CN103824379A - Method for realizing multi-touch screen shot of ATM (Automatic Teller Machine) based on electric lead film capacitance screen - Google Patents

Abstract

The invention relates to a method for realizing multi-touch screen shot of an ATM (Automatic Teller Machine) based on an electric lead film capacitance screen. The electric lead film capacitance screen is supplied at first, and then the following steps are performed: (1) taking the electric lead film capacitance screen as a screen and mounting on a machine body of the ATM; (2) touching any four points in a selected area for performing rectangular screen shot by two hands of a user after the user inquires or finishes a transaction on the ATM, and generating screen shot data by an industrial personal computer of the ATM; (3) after finishing the screen shot, inputting and confirming a cell phone number through a password input unit by the user, and then sending the screen shot data to the corresponding cell phone through wireless communication equipment by the industrial personal computer. According to the method provided by the invention, the electric lead film capacitance screen with a special structure and the wireless communication equipment are utilized to realize the advantages of convenient operation of the user, capability of saving paper sheet, excellent man-machine interactivity, safety, reliability, and the like. The electric lead film capacitance screen is high in reaction sensitivity, high in positioning precision and long in service life.

Description

Realize the method for ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen

Technical field

The present invention relates to a kind of method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen.

Background technology

At present, mainly there is following shortcoming in existing ATM: (1) adopts the touch-screen of single-point touch, can only identify and support touch-control, the click of every next finger, if there is plural point touched simultaneously, just can not make correct response, for example can not realize multiple point touching screenshotss technology, have the shortcomings such as reaction is insensitive, positioning precision is low, need to often calibrate, serviceable life is short, human-computer interaction is poor; (2) adopt strip printer to print customer transaction information, waste paper, not environmental protection; (3) adopt keyboard input password, need to firmly press, and due to the existence of baffle plate, when user presses, also easily push the wrong password, exist again easily peeped, stolen risk.

Summary of the invention

The object of the present invention is to provide a kind of user-friendly, save paper and improve human-computer interaction realize the method for ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen.

To achieve these goals, technical scheme of the present invention is: a kind of method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen, the one conductor wire membrane capacitance formula touch-screen being made up of display screen and the transparency carrier that is positioned at display screen front end is first provided, described transparency carrier inner side is pasted with electrically conducting transparent line electrode film, described electrically conducting transparent line electrode film is by transparent base, be located at the transverse conductance line electrode cell array and longitudinal conductor wire electrode unit array composition of being located at transparent base bottom surface of transparent base end face, described transverse conductance line electrode cell array is made up of two transverse electrode unit that are parallel to each other above, described transverse electrode unit is made up of two more parallels and the transverse conductance line that is arranged in parallel, described longitudinal conductor wire electrode unit array is made up of two longitudinal electrode unit that are parallel to each other above, described longitudinal electrode unit is made up of two more parallels and longitudinal conductor wire of being arranged in parallel, carry out according to the following steps again:

(1) above-mentioned conductor wire membrane capacitance formula touch-screen is arranged on the body of ATM as screen, in the body of described ATM, be provided with industrial computer, cash-out movement and Wireless Telecom Equipment, the lead end of the lead end of transverse electrode unit and longitudinal electrode unit is electrically connected to respectively to the CPU of industrial computer, card reader and PIN PAD are also installed on the body of described ATM;

(2) after user inquires about or has concluded the business in ATM, Query Information or Transaction Information show on screen, the screenshotss instruction figure now showing in user's touch screen is marked with and makes industrial computer start screenshotss operating function, and with two any 4 touches of hand so that selection area is carried out to rectangle screenshotss, described industrial computer obtains the screen display content in size and the position in rectangle screenshotss region and generates screenshotss data;

(3) after screenshotss complete, the transmission instruction figure showing in user's touch screen is marked with and makes industrial computer on screen, eject phone number input frame, user inputs by PIN PAD and confirms after phone number, and described industrial computer sends to screenshotss data on corresponding mobile phone by Wireless Telecom Equipment.

Further, described PIN PAD is the touch-screen PIN PAD that adopts conductor wire membrane capacitance formula touch-screen, in step (2), in the time that user inputs password by touch-screen PIN PAD in ATM, user selects the keyboard digital of its demonstration to arrange in a sequential manner by touch or random mode is arranged.

