CN112509247A

CN112509247A - Portable self-service certificate handling equipment

Info

Publication number: CN112509247A
Application number: CN202011061839.8A
Authority: CN
Inventors: 曹艾华; 张文滨
Original assignee: Guangzhou Prestige Technology Co ltd
Current assignee: Guangzhou Prestige Technology Co ltd
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2021-03-16

Abstract

The invention relates to a portable self-service certificate handling device, which comprises: a housing; the screen assembly is arranged at the front part of the shell and is used for displaying an operation page; the screen driving assembly is arranged on the back of the shell, is connected with the screen assembly and is used for driving the screen assembly to move up and down relative to the shell; the left component and the right component are arranged on the left side and the right side of the shell and are used for providing a certificate handling operation function; the left and right sliding assembly is arranged on the back of the shell, is connected with the left assembly and the right assembly and is used for driving the left assembly and the right assembly to perform opening and closing movement relative to the shell, and at least part of the left assembly and the right assembly are in a stacked state when the left assembly and the right assembly are closed; and the control assembly is arranged on the back of the shell, is connected with the screen driving assembly and the left-right sliding assembly and is used for controlling the screen driving assembly and the left-right sliding assembly to work. The invention further reduces the occupied area, saves a large amount of operation space and is suitable for various operation environments.

Description

Portable self-service certificate handling equipment

Technical Field

The invention relates to the field of self-service equipment, in particular to portable self-service certificate handling equipment.

Background

In recent years, with the rapid development of economy and society, the demand of public security related certificates handling is increased geometrically, and the work efficiency and the service quality of the public to government departments need to be improved. In recent years, the government has increased the push for smart cities to become one of the fundamental elements of competition among cities around the world, and the public has gradually accepted the need for services and automation for fast, efficient, portable operation.

The smart city is a new city development mode which is based on network combination of the internet, the internet of things, a telecommunication network, a broadcast and television network, a wireless broadband network and the like and mainly characterized by high integration of intelligent technology, high-end development of smart industry and high-efficiency and convenient-to-use smart service. Based on the development of smart cities, self-service equipment is gradually popularized, and people also gradually accept more services to be handled on the self-service equipment, including identity card service handling, driving license service handling and the like.

The opening mode of traditional portable self-service certificate handling equipment is similar to the lock form of notebook computer, and this not only makes its area of taking up a lot of, and because the weight that adopts the panel beating framework inside and make its use mode that can not draw together with the notebook computer far away because aluminium system metal casing causes in addition, consequently has produced very big restriction to a section needs to accept the self-service equipment of crowd's government affairs business along with police car.

Disclosure of Invention

The invention aims to overcome at least one defect of the prior art, provides the portable self-service certificate handling equipment, avoids the problems of inconvenient placement, hardware loss and accidental damage caused by the traditional flip mode, further reduces the floor area, saves a large amount of operation space, and is suitable for various operation environments.

The technical scheme adopted by the invention is that the portable self-service certificate handling equipment comprises:

a housing;

the screen assembly is arranged at the front part of the shell and is used for displaying an operation page;

the screen driving assembly is arranged on the back of the shell, is connected with the screen assembly and is used for driving the screen assembly to move up and down relative to the shell;

the left component and the right component are arranged on the left side and the right side of the shell and are used for providing a certificate handling operation function;

the left and right sliding assembly is arranged on the back of the shell, is connected with the left assembly and the right assembly, and is used for driving the left assembly and the right assembly to perform opening and closing movement relative to the shell and at least part of the left assembly and the right assembly to be in a stacked state when being closed;

and the control assembly is arranged on the back of the shell, is connected with the screen driving assembly and the left-right sliding assembly and is used for controlling the screen driving assembly and the left-right sliding assembly to work.

