212 may be disposed below the aerial target area, and the first negative refractive optical element 212 reflects light emitted from the display screen 211, and the reflected light is focused and imaged in the aerial target area. That is, the display contents of the display screen 211 are imaged by the first negative refractive optical element 212 and displayed in the target area in the air, so as to form an in-air device operation guide picture, and an angle between an imaging plane 213 of the device operation guide picture and the first negative refractive optical element 212 may be 45 degrees.

The air touch screen unit 21 may further include a first detecting unit 214, where the first detecting unit 214 is connected to the control module 3, and is configured to detect an operation of a user on an aerial target area, that is, an aerial virtual screen, to obtain non-contact interaction information, and feed back the detected non-contact interaction information to the control module 4, where a detection area of the first detecting unit 214 coincides with the aerial target area, the user may directly touch screen information displayed on the aerial target area with a hand, so as to perform an operation such as inputting an instruction on the aerial virtual screen, and the aerial virtual screen has a touch control function same as that of the physical screen, thereby implementing touch control on the aerial virtual screen with screen display, that is, implementing non-contact interaction.

In an embodiment, the first negative refractive-index optical element 212 may be a flat lens Q, and the flat lens Q is fixed in the first accommodation cavity 11. As shown in fig. 5, which is a schematic diagram of a flat lens according to an embodiment of the present invention, the flat lens Q includes a first optical waveguide array B and a second optical waveguide array C. The first optical waveguide array B and the second optical waveguide array C are tightly attached to each other on the same plane and are orthogonally arranged. Preferably, the first optical waveguide array B and the second optical waveguide array C may be provided with the same thickness, facilitating design and production. The flat lens Q may further include two glass substrates, such as a first glass substrate a and a second glass substrate D in fig. 5, for protecting the first optical waveguide array B and the second optical waveguide array C.

Specifically, as shown in fig. 5, the flat lens Q includes a first glass substrate a, a first optical waveguide array B, a second optical waveguide array C, and a second glass substrate D in this order from the display screen 211 side to the aerial target area side. The principle of the first negative refractive index optical element 212 for realizing aerial imaging is as follows: as shown in fig. 6, the first optical waveguide array B and the second optical waveguide array C are composed of a plurality of reflection units P with rectangular cross sections, the extension directions (optical waveguide array directions) of the reflection units P in the first optical waveguide array B and the second optical waveguide array C are perpendicular to each other, that is, the first optical waveguide array B and the second optical waveguide array C are orthogonally arranged when viewed from the thickness direction of the flat lens Q, so that two light beams in the orthogonal directions converge at one point, and the object image planes (light source side and imaging side) are ensured to be symmetrical with respect to the flat lens Q, thereby generating an equivalent negative refraction phenomenon and realizing aerial imaging.

In some embodiments of the present invention, as shown in fig. 2, the contactless interaction module 2 further includes an identity recognition unit 22, the identity recognition unit 22 is disposed on the device body 1, and the identity recognition unit 22 is connected to the control module 4 and configured to obtain the user identity information in a contactless manner. The identity recognition unit 22 is an interface for reading user identity information for the self-service terminal device 100, and an information reading antenna is arranged in the identity recognition unit 22, and the antenna can remotely read user identity information after special processing, so that direct contact between a handheld identity card of a user and the device is avoided.

When a user determines that identity recognition operation is required according to the provided device operation guide information in the process of handling services, the identity recognition unit 22 can scan user certificates such as identity cards and send user identity information to the control module 4, and then the control module 4 can compare the received user information with the identity information in the internet to recognize the identity of the user. Specifically, as shown in fig. 3, when the user identity information needs to be input, the user can align the identity card with the area of the identity recognition unit 22 and keep a certain distance, and the control module 4 controls the identity recognition unit 22 to scan the identity card to obtain the identity card information. In the process of scanning the identity card, the user adopts a non-contact operation mode, so that physical contact with the entity part of the equipment body 1 is avoided, and the propagation of bacteria or viruses between the user and the equipment body 1 is effectively prevented.