Further, camera for scanning recognition bank card account number is also installed on the body of described ATM, in step (2), in the time that user carries out money transfer transactions in ATM, the scan instruction icon showing in user's touch screen is to make industrial computer start camera, user will proceed to bank card and be placed on body precalculated position with positive alignment in camera, described industrial computer obtains the captured picture material that proceeds to bank card of camera and generates and proceed to account data with identification, and shows and proceed to account and proceed to name in an account book on screen.

Further, in the body of described ATM, be also provided with deposit movement.

Further, in described transverse conductance line electrode cell array, the spacing of adjacent two transverse electrode unit is 0.1-8mm, in described longitudinal conductor wire electrode unit array, the spacing of adjacent two longitudinal electrode unit is 0.1-8mm, in described transverse electrode unit, the spacing of adjacent two transverse conductance lines is 0.1-8mm, and in described longitudinal electrode unit, the spacing of adjacent two longitudinal conductor wires is 0.1-8mm.

Further, described transverse conductance line and longitudinally conductor wire are all by conductive material etch-forming or printing moulding, and described conductive material is copper, aluminium, gold, silver or conductive carbon paste, and Darkening process is all passed through on described transverse conductance line and the longitudinally surface of conductor wire.

Further, described transverse conductance line and the longitudinally live width of conductor wire are 3-100 μ m, and thickness is 2-10 μ m; The shape of described transverse conductance line and the longitudinally shape of conductor wire are waveform.

Further, described transparent base is monolithic or by upper and lower two bonded to each other forming.

Further, described transparent base is by PET or TAC forming materials, and the thickness of described transparent base is 20-200 μ m.

Further, described transparency carrier is glass or transparent organic glass, and the thickness of transparency carrier is 0.3-10mm.

Compared with prior art, the present invention has following beneficial effect: the method that should realize ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen by conductor wire membrane capacitance formula touch-screen, the Wireless Telecom Equipment of special construction realized that user is easy to operate, the advantage such as paper saving, human-computer interaction are good and safe and reliable, the conductor wire membrane capacitance formula touch-screen of this special construction makes the screen reaction sensitivity of ATM high, positioning precision is high and long service life.

Below in conjunction with the drawings and specific embodiments, the present invention will be further described in detail.

Accompanying drawing explanation

Fig. 1 is the organigram of the embodiment of the present invention.

Fig. 2 is the theory diagram of the embodiment of the present invention.

Fig. 3 is the quick-fried figure of photograph of structure that adopts the conductor wire membrane capacitance formula touch-screen of monolithic transparent base structure.

Fig. 4 is the quick-fried figure of photograph of structure that adopts the conductor wire membrane capacitance formula touch-screen of biplate transparent base structure.

Fig. 5 is the partial schematic diagram of electrically conducting transparent line electrode film top rail to conductor wire electrode unit array.

Fig. 6 is the partial schematic diagram of longitudinal conductor wire electrode unit array on electrically conducting transparent line electrode film.

In figure: 1-body, 2-screen, 21-transparency carrier, 22-display screen, 23-electrically conducting transparent line electrode film, 231-transparent base, 232-transverse electrode unit, 233-transverse conductance line, the lead end of 234-transverse electrode unit, 235-longitudinal electrode unit, the longitudinal conductor wire of 236-, the lead end of 237-longitudinal electrode unit, 3-card reader, 4-PIN PAD, 5-camera, 6-loudspeaker, 7-printer, 8-cash dispensing port, 9-deposits paper money mouth.

Embodiment

As shown in Fig. 1 ~ 6, a kind of method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen, the one conductor wire membrane capacitance formula touch-screen being made up of display screen 22 and the transparency carrier 21 that is positioned at display screen 22 front ends is first provided, described transparency carrier 21 inner sides are pasted with electrically conducting transparent line electrode film 23, described electrically conducting transparent line electrode film 23 is by transparent base 231, be located at the transverse conductance line electrode cell array and longitudinal conductor wire electrode unit array composition of being located at transparent base 231 bottom surfaces of transparent base 231 end faces, described transverse conductance line electrode cell array is made up of two transverse electrode unit 232 that are parallel to each other above, described transverse electrode unit 232 is made up of two more parallels and the transverse conductance line 233 that is arranged in parallel, described longitudinal conductor wire electrode unit array is made up of two longitudinal electrode unit 235 that are parallel to each other above, described longitudinal electrode unit 235 is made up of two more parallels and longitudinal conductor wire 236 of being arranged in parallel, carry out according to the following steps again:

(1) above-mentioned conductor wire membrane capacitance formula touch-screen is arranged on the body 1 of ATM as screen 2, in the body 1 of described ATM, be provided with industrial computer, cash-out movement and Wireless Telecom Equipment, the lead end 237 of the lead end of transverse electrode unit 232 234 and longitudinal electrode unit 235 is electrically connected to respectively to the CPU of industrial computer, card reader 3 and touch-screen PIN PAD 4 are also installed on the body 1 of described ATM;

(2) after user inquires about or has concluded the business in ATM, Query Information or Transaction Information show on screen 2, the screenshotss instruction figure now showing in user's touch screen 2 is marked with and makes industrial computer start screenshotss operating function, and with two any 4 touches of hand so that selection area is carried out to rectangle screenshotss, described industrial computer obtains screen 2 displaying contents in size and the position in rectangle screenshotss region and generates screenshotss data;

(3) after screenshotss complete, the transmission instruction figure showing in user's touch screen 2 is marked with and makes industrial computer on screen 2, eject phone number input frame, user inputs by touch-screen PIN PAD and confirms after phone number, and described industrial computer sends to screenshotss data on corresponding mobile phone by Wireless Telecom Equipment.

In the present embodiment, described PIN PAD 4 can be the touch-screen PIN PAD that adopts conductor wire membrane capacitance formula touch-screen, in step (2), in the time that user inputs password by touch-screen PIN PAD in ATM, user selects the keyboard digital of its demonstration to arrange in a sequential manner by touch or random mode is arranged, the security that the keyboard digital that wherein arbitrarily mode is arranged has improved user cipher greatly, user can repeatedly click input password or 6 line input passwords in touch-screen PIN PAD, certainly PIN PAD 4 can be also the touch-screen PIN PAD of single-point touch.

In the present embodiment, camera for scanning recognition bank card account number is also installed on the body of described ATM, in step (2), in the time that user carries out money transfer transactions in ATM, the scan instruction icon showing in user's touch screen is to make industrial computer start camera, user will proceed to bank card and be placed on body precalculated position with positive alignment in camera, described industrial computer obtains the captured picture material that proceeds to bank card of camera and generates and proceed to account data with identification, and show and proceed to account and proceed to name in an account book on screen, user is without manually digitally inputting one by one the account of transferring accounts, very convenient.

In the present embodiment, described ATM can be cash recycling system, be in body 1, to be also provided with deposit movement, loudspeaker 6 for playing voice message is also installed on described body 1, printer 7 for printing the information such as strip certainly can also be installed on body 1 and for taking the concealed pick-up head etc. of user image, conveniently not have the user of mobile phone to print strip.The CPU of described industrial computer receives the single-point and the multi-point touch signal that come from touch-screen, the signal of withdrawing the money, deposit signal, the signal of transferring accounts, the sweep signal of such as single-point touch, moves back card signal, transmitted signal etc., 4 any screenshotss signals of multi-point touch etc.; The CPU of described industrial computer transmits data by Wireless Telecom Equipment, it can be not only snapshot graphic data, can also be directly text data, for example, send strip text data, send strip graph data or snapshot graphic data etc. in multimedia message mode to mobile phone to mobile phone with note or multimedia message mode.

In the present embodiment, in described transverse conductance line electrode cell array, the spacing of adjacent two transverse electrode unit 232 is 0.1-8mm, in described longitudinal conductor wire electrode unit array, the spacing of adjacent two longitudinal electrode unit 235 is 0.1-8mm, in described transverse electrode unit 232, the spacing of adjacent two transverse conductance lines 233 is 0.1-8mm, and in described longitudinal electrode unit 235, the spacing of adjacent two longitudinal conductor wires 236 is 0.1-8mm.