The invention relates to a portable self-service certificate handling device, which is developed for facilitating service handling and realizing the handling of relevant services such as identity certificates, vehicles, entry and exit in the same place, wherein the service self-service certificate handling device integrates various functional modules and service systems, the whole device is formed by using a design form of cascading motion and realizes a novel opening mode, and the structure of the device is as follows: the equipment comprises a shell, a screen component, a screen driving component connected with the screen component, a left component, a right component, a left-right sliding component connected with the left component and the right component, and a control component for controlling the movement of the equipment, wherein the shell is of a vertical structure, so that the equipment can be vertically erected on the ground, the front part of the shell is provided with the screen component, the left component and the right component are arranged at the left side and the right side of the shell, the back part of the shell is respectively provided with the screen driving component, the left-right sliding component and the control component, the screen driving component is connected with the screen component and correspondingly drives the screen component to move back and forth relative to the shell, the left-right sliding component is connected with the left component and the right component and correspondingly drives the left component and the right component to move oppositely and leftwards relative to the shell in an opening and closing manner, and when the left component and the right component relatively slide the control component, at, the control assembly is respectively connected with the screen driving assembly and the left-right sliding assembly and can respectively drive the screen driving assembly and the left-right sliding assembly to start working. According to the portable self-service certificate handling equipment, the equipment can be vertically placed on a plane through the shell with the vertical structure, so that the problems of inconvenient placement, hardware loss and accidental damage caused by the traditional flip cover mode are solved; the screen driving assembly drives the screen assembly to realize up-and-down lifting movement, the height of an operation display page of the equipment is increased, and the screen assembly is lifted upwards forwards after the equipment is opened in practical application, so that the distance between an operator and the screen assembly is shortened, and the human-computer interaction relationship is facilitated; the left assembly and the right assembly are driven to stretch and gather to control the opening and closing of the equipment through the left-right sliding assembly, the peripheral components can be contained in the shells of the left assembly and the right assembly, the left assembly and the right assembly extend left and right after the equipment is opened in practical application, the operating parts of the peripheral components are displayed, the left assembly and the right assembly are gathered inwards to be closed when the equipment is closed, the overall floor area of the equipment is further reduced, a large amount of operating space is saved, and the multifunctional electric power tool adapts to various operating environments.

Further, the left-right sliding assembly specifically comprises:

a gear;

the left rack and the right rack are respectively meshed with the gear and move in parallel with each other, and the left rack and the right rack are respectively correspondingly connected with the left assembly and the right assembly;

the guide rail is arranged in parallel with the left rack and the right rack, a sliding block is arranged on the guide rail, and the left assembly and the right assembly are connected to the guide rail in a sliding mode through the sliding block;

the sliding driving mechanism is connected with the gear and provides power for the rotation of the gear;

the sliding driving mechanism drives the gear to rotate, the gear drives the left rack and the right rack to move in the left and right directions of the shell, and the left rack and the right rack respectively drive the left assembly and the right assembly which are arranged on the guide rail to slide towards the two sides of the shell.

The device realizes the stretching and gathering of the left component and the right component through the left-right sliding component, and the structure of the left-right sliding component is as follows: the left and right sliding component comprises a gear, a left rack, a right rack, a guide rail and a sliding driving mechanism, the sliding driving mechanism is connected with the gear, a power source is provided for the rotation of the gear, the left rack and the right rack are parallel to each other and are respectively meshed with the two sides of the gear, the left rack and the right rack are respectively connected with the left component and the right component, the guide rail is parallel to the left rack and the right rack, the gear is correspondingly installed on the vertical centerline of the guide rail, the left rack and the right rack are stretched and gathered towards the left side and the right side by taking the gear as the midpoint, a sliding block is installed on the guide rail, the left component and the right component are connected with the sliding block, the left component and the right component can slide left and right on the guide rail, and then the opening and closing of the left component and. According to the invention, the left and right components move leftwards and rightwards on a horizontal plane skillfully through the gear rack and guide rail structures in the left and right sliding components, the left and right components are driven to stretch and gather through the gear rack and guide rail structures to control the opening and closing of the equipment, the peripheral operating components are accommodated in the shells of the left and right components, the operating function modules arranged in the shells of the left and right components are displayed in the use process of the equipment, and the left and right components are stacked when the equipment is closed, so that the overall floor area of the equipment is further reduced by effectively utilizing a telescopic principle, a large amount of operating space is saved, and the equipment is suitable for various operating environments.

Further, the screen driving assembly specifically includes:

the supporting mechanism is arranged on the back of the shell, is connected with the screen assembly and is used for supporting the screen assembly;

the rotating shaft is in limit connection with the supporting mechanism so that the rotating shaft rotates to push the supporting mechanism to move back and forth relative to the shell;

the driving mechanism is connected with one end of the rotating shaft and provides power for the rotation of the rotating shaft;

the driving mechanism drives the rotating shaft to rotate, and the rotating shaft pushes the supporting mechanism to move back and forth relative to the shell, so that the supporting mechanism supports the screen assembly to move back and forth relative to the shell.