In some embodiments of the present invention, as shown in fig. 2, the contactless interaction module 2 further includes a contactless scanning payment unit, which is disposed on the device body 1 and connected to the control module 4, and is configured to provide a scanning interface 23 and to contactlessly scan payment information when the payment member approaches the scanning interface 23. The non-contact scanning payment unit may employ a device having a function of magnetic induction or laser scanning or image scanning, etc., and perform a payment operation by scanning payment information such as two-dimensional code information, etc. Or, a short-distance transmission module can be arranged in the non-contact scanning payment unit, contact is not needed, and payment information can be acquired based on a short-distance transmission technology, so that non-contact payment is realized.

Specifically, as shown in fig. 3, when a user needs to pay by using the mobile device, the user can align a two-dimensional code payment interface in the mobile device with a scanning interface 23 of the non-contact scanning payment unit and keep a certain distance, the control module 4 controls the non-contact scanning payment unit to scan payment information and send the payment information to the control module 4, and the control module 4 identifies successfully and deducts money, thereby completing the payment operation. In the payment process, the user avoids physical contact with the entity part of the device body 1 by adopting a non-contact scanning payment mode, and effectively prevents the propagation of bacteria or viruses.

In some embodiments of the present invention, as shown in fig. 2, the contactless interaction module 2 further comprises an air password keyboard unit connected to the control module 4 for generating symbol information in the air input area 24 and generating password information according to a user operation in the air input area 24.

When a user needs to input a password or a card number and the like in the process of handling business, the control module 4 controls the air password keyboard unit to generate symbol information in the air input area, namely, the floating imaging of the keyboard is realized. The air input area can display a keyboard picture, a user touches a symbol in the keyboard picture, and the control unit 4 can generate password information according to the operation action of the user. Specifically, as shown in fig. 3, the keyboard image projected to the air input area 24 by the air password keyboard unit has the same touch control function as the physical screen, and the user directly clicks the corresponding symbols such as numbers or letters on the keyboard image in the air input area 24 with a hand, thereby completing the operation of inputting the password or the card number. In the operation process, the user operates the air password keyboard unit to realize non-contact password input, so that physical contact with the entity part of the equipment body 1 is avoided, and the propagation of bacteria or viruses is effectively prevented.

In some embodiments of the present invention, as shown in fig. 3, a hollow input region 24 is also formed above the first receiving chamber 11.

Specifically, the air code keypad unit may be disposed below the air input region 24, with the air code keypad unit being displayed as an image on the air input region 24. I.e., the three-dimensional space of the keyboard picture displayed by the air password keyboard unit, is the air input region 24.

An air password keyboard unit according to an embodiment of the present invention will be described with reference to fig. 4.

In an embodiment, the air password keyboard unit includes a display unit and a second negative refractive index optical element. The display unit is equivalent to the display screen 211 in fig. 4, and the display unit is disposed in the first accommodating cavity 11 and is used for displaying the content such as the keyboard picture. The second negative refractive-index optical element is equivalent to the first negative refractive-index optical element 212 in fig. 4, and the second negative refractive-index optical element is disposed in the first accommodating cavity 11 and is used for converging and imaging light rays of a keyboard picture displayed by the display unit in an air input area. The display unit is arranged on one side of the second negative refractive index optical element and is a light source side, an included angle between the display unit and the second negative refractive index optical element can be 45 degrees, and the aerial input area is positioned on the other side of the second negative refractive index optical element and is an imaging side and used for transmitting light rays reflected by the second negative refractive index optical element. Specifically, a second negative refractive optical element may be disposed below the air input region 24, the second negative refractive optical element reflecting light emitted from the display unit, and the reflected light being focused and imaged at the air input region 24. That is, the display content of the display unit is imaged and displayed in the air input area 24 through the second negative refractive index optical element, so as to form an air password keyboard picture, and the included angle between the air password keyboard picture and the second negative refractive index optical element can be 45 degrees.