In the present embodiment, described transverse conductance line 233 and longitudinally conductor wire 236 are all by conductive material etch-forming or printing moulding, described conductive material is copper, aluminium, gold, silver or conductive carbon paste, because the electric conductivity of copper, aluminium, gold, silver or conductive carbon paste is better, use touch screen electrode surface resistance that above-mentioned conductive material makes at 0.15-3 Ω, be significantly less than the electrode surface resistance value that ITO mode is made, therefore the sensitivity of touch-screen is higher.In order to increase penetrating rate to improve visual effect, Darkening process is all passed through on described transverse conductance line 233 and the longitudinally surface of conductor wire 236, the transverse conductance line 233 of process Darkening process and longitudinally conductor wire 236 can absorb the metallic reflection light on conductor wire surface, certainly transverse conductance line 233 and longitudinal conductor wire 236 also can only carry out Darkening process to the part towards human eye vision face, can reduce costs like this.

In the present embodiment, described transverse conductance line 233 and the longitudinally live width of conductor wire 236 are 3-100 μ m, thickness is 2-10 μ m, because the live width of transverse conductance line 233 and longitudinal conductor wire 236 is superfine, human eye is difficult to feel its existence, therefore the transverse conductance line electrode cell array of making like this and longitudinally conductor wire electrode unit array can be realized transparence, electrically conducting transparent line electrode mould is attached on the transparency carrier 21 that is positioned at display screen 22 front ends, does not affect the showing transparency property of transparency carrier 21 to display screen 22 completely.For the sensitivity that effectively improves unit of capacity area and then improved touch-screen, the shape of the shape of described transverse conductance line 233 and longitudinally conductor wire 236 is waveform, certainly transverse conductance line 233 and longitudinally the shape of conductor wire 236 also can other can increase the figure of contact capacitance area for zigzag etc.

In the present embodiment, described transparent base 231 can be by PET, TAC or other organic transparent material moulding, and thickness is 20-200 μ m, and therefore the integral thickness of electrically conducting transparent line electrode mould as thin as a wafer, does not affect the integral thickness of touch-screen.Described transparency carrier 21 can be also glass or transparent organic glass, and thickness is 0.3-10mm, and the processing of can rising in value as requested, increases surperficial various optical functions etc. at for example strengthening, outward appearance printing.Described transparent base 231 can be single chip architecture as shown in Figure 3, can be also two chip architectures upper and lower bonded to each other as shown in Figure 4.

In the present embodiment, the bonding mode that described electrically conducting transparent line electrode film 23 is attached on transparency carrier 21 can be the general adhesive method such as optics pressure sensitive adhesive, UV glue, after molding bonded through defoaming treatment, access CPU, by electrically conducting transparent line electrode film 23 towards display screen 22 exiting surfaces, and fit with display screen 22, complete the making of the conductor wire membrane capacitance screen of ATM.User is in the time touching ATM screen 2, owing to there being electric field in human body, between transverse conductance line electrode cell array on finger and electrically conducting transparent line electrode mould and longitudinal conductor wire electrode unit array, form a coupling capacitance, in the time that finger touch is on electrically conducting transparent line electrode mould, because the electric capacity of contact changes, in transverse conductance line electrode cell array with longitudinally there will be the induction current that flows to contact in conductor wire electrode unit array, thereby calculate faradic power and accurately calculate the position of contact by CPU.

Due to the transverse conductance line 233 on electrically conducting transparent line electrode mould and longitudinally conductor wire 236 arrange even, intensively, therefore increased the linearity of electrically conducting transparent line electrode mould entirety, the antijamming capability and the sensitivity that have improved ATM touch-screen.In addition, transverse conductance line 233 on electrically conducting transparent line electrode mould and longitudinally conductor wire 236 are all by conductive material etch-forming or printing moulding on transparent base 231, therefore transverse conductance line 233 and longitudinal conductor wire 236 all can carry out streamline etching or printing, improve production efficiency, and electrically conducting transparent line electrode mould size can do very greatly, therefore the size of ATM touch-screen just can maximize.Meanwhile, transverse electrode unit 232 and longitudinal electrode unit 235 form by many conductor wires, therefore greatly improved precision, the sensitivity of ATM touch-screen, and maloperation are few.

In the present embodiment, do not state part same as the prior art, and the foregoing is only preferred embodiment of the present invention, all equalizations of doing according to the present patent application the scope of the claims change and modify, and all should belong to covering scope of the present invention.