The device of the invention realizes the back and forth movement of the screen component through the screen driving component, and the structure of the screen driving component comprises: the screen drive assembly is installed at the back of casing, and is connected with the screen subassembly, mainly includes supporting mechanism, pivot and actuating mechanism, and supporting mechanism can be the forward upward movement of certain slope, and supporting mechanism is connected with the screen subassembly for support and fixed screen subassembly, so that the screen subassembly can be firmly be certain inclination forward movement, the pivot with supporting mechanism limit connection, actuating mechanism drive pivot rotate, and the length difference that the pivot rotation produced promotes the forward upward movement when supporting mechanism is the equipment open mode or the backward decurrent direction motion when the equipment closed mode, thereby makes the screen subassembly do the forward and backward motion for the slant of casing. According to the invention, the screen component is pushed to move back and forth at the lifting and lowering angles through the supporting mechanism, the rotating shaft and the driving mechanism in the screen driving component, and the portable self-service certificate handling equipment is lighter in overall structure, so that the height of the screen interacting with a human body in the equipment is lower, and after the screen driving component is started to work, the rotating shaft rotates to push the supporting mechanism to perform lifting movement, and the screen component stably supported by the supporting mechanism also performs corresponding lifting movement, so that the height of the screen component of the equipment is raised, the position of the screen can be adjusted according to the operation posture of an operator, the distance between the operator and the screen component is shortened, the man-machine interaction is facilitated, and the experience of certificate handling business of the operator is improved.

Further, the support mechanism specifically includes:

the front surface of the supporting panel is matched and mounted with the screen assembly, and the back surface of the supporting panel is provided with a panel fixing block;

the power support comprises a first support plate and a second support plate, the first support plate and the second support plate are vertically connected in a T shape, the first support plate is connected with the back of the support panel, and the second support plate is in limit connection with the rotating shaft;

the guide shaft is parallel to the power support and is connected with the supporting panel through the panel fixing block.

The screen driving assembly comprises a supporting mechanism, wherein the supporting mechanism is connected with the screen assembly and is used for stably pushing the screen assembly to lift up and lower, and the specific structure of the supporting mechanism comprises: support panel, power support and guiding axle, support panel size and screen subassembly adaptation, and its front and the laminating installation of screen subassembly, panel fixed block and power support are installed respectively to the back, the last panel fixed block of support panel is used for installing the guiding axle, the installation direction and the horizontal plane of guiding axle are certain inclination angle, make support panel make elevating movement on the direction of guiding axle, power support specifically includes first mounting panel and second mounting panel, and first mounting panel and second mounting panel are the perpendicular connection of T type, the back at support panel is installed to first mounting panel, second mounting panel and pivot spacing connection, promote power support motion through rotating, drive the support panel motion with power leg joint, thereby the motion that promotes screen subassembly lift has been realized. The screen driving component is installed in a size-adaptive manner with the screen component through the supporting panel in the supporting mechanism, and the screen component is pushed to move in an all-around manner and uniformly stressed manner; the power bracket in the supporting mechanism is used as a stressed intermediate medium of the rotating shaft and the supporting panel, so that the pushing force of the rotating shaft is safely and stably transmitted to the supporting panel; the movement direction of the supporting panel which is obliquely upward is limited through the guide shaft in the supporting mechanism, the movement direction of the supporting panel is indirectly limited, and the stability of the screen assembly of the equipment during lifting is further ensured.

Further, the left component specifically includes:

the left upper shell comprises a first left upright and a left base, and one end of the first left upright is mounted on the left base;

the left lower shell comprises a second left upright post and a left bottom plate, the second left upright post and the left bottom plate are installed on the guide rail, one end of the second left upright post is installed on the left bottom plate, the first left upright post and the second left upright post are installed in an embedded mode, the left base and the left bottom plate are installed in an embedded mode to form a left cavity, the left cavity is respectively provided with a high-speed shooting instrument, a scanner and a thermal printer, the high-speed shooting instrument is installed on the left side portion in the left cavity, the scanner is installed above the high-speed shooting instrument, and the thermal printer is installed on the right side portion in the left cavity;

and the left rack fixing block is arranged on the right side of the left base and is connected with the left rack.