The air password keyboard unit may further include a second detection unit, which is equivalent to the first detection unit 214 in fig. 4, and is configured to detect an operation action of the user in the air input area 24 to obtain password information, and feed back the detected password operation information to the control module 4 to identify a password input by the user, where a detection area of the second detection unit coincides with a password keyboard screen, the user may input symbols such as numbers or letters by operating the air password keyboard screen, and the air password keyboard unit has a touch control function same as an entity screen, so as to realize presenting the password keyboard and inputting the password in the air, thereby achieving a purpose of inputting the password in a contactless manner, and avoiding propagation of viruses or bacteria between the user and the device body 1.

In the embodiment, the second negative refractive-index optical element may also adopt a flat lens Q as shown in fig. 5, the flat lens Q is fixed in the first accommodating cavity 11, and the object image planes (the light source side and the imaging side) are ensured to be symmetrical with respect to the flat lens Q, so that an equivalent negative refraction phenomenon is generated, thereby realizing aerial imaging.

In some embodiments of the present invention, the physical interaction element comprises at least one of an information card, a coin, a voucher, wherein the information card may comprise a bank card, a social security card, a visit card, etc., the coin may comprise paper money and coins, and the voucher may comprise a transaction information recording voucher, a number voucher, etc.

A sterile interactive module 3 according to an embodiment of the invention is described below with reference to fig. 3 and 7. As shown in fig. 7, which is a block diagram of a self-service terminal device according to yet another embodiment of the present invention, wherein the sterile interactive module 3 may comprise at least one of a card issuer 31, a card reader 32, a coin acceptor 33 and a voucher printer 34.

The card sender 31 is connected to the control module 4, and is configured to output an information card according to a card sending trigger instruction. For example, when a user needs to self-service card handling during business handling, the user can obtain an information card from the self-service terminal device 100, and the information card is discharged from the card sender 31, so that self-service card handling is realized. The card reader 32 is connected to the control module 4 for reading information of the information card in response to an insertion instruction of the information card. The coin acceptor 33 is connected to the control module 4 for receiving inserted coins, for example, during a transaction, a user selects a cash transaction, and the coins can be inserted into the inlet of the coin acceptor 33 for payment. The receipt printer 34 is connected to the control module 4, and is configured to generate a receipt and output the receipt, for example, when the user performs operations such as number taking, the control module 4 may control the receipt printer 34 to print a number receipt and output the number receipt, or when the user completes all operations, the control module 4 may control the receipt printer 34 to print a transaction information record receipt and output the transaction information record receipt.

In some embodiments of the present invention, as shown in fig. 3, a second accommodating cavity 12 is formed inside the device body 1, the sterile interactive module 3 is disposed in the second accommodating cavity 12, and the interactive port of the sterile interactive module 3 is disposed on the device body 1.

The sterile interactive module 3 further comprises a sterilization unit 35, the sterilization unit 35 being connected to the control module 4 for sterilizing at least one of the information card, the received money and the voucher. Wherein the sterilizing unit 35 includes an ultraviolet light source 351, the ultraviolet light source 351 being disposed in the second receiving chamber 12.

In an embodiment, when a user inserts a card, picks a card, inserts a coin, and prints a receipt by contacting the sterilizable interaction module 3, the ultraviolet light source 351 emits an ultraviolet light beam to perform a sterilization operation on at least one of an information card, a received money, and a receipt. Ultraviolet light sources 351 may be disposed in the card sender 31, the card reader 32, the coin selector 33 and the receipt printer 34, and when the card sender 31, the card reader 32, the coin selector 33 and the receipt printer 34 are operated, the ultraviolet light sources 351 in the corresponding component are immediately lighted to sterilize the physical interaction member entering or leaving the component.

Specifically, the card sender 31 may be integrated with the ultraviolet light source 351, and when the card sender 31 executes an operation of outputting the information card according to the card sending trigger instruction, the control module 4 controls the ultraviolet light source 351 to be turned on immediately, and the ultraviolet light beam sterilizes the information card. And the ultraviolet light source 351 is lighted every time the card sender 31 discharges the information card, i.e. it is ensured that the information card discharged every time is sterilized.