Claims (10)

1. realize the method for ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen for one kind, it is characterized in that: a conductor wire membrane capacitance formula touch-screen being made up of display screen and the transparency carrier that is positioned at display screen front end is first provided, described transparency carrier inner side is pasted with electrically conducting transparent line electrode film, described electrically conducting transparent line electrode film is by transparent base, be located at the transverse conductance line electrode cell array and longitudinal conductor wire electrode unit array composition of being located at transparent base bottom surface of transparent base end face, described transverse conductance line electrode cell array is made up of two transverse electrode unit that are parallel to each other above, described transverse electrode unit is made up of two more parallels and the transverse conductance line that is arranged in parallel, described longitudinal conductor wire electrode unit array is made up of two longitudinal electrode unit that are parallel to each other above, described longitudinal electrode unit is made up of two more parallels and longitudinal conductor wire of being arranged in parallel, carry out according to the following steps again:

(1) above-mentioned conductor wire membrane capacitance formula touch-screen is arranged on the body of ATM as screen, in the body of described ATM, be provided with industrial computer, cash-out movement and Wireless Telecom Equipment, the lead end of the lead end of transverse electrode unit and longitudinal electrode unit is electrically connected to respectively to the CPU of industrial computer, card reader and PIN PAD are also installed on the body of described ATM;

(2) after user inquires about or has concluded the business in ATM, Query Information or Transaction Information show on screen, the screenshotss instruction figure now showing in user's touch screen is marked with and makes industrial computer start screenshotss operating function, and with two any 4 touches of hand so that selection area is carried out to rectangle screenshotss, described industrial computer obtains the screen display content in size and the position in rectangle screenshotss region and generates screenshotss data;

(3) after screenshotss complete, the transmission instruction figure showing in user's touch screen is marked with and makes industrial computer on screen, eject phone number input frame, user inputs by PIN PAD and confirms after phone number, and described industrial computer sends to screenshotss data on corresponding mobile phone by Wireless Telecom Equipment.

2. the method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen according to claim 1, it is characterized in that: described PIN PAD is the touch-screen PIN PAD that adopts conductor wire membrane capacitance formula touch-screen, in step (2), in the time that user inputs password by touch-screen PIN PAD in ATM, user selects the keyboard digital of its demonstration to arrange in a sequential manner by touch or random mode is arranged.

3. the method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen according to claim 1, it is characterized in that: the camera for scanning recognition bank card account number is also installed on the body of described ATM, in step (2), in the time that user carries out money transfer transactions in ATM, the scan instruction icon showing in user's touch screen is to make industrial computer start camera, user will proceed to bank card and be placed on body precalculated position with positive alignment in camera, described industrial computer obtains the captured picture material that proceeds to bank card of camera and generates and proceed to account data with identification, and show and proceed to account and proceed to name in an account book on screen.

4. the method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen according to claim 1, is characterized in that: in the body of described ATM, be also provided with deposit movement.

5. the method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen according to claim 1, it is characterized in that: in described transverse conductance line electrode cell array, the spacing of adjacent two transverse electrode unit is 0.1-8mm, in described longitudinal conductor wire electrode unit array, the spacing of adjacent two longitudinal electrode unit is 0.1-8mm, in described transverse electrode unit, the spacing of adjacent two transverse conductance lines is 0.1-8mm, and in described longitudinal electrode unit, the spacing of adjacent two longitudinal conductor wires is 0.1-8mm.

6. the method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen according to claim 1, it is characterized in that: described transverse conductance line and longitudinally conductor wire are all by conductive material etch-forming or printing moulding, described conductive material is copper, aluminium, gold, silver or conductive carbon paste, and Darkening process is all passed through on described transverse conductance line and the longitudinally surface of conductor wire.

7. the method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen according to claim 1, is characterized in that: described transverse conductance line and the longitudinally live width of conductor wire are 3-100 μ m, and thickness is 2-10 μ m; The shape of described transverse conductance line and the longitudinally shape of conductor wire are waveform.

8. the method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen according to claim 1, is characterized in that: described transparent base is monolithic or by upper and lower two bonded to each other forming.

9. the method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen according to claim 1, is characterized in that: described transparent base is by PET or TAC forming materials, and the thickness of described transparent base is 20-200 μ m.

10. the method that realizes ATM multiple point touching screenshotss based on conductor wire membrane capacitance screen according to claim 1, is characterized in that: described transparency carrier is glass or transparent organic glass, and the thickness of transparency carrier is 0.3-10mm.

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