The left assembly is arranged on the left side of the shell, and can slide on the left side of the shell through the guide rail sliding blocks on the left and right sliding assemblies, so that the stretching and gathering of equipment are realized, wherein the left assembly comprises the following specific structures: the left assembly comprises an upper left shell, a lower left shell and a left rack fixing block, the lower left shell is mounted at a guide rail of the left-right sliding assembly, the left rack fixing block is fixedly connected with a left rack in the left-right sliding assembly, and the left rack drives the left rack fixing block during movement, namely drives the left assembly to perform sliding movement. The left upper shell specifically comprises a first left upright post and a left base, and one end of the first left upright post is connected with the left base at an angle larger than 90 degrees and smaller than 180 degrees; the casing includes second left stand and left bottom plate down in a left side, and second left stand and left bottom plate are connected with the same connection angle with first left stand and left base to first left stand and the installation of second left stand gomphosis, left side base and the installation of left bottom plate gomphosis, second left stand and left bottom plate accessible slider are connected on the guide rail, left side base with left side bottom plate gomphosis installation forms left cavity, high bat appearance, scanner, thermal printer are installed respectively to left side cavity, high bat appearance is installed left side part in the left side cavity, the scanner is installed high bat top of appearance, thermal printer installs right side part in the left side cavity. According to the invention, the opening and closing of the equipment are controlled by stretching and gathering the left component relative to the equipment, the peripheral components can be accommodated in the left component, the equipment is opened by extending the left component leftwards in practical application, and the equipment is closed by closing the left component inwards, so that the whole floor area of the equipment is further reduced, and a large amount of operation space is saved.

Further, the right component specifically includes:

the right upper shell comprises a first right upright post and a right base, and one end of the first right upright post is installed on the right base;

the right lower shell comprises a second right upright post and a right bottom plate, the second right upright post and the right bottom plate are installed on the guide rail, one end of the second right upright post is installed on the right bottom plate, the first right upright post and the second right upright post are installed in an embedded mode, the right base and the right bottom plate are installed in an embedded mode to form a right cavity, and a fingerprint instrument is installed in the right cavity;

and the right rack fixing block is arranged on the left side of the right base and is connected with the right rack.

The right assembly is arranged on the right side of the shell, and can slide on the right side of the shell through the guide rail sliding blocks on the left and right sliding assemblies, so that the stretching and gathering of equipment are realized, wherein the right assembly comprises the following specific structures: the right assembly comprises an upper right shell, a lower right shell and a right rack fixing block, the lower right shell is installed at the guide rail of the left-right sliding assembly, the right rack fixing block is fixedly connected with a right rack in the left-right sliding assembly, and the right rack is driven to move, namely to drive the right assembly to slide. The upper right casing specifically includes first right stand and right base, first right stand one end and right base are connected with the angle that is greater than 90 degrees and is less than 180 degrees, the casing includes second right stand and right bottom plate under the right side, second right stand and right bottom plate are connected with the same angle of connection with first right stand and right base, and installation of first right stand and the right stand gomphosis of second, right base and right bottom plate gomphosis installation, second right stand and right bottom plate accessible slider are connected on the guide rail, wherein right base and the installation of right bottom plate gomphosis in the right side subassembly form right cavity, can hold the fingerprint appearance in the right cavity, and press down the corresponding upper right casing department with the fingerprint appearance and be equipped with the opening, so that the fingerprint can press down on the fingerprint appearance through the opening. According to the invention, the opening and closing of the equipment are controlled by stretching and gathering the right component relative to the equipment, the peripheral components can be accommodated in the right component, the equipment is opened by extending the right component rightwards in practical application, and the equipment is closed by closing the right component inwards, so that the floor area of the whole equipment is further reduced, and a large amount of operation space is saved.

Further, the screen assembly specifically includes:

the display screen is connected with the supporting mechanism and used for screen display and touch screen operation;

the face recognition camera is arranged above the display screen and used for face verification and recognition;

and the panoramic camera is arranged below the display screen and is used for monitoring all steps of the whole handling process.

The screen component integrates the functions of part of certificate handling services, wherein the screen component comprises a display screen, a face recognition camera and a panoramic camera, the display screen is mainly used for displaying an interface of certificate handling operation and providing a display interface of certificate handling steps and screen touch interactive operation for an operator; the face recognition camera is arranged above the display screen and is over against the position of an operator, so that the face of the operator can be recognized and information such as verification can be obtained; the panorama camera is installed in the below of display screen, and but panorama camera multi-angle rotating, can be through the operational environment of judgement equipment or operator's position and altitude relation, and then adjust the height etc. of screen subassembly.

Further, the control assembly specifically comprises an industrial personal computer, and the industrial personal computer is connected with the screen driving assembly and the left-right sliding assembly.

