CN217880374U - Thin type credible biological characteristic data acquisition terminal equipment - Google Patents

Abstract

The utility model discloses a thin trusted biological characteristic data acquisition terminal equipment, including face collection module and data acquisition module, face collection module is including the module of shooing and control module, and the module of shooing includes the shell, the part of shooing, first display screen, one-way perspective glass and auxiliary control panel, and the part of shooing, first display screen, one-way perspective glass, auxiliary control panel and control module set up the inside at the shell, and control module links to each other with the part of shooing respectively, first display screen, auxiliary control panel, data acquisition module. The utility model adopts the high integration level modular design, one device integrates a plurality of biological characteristic acquisition units simultaneously, and the device has reasonable functional layout and compact structure; the equipment has small volume and low material and transportation cost, and is suitable for various scenes; a professional acquisition technology is provided, the technical problem of photographing the certificate photo is mainly solved, and acquisition experience and quality are greatly improved; and various safety protection measures are provided, and the safety of the information at the equipment end is improved.

Description

Thin type credible biological characteristic data acquisition terminal equipment

Technical Field

The utility model relates to a thin credible biological characteristic data acquisition terminal equipment of formula belongs to the data acquisition field.

Background

The biological characteristics and data such as portrait, fingerprint, handwriting, etc. are important means for ensuring the integration of testimony of the people, and the prior biological characteristic data acquisition terminal equipment has the following technical defects:

1. the traditional acquisition terminal equipment has the advantages of single function, low integration level, large and heavy volume, inconvenient carrying and installation and limited application scene.

2. When traditional acquisition terminal equipment gathered the portrait, the user can't observe in real time and hold the shooting expression and the gesture of oneself, is difficult to shoot satisfied photo by oneself, causes the portrait to gather experience and collection quality poor.

3. Traditional collection terminal equipment light filling mode is single, and light filling lamp light is ruddy, can not really restore portrait color, causes the collection quality poor.

4. Traditional collection terminal equipment safety protection level is low, has the risk that biological characteristic information data is revealed.

In summary, the existing biological characteristic data acquisition technology has the problems of integration, modularization, convenience, safety, reliability loss and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above problem, a thin credible biological characteristic data acquisition terminal equipment of formula is provided, it can solve different biological characteristics and data acquisition separation, gather experience and gather the quality poor, the bulky heavy, the low scheduling problem of collection equipment safety protection level of collection equipment volume. The utility model adopts the high integration level modular design, one device integrates a plurality of biological characteristic acquisition units simultaneously, and the device has reasonable functional layout, compact structure and convenient installation and maintenance; the equipment has small volume and low material and transportation cost, and can be flexibly applied to various scenes; a professional acquisition technology is provided, the technical problem of taking a certificate photo is mainly solved, and acquisition experience and acquisition quality are greatly improved; and various safety protection measures are provided, and the safety of the information at the equipment end is improved.

The purpose of the utility model can be achieved by adopting the following technical scheme:

the utility model provides a trusted biological characteristic data acquisition terminal equipment of thin formula, includes face collection module and data acquisition module, face collection module is including the module of shooing and control module, the module of shooing includes the shell, shoots part, first display screen, one-way perspective glass and auxiliary control board, the anterior opening of shell, the part of shooing, first display screen, one-way perspective glass, auxiliary control board and the control module setting are in the inside of shell, and the camera lens of the part of shooing sees through one-way perspective glass towards the shell opening, control module links to each other with the part of shooing, first display screen, auxiliary control board, data acquisition module respectively.

Furthermore, the first display screen is arranged on the inner side of the top of the shell, the half mirror is obliquely arranged inside the shell, and one end of the half mirror is close to or in contact with the first display screen.

Furthermore, the data acquisition module comprises an operation platform, a file acquisition module, a receipt printer and a bar code/two-dimensional code scanner, wherein the operation platform is in hot plug butt joint with the control module through a male butt joint device and a female butt joint device, and the file acquisition module, the receipt printer and the bar code/two-dimensional code scanner are arranged on the shell and are connected with the control module.

Furthermore, a fingerprint acquisition instrument and a touch screen are arranged on the operating platform.