The card reader 32 may be integrated with an ultraviolet light source 351, when a user inserts an information card into the card reader 32, the control module 4 controls the ultraviolet light source 351 to be turned on immediately, the ultraviolet light beam may sterilize the inserted information card, and the card reader 32 reads information of the information card in response to an insertion instruction of the information card. And the ultraviolet light source 351 is illuminated each time the user performs an insertion of an information card from the card reader 32, i.e. to ensure that each inserted information card is sterilized.

The coin-freed apparatus 33 can be integrated with the ultraviolet light source 351, when a user inserts coins from the coin-freed apparatus 33 according to the payment prompt information, the control module 4 controls the ultraviolet light source 351 to be lightened immediately, and the ultraviolet light beam sterilizes the coins to ensure that the coin-freed apparatus can be operated in a virus-free environment. And when the user inserts coins from the coin slot 33 every time, the ultraviolet light source 351 is lightened, namely, the coins inserted every time are stored in the coin storage box after being disinfected.

The receipt printer 34 may be integrated with the ultraviolet light source 351, when the control module 4 controls the receipt printer 34 to generate and output a receipt, the control device 4 controls the ultraviolet light source 351 to be turned on immediately, and the ultraviolet light beam sterilizes the receipt. And when the receipt printer 34 performs receipt printing and outputting operations each time, the ultraviolet light source 351 is lit, i.e., the receipt output each time is guaranteed to be output after being sterilized.

According to the disinfection-type interactive module 3 provided by the embodiment of the invention, the disinfection unit 35 is arranged, so that the disinfection unit 35 can disinfect the physical interactive element to isolate viruses under the condition that a user directly makes physical contact with the self-service terminal device 100, and thus, any operation of the user under the condition of no virus carrying is ensured to be carried out under the virus-free environment.

In some embodiments of the invention, as shown in fig. 3, the self-service terminal device 100 further comprises an ultraviolet light shielding plate 5, the ultraviolet light shielding plate 5 being disposed outside the second accommodating chamber 12 to shield ultraviolet light. Specifically, when the user uses the self-service terminal device 100, and inserts, fetches, inserts, and prints the receipt through the contact disinfection type interactive module 3, the ultraviolet light source 351 emits an ultraviolet light beam to perform a disinfection operation on at least one of the information card, the received money, and the receipt, but may cause an ultraviolet leakage or the like to affect the user experience. The ultraviolet shielding plate 5 can be arranged on the front side of the self-service terminal device 100 and outside the second accommodating cavity 12 to shield ultraviolet rays, so that the leakage of redundant ultraviolet rays can be avoided in a limited way.

In general, when a user needs to transact business with the self-service terminal device 100, after the user approaches the device body 1, the information card can be inserted into the card reader 32 for information reading according to the prompt information on the air touch screen unit 21, and after the information card is inserted into the card reader 32, the control module 4 controls the disinfection unit 35 to disinfect the information card. At this time, the user can touch the air touch panel unit 21 with a finger to continue the operation. When identity information is required to be recorded, the user can place the identity card corresponding to the identity recognition unit 22 and keep a certain distance between the identity card and the operation table top of the equipment body 1, so that the physical contact between the user and the entity part of the equipment body 1 is avoided. When the two-dimensional code payment is needed, the user can place the two-dimensional code at a position above the scanning interface 23 of the non-contact scanning payment unit and form a certain distance difference with the non-contact scanning payment unit, so that physical contact with the entity part of the device body 1 is avoided. When password input is required, the user avoids physical contact with a physical part of the apparatus body 1 by performing contactless password input in the air input region 24 of the air password keyboard unit. When the user needs to self-service, the information card is output through the card sender 31 after being sterilized through contactless operation. When a cash transaction is required, the user inserts money into the inlet of the coin acceptor 33 and sterilizes the money before the money enters the storage box of the coin acceptor 33. When all the above operations are completed, the corresponding receipt is printed by the receipt printer 34, sterilized and discharged.

Therefore, the self-service terminal device 100 according to the embodiment of the present invention, based on the contactless interaction and disinfection-type interactive processing mode, can ensure that the user and the device perform contactless interaction in the process of operating the device by the user, or can ensure that the human-computer interaction process is performed in a sterile environment when the user and the device body 1 need to be in direct physical contact, so that a transmission chain of virus cross infection from the person to the self-service terminal device 100 to the person can be cut off, the purpose of virus isolation is achieved, and the use safety and cleanliness are improved.