Furthermore, the front portion of the shell is provided with a file placing opening in a corresponding position of the file collecting module, the file collecting module comprises a high-speed shooting instrument, the high-speed shooting instrument is arranged above the file placing opening, and a lens of the high-speed shooting instrument faces downwards.

Furthermore, the face collection module further comprises a light supplement lamp, the light supplement lamp is connected with the auxiliary control panel, and the light supplement lamp is arranged around the shell.

Further, the light supplement lamp is a curved surface light supplement lamp.

Furthermore, the face acquisition module further comprises a photographing part moving module, the photographing part moving module is arranged inside the shell and connected with the auxiliary control panel, and the photographing part is arranged on the photographing part moving module and drives the photographing part to move through the photographing part moving module.

Furthermore, the module of shooing still includes first anti-damage control panel and first anti-damage device, first anti-damage control panel sets up in the inside of shell to link to each other with the auxiliary control board, first anti-damage device sets up on one-way perspective glass or shell, and the contact switch of first anti-damage device links to each other with first anti-damage control panel.

Further, the module of shooing still includes second anti-damage control panel and second anti-damage device, the second anti-damage control panel sets up in the inside of shell to link to each other with the auxiliary control board, second anti-damage device includes seal subassembly and shell fragment micro-gap switch, the seal subassembly is a plurality of, and every seal subassembly sets up on a plane of shell, shell fragment micro-gap switch links to each other with the second anti-damage control panel.

The utility model discloses for prior art have following beneficial effect:

1. the utility model integrates the omnibearing multidimensional biological characteristic data acquisition unit, the functional components adopt the modularized design, one can finish the acquisition of various biological characteristics, and the device is suitable for various application scenes; the modular design has still reduced the volume of whole equipment, promotes space utilization greatly, reduces occuping of space resources, and easy to assemble, transportation and later maintenance have saved production and processing cost, cost of transportation, maintenance cost greatly simultaneously.

2. The utility model discloses an one-way perspective glass structure of autodyning realizes "what see is the gained", will shoot technique and one-way perspective glass by oneself and combine together, accomplishes the operation of shooing simultaneously looking into the mirror for the photo of shooing is the image that people's eye saw in the mirror promptly, and the part of shooing sees through one-way perspective glass and shoots the user, realizes "what see is the gained" effect.

3. The utility model adopts an omnibearing three-dimensional curved surface light filling lamp control system, the terminal equipment is provided with a set of mature and reliable intelligent light system, a plurality of groups of light filling lamps are arranged around the equipment, and the light filling lamps can automatically adjust the brightness of each group of light according to the photographing environment so as to achieve the optimal photographing effect; adopt curved surface light filling lamp, build softer light filling effect, ensure that the environment of shooing is perfect to present the portrait to reach best portrait effect of shooing.

4. The utility model discloses a multiple anti-destruction device, the skin is provided with the seal subassembly, and the inlayer is provided with micro-gap switch, and the glass inboard is equipped with protection circuit, and multiple safeguard measure effectively prevents to gather the problem that the user biological characteristic information that terminal equipment lost and leads to is stolen, avoids the terminal to lose the back, is destroyed by other people's violence to acquire the inside user information in terminal.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is an exploded view of a thin trusted biometric data collection terminal device according to embodiment 1 of the present invention.

Fig. 2 is a perspective structure diagram of one of the angles of the thin trusted biometric data collection terminal device according to embodiment 1 of the present invention.

Fig. 3 is a perspective structural view of another angle of the thin trusted biometric data collection terminal device according to embodiment 1 of the present invention.

Fig. 4 is a front view structural diagram of the thin trusted biometric data collection terminal device according to embodiment 1 of the present invention.

Fig. 5 isbase:Sub>A sectional viewbase:Sub>A-base:Sub>A of fig. 4.

Fig. 6 is a sectional view B-B of fig. 4.

Fig. 7 is a rear view structure diagram of the thin type trusted biometric data collection terminal device of embodiment 1 for opening the back door.

Fig. 8 is the utility model discloses realize the circuit principle schematic diagram of hot plug between module of shooing and the data acquisition module among the trusted biological feature data acquisition terminal equipment of embodiment 1 of thin formula.

Fig. 9 is a schematic diagram illustrating a first tamper-proof device in a thin trusted biometric data collection terminal according to embodiment 1 of the present invention.

Fig. 10 is a schematic diagram of a detection circuit of the first damage prevention device in the thin trusted biometric data collection terminal device according to embodiment 1 of the present invention.

Fig. 11 is a schematic diagram of a detection circuit of a second damage prevention device in the thin trusted biometric data collection terminal device according to embodiment 1 of the present invention.

Fig. 12 is a flowchart of a trusted biometric data collection method according to embodiment 1 of the present invention.

101-shell, 1011-file placing port, 102-shooting part, 103-first display screen, 104-one-way perspective glass, 105-auxiliary control panel, 106-control module, 107-operation desk, 1071-fingerprint acquisition instrument, 1072-touch screen, 108-file acquisition module, 1081-high shooting instrument, 109-receipt printer, 110-bar code/two-dimensional code scanner and 111-light supplement lamp.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the following will combine the drawings in the embodiments of the present invention to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are a part of the embodiments of the present invention, rather than all embodiments, based on the embodiments in the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the scope of the present invention.

Example 1:

as shown in fig. 1 to fig. 7, the present embodiment provides a thin trusted biometric data collection terminal device, the device includes a face collection module and a data collection module, the face collection module is a self-service photographing main body, and includes a photographing module and a control module 106, the photographing module includes a housing 101, a photographing part 102, a first display screen 103, a half mirror 104 and an auxiliary control panel 105, a front opening of the housing 101 is provided, the photographing part 102, the first display screen 103, the half mirror 104, the auxiliary control panel 105 and the control module 106 are disposed inside the housing 101, a lens of the photographing part 102 faces a light transmission surface of the half mirror 104 and faces an opening of the housing 101 through the half mirror 104, that is, the photographing part 102 is located behind the half mirror 104, and the control module 106 is respectively connected to the photographing part 102, the first display screen 103, the auxiliary control panel 105 and the data collection module.

Further, the first display screen 103 of the present embodiment is a liquid crystal display screen, which is disposed on the top of the casing 101, the half mirror 104 is disposed inside the casing 101 in an inclined manner, and one end of the half mirror 104 is close to or in contact with the first display screen 103, and the screen of the first display screen 103 faces the reflecting surface of the half mirror 104; in this embodiment, the photographing component 102 selects a high-resolution camera or a high-definition camera module according to the quality requirement of the photo pixels.

In the embodiment, the self-service photographing technology is combined with the unidirectional perspective glass 104, and the photographing operation is completed while the mirror is viewed, so that the photographed picture is an image seen by human eyes in the mirror, and the photographing part 102 photographs the user through the unidirectional perspective glass, thereby realizing the effect of 'seeing and getting'.

Further, the data acquisition module comprises an operation desk 107, a file acquisition module 108, a receipt printer 109 and a barcode/two-dimensional code scanner 110; the console 107 is arranged at the front part of the casing 101, the console 107 is in hot plug butt joint with the control module 106 inside the casing 101 through a male-female butt joint device, and the file acquisition module 108, the receipt printer 109 and the barcode/two-dimensional code scanner 110 are arranged on the casing 101 and connected with the control module.

In this embodiment, a circuit principle of hot plug is shown in fig. 8, the console 107 has a hot plug function, when the device is running, the console and the device body are allowed to be disconnected or connected to each other without shutting down the system or cutting off the power supply, and when a device in the console 107 breaks down or needs to be maintained, online quick plug and unplug replacement can be implemented to prevent the user from being affected when the troubleshooting problem of the whole device is disassembled.

Further, the console 107 is provided with a fingerprint acquisition instrument 1071 and a touch screen 1072, and the console 107 can be further provided with an electronic sign pen, so that a user can conveniently sign on the touch screen 1072.

Further, the front portion of the housing 101 is provided with a file placing opening 1011 at a position corresponding to the file collecting module 108, the file collecting module 108 includes a high-speed shooting instrument 1081, the high-speed shooting instrument 1081 is disposed above the file placing opening, a lens of the high-speed shooting instrument 1081 faces downward, and a file is placed through the file placing opening 1011, so that the high-speed shooting instrument 1081 of the file collecting module 108 can scan the file.