Other constructions and operations of the self-service terminal device 100 according to embodiments of the invention are known to those of ordinary skill in the art and will not be described in detail herein.

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 to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like 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.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A self-service terminal device, comprising:

an apparatus body;

the non-contact interaction module is arranged on the equipment body and used for acquiring non-contact interaction information;

the disinfection type interaction module is arranged on the equipment body and used for reading or generating physical interaction piece information and disinfecting the physical interaction piece;

and the control module is arranged on the equipment body, is connected with the non-contact interaction module and the disinfection type interaction module, and is used for controlling the non-contact interaction module to work according to the non-contact interaction information and controlling the disinfection type interaction module to act in response to an interaction trigger instruction of the physical interaction piece.

2. The self-service terminal device of claim 1, wherein the contactless interaction module comprises:

and the air touch screen unit is connected with the control module and is used for providing equipment operation guide information in an aerial target area and working according to the non-contact interaction information.

3. The self-service terminal device of claim 2,

a first accommodating cavity is formed inside the equipment body, and the aerial target area is formed above the first accommodating cavity;

the air touch screen unit includes:

the display screen is arranged in the first accommodating cavity;

the first negative refractive index optical element is arranged in the first accommodating cavity, the display screen is arranged on one side of the first negative refractive index optical element and is a light source side, and the aerial target area is positioned on the other side of the first negative refractive index optical element and is an imaging side;

the first detection unit is connected with the control module and used for detecting the operation action of a user in the aerial target area to obtain the non-contact interaction information.

4. The self-service terminal device of claim 1, wherein the contactless interaction module comprises:

the identity recognition unit is arranged on the equipment body and connected with the control module and used for acquiring the identity information of the user in a non-contact manner.

5. The self-service terminal device of claim 1, wherein the contactless interaction module comprises:

the non-contact scanning payment unit is arranged on the equipment body, is connected with the control module and is used for providing a scanning interface and scanning payment information in a non-contact mode when the payment piece is close to the scanning interface.

6. The self-service terminal device of claim 3, wherein the contactless interaction module further comprises:

and the air password keyboard unit is connected with the control module and used for generating symbol information in the air input area and generating password information according to the operation of a user in the air input area.

7. The self-service terminal device of claim 6,

the aerial input area is formed above the first accommodating cavity;

the air password keyboard unit includes:

the display unit is arranged in the first accommodating cavity;

the second negative refractive index optical element is arranged in the first accommodating cavity, the display unit is arranged on one side of the second negative refractive index optical element and is a light source side, and the aerial input region is positioned on the other side of the second negative refractive index optical element and is an imaging side;

the second detection unit is connected with the control module and used for detecting the operation of a user in the air input area to obtain the password information.

8. The self-service terminal device of claim 1,

the physical interaction piece comprises at least one of an information card, a coin and a receipt;

the sterile interactive module comprises at least one of:

the card sender is connected with the control module and used for outputting the information card according to a card sending trigger instruction;

the card reader is connected with the control module and used for responding to the insertion instruction of the information card and reading the information of the information card;

the coin inserting device is connected with the control module and is used for receiving inserted coins;

the receipt printer is connected with the control module and is used for generating a receipt and outputting the receipt;

the disinfection interactive module further comprises a disinfection unit, and the disinfection unit is connected with the control module and is used for disinfecting at least one of the information card, the received money and the receipt.

9. The self-service terminal device of claim 8,

a second accommodating cavity is formed inside the equipment body;

the disinfection type interaction module is arranged in the second accommodating cavity, and an interaction port of the disinfection type interaction module is arranged on the equipment body.

10. The self-service terminal device of claim 9,

the disinfection unit comprises an ultraviolet light source, and the ultraviolet light source is arranged in the second accommodating cavity;

self-service terminal equipment still includes the ultraviolet light screen, the ultraviolet light screen sets up the second holds the chamber outside in order to shelter from the ultraviolet ray.

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