Further, in order to improve the photographing effect, the face collection module may further include a light supplement lamp 111, the light supplement lamp 111 is connected to the control module 106, the light supplement lamp 111 is disposed around the housing 101, and the light supplement lamp 111 may automatically adjust the brightness of each group of lights according to the photographing environment, so as to achieve the optimal photographing effect; the light filling lamp 111 of this embodiment adopts the curved surface light filling lamp for curved surface light filling lamp, can build softer light filling effect, ensures that the environment of shooing is perfect to present the portrait to reach best portrait effect of shooing.

Further, the people's face collection module still can include the part of shooing and remove the module, the part of shooing removes the module and can set up the inside at shell 101, and link to each other with auxiliary control panel 105, the part of shooing 102 sets up on the part of shooing removes the module, it removes the module to drive the part of shooing through the part of shooing removes the module, the part of shooing that this embodiment adopted removes the module and removes the module for the part of shooing, it can include horizontal migration motor, the synchronizing wheel, the hold-in range, the guide rail, slip table etc., the part of shooing 102 is fixed on the slip table through the part of shooing support, but technical personnel in the art can understand, still can be for the part of shooing lift module, or the part of shooing removes the combination of module and the part of shooing lift module about again.

In this embodiment, the control module 106 sends an instruction to the auxiliary control board 105, so that the auxiliary control board 105 can control the on/off and the restart of the photographing part 102, the state detection of the photographing part 102, and the left and right movement of the photographing part 102; in addition, the control module 106 can also control the photographing part 102 to take a picture and control the first display screen 103.

In this embodiment, the photographing part 102 can be moved by using the photographing part moving module, when the first display screen 103 is not lit, the user approaches the mirror as if the user were looking into the whole mirror, the light supplement lamp 111 at the outer circle of the half-mirror 104 is automatically lit during photographing, and the user can adjust the posture and facial expression of the user while looking into the mirror, and complete photographing.

Further, the photographing module may further include a first damage prevention control panel and a first damage prevention device, the first damage prevention control panel is disposed inside the housing and connected to the auxiliary control panel 105, the first damage prevention device is disposed on the half mirror 104 or the housing 101, the embodiment is disposed on the half mirror 104, and the contact switch of the first damage prevention device is connected to the first damage prevention control panel.

As shown in fig. 9 to 10, the first tamper-proof device has the following specific principle:

1) R1 is a resistor 1 (10K Ω resistor), R2 is a resistor 2 (100K Ω resistor), and when the housing of the device is not damaged, that is, the contact switch is in a closed state, and the protection circuit is in a conductive state.

2) Under the conducting state, the voltage of the point A which can be obtained by the MCU of the first anti-damage control panel is 3V through calculation, and the calculation is as follows: u2= (100K Ω × 3.3V)/(10K + 100K) =3V, U2 is that the voltage of R2 is 3V, then UA is 3V, that is, the MCU of the first anti-damage control board acquires that the voltage of the point A is 3V.

3) When the MCU of the first anti-damage control board detects that the voltage at point a is high voltage (3V), it indicates that the protection circuit of the first anti-damage device is in a conducting state and is not damaged.

4) Under the condition that the protection circuit is damaged, the MCU of the first damage prevention control board obtains that the voltage of the point A is 0V through the R2 grounding wire.

5) When the MCU of the first anti-damage control board detects that the voltage of the point A is low voltage (0V), the protection circuit of the anti-damage device is in an off state, and the equipment is damaged.

6) When the equipment is damaged, the MCU acquires that the point A is low voltage, the MCU of the first damage prevention control panel sends a signal to an alarm (sound, photoelectricity, vibration and the like) and a communication module, and the communication module transmits the information to a monitoring center to complete alarm.

Further, the module of shooing still can include the second and prevent destroying control panel and second and prevent destroying the device, and the second prevents destroying the control panel setting in the inside of shell 101 to link to each other with auxiliary control panel 105, the second prevents destroying the device and includes seal subassembly and shell fragment micro-gap switch, and every seal subassembly sets up in the outside of shell 101, and shell fragment micro-gap switch sets up the inboard of shell 101.

First layer damage prevention: the seal subassembly, the seal subassembly is a plurality of, and every seal subassembly sets up on a plane in the shell 101 outside, including seal lid, screw and end section of thick bamboo, and the shell sets up the trompil according to the size of the end section of thick bamboo of seal subassembly.

When the device is installed, the bottom cylinder is installed at the opening of the shell 101, a nut is arranged on the back of the opening, and at least two buckles are arranged on the inner wall of the bottom cylinder; screwing the screw into the bottom cylinder of the bottom cylinder, and screwing the screw and the nut on the back of the opening together by using a screwdriver; the seal cover is buckled on the upper part of the screw, and the buckle on the inner wall of the seal cover is tightly buckled with the buckle on the inner wall of the bottom barrel.

During disassembly, the seal cover is damaged by external force, and the screw is unscrewed by using a screwdriver, so that the screw is separated from the shell 101; taking down the bottom cylinder; the housing 101 with the bottom cylinder is removed.

Second layer anti-damage: the elastic piece microswitch is connected with the second damage-proof control panel, and a part bulge is arranged on the shell 101; when the shell 101 of the equipment is not damaged, the elastic sheet of the elastic sheet micro switch is pressed by an external force exerted by the part protrusion, the switch is closed under the state that the elastic sheet is pressed, and the MCU of the second anti-damage control panel detects a high level; when the shell 101 of equipment is destroyed, shell fragment micro-gap switch's shell fragment loses the protruding external force of applying of part of shell 101 and is the bounce-off state, and under the shell fragment was bounced the off-state, the switch disconnection, the MCU of second anti-damage control panel detected the low level.

As shown in fig. 11, the specific principle of the second destruction prevention device is as follows:

1) R1 is resistance 1 (1K omega resistance), and R2 is resistance 2 (10K omega resistance), and under the condition that the shell of equipment has not been destroyed, the shell fragment of shell fragment micro-gap switch is pressed by the part arch of box shell and is exerted external force, and the protection circuit is closed state.

2) In a closed circuit state, the MCU of the second anti-damage control panel can acquire that the voltage of the point A is 3V through calculation, and the calculation is as follows: u2= (10K Ω × 3.3V)/(1K + 10K) =3V, U2 is that the voltage of R2 is 3V, then UA is 3V, and the MCU acquires that the voltage of the point A is 3V.

3) When the MCU of the second anti-damage control panel detects that the voltage of the point A is high voltage (3V), the protection circuit of the second anti-damage device is in a normal state, and the shell of the device is not detached and damaged.

4) When the shell of the equipment is damaged and the shell is disassembled, the elastic sheet of the elastic sheet micro switch loses the external force exerted by the part protrusion of the shell and is in an elastic opening state.

5) When the circuit is in an off state, the MCU acquires that the voltage of the point A is 0V through the R2 grounding wire.

6) When the MCU of the second anti-damage control panel detects that the voltage of the point A is low voltage (0V), the protection circuit of the second anti-damage device is in an off state, and the shell is damaged and detached.

7) When equipment is damaged, the MCU acquires that the point A is low voltage, the MCU of the second damage-proof control panel sends a signal to the alarm and the communication module, the alarm completes local alarm on the equipment in a sound, photoelectric and vibration mode, and the communication module transmits information to the monitoring center to complete remote alarm.

As shown in fig. 12, this embodiment further provides a method for acquiring trusted biometric data, where the method is implemented by the above-mentioned acquisition terminal device, and includes the following steps:

and S1201, after receiving an acquisition instruction triggered by a user, acquiring information of the user.

Wherein, the information of gathering includes: the identity card reader collects identity card information; a photographing part (a high-resolution camera or a high-definition camera module) collects a portrait image; collecting fingerprint data by a fingerprint collector; the method comprises the steps that a touch screen collects information input by a user, such as a contact phone, a mailing address and the like, and collects signature handwriting information; the file acquisition module acquires documents or other certificate information except identity cards.

And step S1201, starting the camera at the same time, and recording the acquisition process of the user information.

And S1202, carrying out initial examination on the collected user information.

The step S1202 specifically includes:

s12021, checking whether the collected user information meets the standard, such as whether the portrait image meets the certification making requirement, whether the fingerprint data is clear, whether the document or other certificate information is clear, and the like, and if the user information meets the standard, entering the step S12022.

S12022, verifying whether the collected user information is consistent with the user, for example, ensuring the user and certificate information to be integrated through portrait comparison, ensuring that fingerprint data and signature handwriting information are provided by the user through video recording, and the like.

S12023, judging whether the initial examination is passed according to whether the collected user information is consistent with the user.

If the user information is inconsistent with the user, the initial review is not passed, and the step S1203 is entered; if the user information is consistent with the user, the initial review is passed, and the process proceeds to step S1204.

And S1203, notifying the user of re-acquisition.

S1204, encrypting the collected user information.

The step S1204 specifically includes:

s12041, extracting characteristic information by adopting different extraction modes according to different types of the collected biological data.

Specifically, the extracted feature information includes portrait facial features information, fingerprint skeleton information, voiceprint amplitude information, and the like, for example, the portrait facial features information is extracted by adopting a deep learning and convolution PCA mode, the fingerprint skeleton information is extracted by adopting a mode of combining adaboost and texture retrieval, and the voiceprint amplitude information is extracted by adopting a fourier decomposition mode.

S12042, conducting structured numerical conversion on the feature information, and binding the structured numerical feature information and the user certificate information together.

S12043, digitizing the bound user information by ASCII, and arranging the digitized ASCII user information together according to a convention rule to form a data matrix.

Wherein, the rule of engagement is as follows: the method adopts the mode of 0-000-8230, 8230according to the data natural segmentation.

S12044, on the basis of keeping integrity, the matrix information is decomposed, the short message is used as a single value, the long message is used as a multi-bit value, the short message is converted into double-precision pixel points, the double-precision pixel points are used as watermarks to be superposed on the acquired biological original data, and binding of personal information data and the acquired data is achieved.

S12045, converting the bound data into a data stream via binary packetization, encrypting the data stream by using a data encryption method, and leaving a decryption index at a data header.

And S1205, uploading the encrypted user information to a trusted background.

Specifically, after the acquired information is confirmed to be sent to the trusted platform, the locally stored information is deleted, after the encrypted user information is received by the trusted platform, the encrypted user information can be decrypted, the decrypted user information is reviewed, if the review does not pass, the user is informed to the nearby acquisition terminal to acquire the information again, and if the review passes, the original information and the personal characteristic information are disassembled and encrypted again to generate a new decryption index.

Example 2:

the present embodiment is different from embodiment 1 in that: still include the outsourcing and control the module, the outsourcing is controlled the module and is linked to each other with control module, the outsourcing is controlled the module and is the operation screen, one of them of external computer and mobile control end, the operation screen is controlled to the outsourcing of this embodiment, the operation screen can set up the rear portion at the shell, two front and back display screens, the operation screen (i.e. rear portion display screen) can supply the staff to handle kind and content to carry out corresponding examination and approval and processing at the business of touch-sensitive screen (i.e. anterior display screen) at the user, the operation screen can be as required, pull out different angles and operate, make things convenient for the staff to carry out one-to-many processing to user's business.

To sum up, the utility model integrates the omnibearing multidimensional biological characteristic data acquisition unit, the functional components adopt the modularized design, one can finish the acquisition of various biological characteristics, and the utility model is suitable for various application scenes; the modular design also reduces the volume of the whole equipment, greatly improves the space utilization rate, reduces the occupation of space resources, is convenient to install, transport and later maintenance, and greatly saves the production and processing cost, the transport cost and the maintenance cost; the utility model adopts the one-way perspective glass self-photographing structure to realize 'what you see is what you get', combines the self-service photographing technology with the one-way perspective glass, and finishes the photographing operation by looking into the mirror, so that the photographed picture is the image that the human eyes see in the mirror, and the photographing part photographs the user through the one-way perspective glass, thereby realizing the 'what you see is what you get' effect; the utility model is provided with a set of mature and reliable intelligent lighting system, a plurality of groups of light supplementing lamps are arranged around the equipment, and the light supplementing lamps can automatically adjust the brightness of each group of light according to the photographing environment so as to achieve the optimal photographing effect; the curved-surface light supplement lamp is adopted, a softer light supplement effect is created, and the portrait is ensured to be presented in a perfect photographing environment, so that the best portrait photographing effect is achieved; the utility model discloses a multiple vandal-proof device, multiple safeguard measure, effective prevention acquisition terminal equipment lose the user's biological characteristic information who leads to and are stolen the problem, avoid the terminal to lose the back, are destroyed by other people's violence to acquire the inside important information in terminal.

The above, only be the embodiment of the utility model discloses a patent preferred, nevertheless the utility model discloses a protection scope is not limited to this, and any technical personnel who is familiar with this technical field are in the utility model discloses a within range, according to the utility model discloses a technical scheme and utility model patent conception of the patent substitute or change with equaling all belong to the protection scope of the utility model patent.

Claims (10)

1. The utility model provides a thin credible biological characteristic data acquisition terminal equipment of formula, its characterized in that, includes face collection module and data acquisition module, face collection module is including the module of shooing and control module, the module of shooing includes the shell, the part of shooing, first display screen, one-way perspective glass and auxiliary control panel, the anterior opening of shell, the part of shooing, first display screen, one-way perspective glass, auxiliary control panel and control module setting are in the inside of shell, and the camera lens of the part of shooing sees through one-way perspective glass towards the shell opening, control module links to each other with the part of shooing, first display screen, auxiliary control panel, data acquisition module respectively.

2. The thin trusted biometric data collection terminal device according to claim 1, wherein the first display screen is disposed inside a top portion of the housing, the half mirror is disposed obliquely inside the housing, and one end of the half mirror is close to or in contact with the first display screen.

3. The thin trusted biometric data collection terminal device according to any one of claims 1 to 2, wherein the data collection module comprises an operation console, a file collection module, a receipt printer and a barcode/two-dimensional code scanner, the operation console is in hot-plug docking with the control module through a male-female docking device, and the file collection module, the receipt printer and the barcode/two-dimensional code scanner are disposed on the housing and connected with the control module.

4. The thin trusted biometric data collection terminal device according to claim 3, wherein a fingerprint collection device and a touch screen are disposed on the console.

5. The thin trusted biometric data collection terminal device according to claim 3, wherein a file placing opening is formed in a front portion of the housing at a position corresponding to the file collection module, the file collection module includes a high-speed scanner, the high-speed scanner is disposed above the file placing opening, and a lens of the high-speed scanner faces downward.

6. The thin trusted biometric data collection terminal device according to any one of claims 1 to 2, wherein the face collection module further includes a fill-in light, the fill-in light is connected to the auxiliary control board, and the fill-in light is disposed around the housing.

7. The thin trusted biometric data collection terminal device according to claim 6, wherein the fill light is a curved fill light.

8. The thin trusted biometric data collection terminal device according to any one of claims 1 to 2, 4 to 5 and 7, wherein the face collection module further comprises a photographing part moving module, the photographing part moving module is disposed inside the housing and connected to the auxiliary control board, the photographing part is disposed on the photographing part moving module, and the photographing part is driven to move by the photographing part moving module.

9. The thin trusted biometric data collection terminal according to any one of claims 1 to 2, 4 to 5 and 7, wherein the photographing module further comprises a first tamper-proof control board disposed inside the housing and connected to the auxiliary control board, and a first tamper-proof device disposed on the half mirror or the housing, the contact switch of the first tamper-proof device being connected to the first tamper-proof control board.

10. The thin trusted biometric data collection terminal device according to any one of claims 1 to 2, 4 to 5 and 7, wherein the photographing module further includes a second tamper-proof control panel and a second tamper-proof device, the second tamper-proof control panel is disposed inside the housing and connected to the auxiliary control panel, the second tamper-proof device includes a plurality of seal assemblies and a plurality of dome microswitches, each seal assembly is disposed on one plane of the housing, and the dome microswitches are connected to the second tamper-proof control panel.

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