The master control assembly of the equipment comprises an industrial personal computer, wherein the industrial personal computer is respectively connected with a screen driving assembly and a left-right sliding assembly and correspondingly controls the work of the screen driving assembly and the left-right sliding assembly, and the screen driving assembly is provided with a lifting driving mechanism and the left-right sliding assembly are provided with a sliding driving mechanism respectively for providing driving power, so that for the industrial personal computer of a master control center of the equipment, corresponding switches can be further arranged at the lifting driving mechanism, the left-right sliding assembly and the industrial personal computer to control the work of the corresponding assemblies, but the work of each assembly of the equipment firstly needs to be connected with a power supply and a network at the industrial personal computer, and the whole equipment is started to work after the switch at the industrial personal computer is opened, so that the assemblies can be.

Further, the left-right sliding assembly further comprises a first travel switch, the right assembly is provided with a first induction shifting piece, the first induction shifting piece is parallel to the right rack fixing block, and the first induction shifting piece is matched with the first travel switch for use.

The left-right sliding component of the invention also comprises a first travel switch, which is also called a limit switch, the contact of the travel switch is operated by utilizing the collision of the mechanical moving part to realize the connection or disconnection of a control circuit, thereby achieving a certain control purpose, the travel switch is used for limiting the position or the travel of the mechanical movement, so that the moving machine automatically stops, moves reversely, moves at variable speed or automatically reciprocates and the like according to a certain position or travel,

according to the invention, the sliding strokes of the left component and the right component are controlled by arranging the first travel switch, the first induction shifting piece is correspondingly arranged on the left side of the shell in the right component and is parallel to the right rack fixing block, the purpose of switching on a circuit is realized by the left-right sliding component through the touch contact of the first induction shifting piece and the first travel switch, the first induction shifting piece is contacted with the first travel switch to switch on the sliding driving mechanism, the sliding driving mechanism drives the gear to rotate, so that the left rack and the right rack perform relative motion with the gear as the center, when the first travel switch and the first induction shifting piece are out of contact, the sliding driving mechanism is automatically powered off, the gear does not rotate any more, and at the moment, the left component and the right component do not move relatively any more. The mode that this invention utilized first response plectrum and first travel switch collision contact control circuit not only can set up and restrict the relative motion position of left subassembly and right subassembly through the size that sets up first response plectrum or first travel switch's position, can improve equipment's safety in utilization moreover.

Further, the screen driving assembly further comprises a second travel switch, the power support is provided with a second induction shifting piece, and the second induction shifting piece is matched with the second travel switch for use.

The power bracket is provided with a second induction shifting sheet, a second travel switch is correspondingly arranged on the side edge of the second induction shifting sheet, the screen driving component achieves the control purpose of switching on a circuit through collision contact of the second induction shifting sheet and the second travel switch, the second induction shifting sheet is in contact with the second travel switch to switch on the lifting driving mechanism, the lifting driving mechanism drives the rotating shaft to rotate, so that the power bracket is pushed to do lifting motion, when the second induction shifting sheet and the second travel switch lose contact, the lifting driving mechanism is automatically powered off, the power bracket does not do lifting motion any more, and at the moment, the screen component does not do lifting motion any more. According to the invention, the mode that the second induction shifting piece and the second travel switch are in collision contact to switch on the control circuit is utilized, the lifting height of the screen assembly can be adjusted by setting the size of the second induction shifting piece or the position of the second travel switch, and the use safety of the portable self-service equipment is greatly improved.

Further, the right side of the high-speed shooting instrument is provided with a sliding shaft, and the high-speed shooting instrument can be embedded into the first cavity through the sliding shaft.

Compared with the prior art, the invention has the beneficial effects that: according to the portable self-service certificate handling equipment, the equipment can be vertically placed on a plane through the shell with the vertical structure, so that the problems of inconvenient placement, hardware loss and accidental damage caused by the traditional flip cover mode are solved; the screen driving assembly drives the screen assembly to realize up-and-down lifting movement, the height of an operation display page of the equipment is increased, and the screen assembly is lifted upwards forwards after the equipment is opened in practical application, so that the distance between an operator and the screen assembly is shortened, and the human-computer interaction relationship is facilitated; the left assembly and the right assembly are driven to stretch and gather to control the opening and closing of the equipment through the left-right sliding assembly, the peripheral components can be contained in the shells of the left assembly and the right assembly, the left assembly and the right assembly extend leftwards and rightwards after the equipment is opened in practical application, the operating parts of the peripheral components are displayed, the left assembly and the right assembly are gathered inwards to be closed when the equipment is closed, the overall floor area of the equipment is further reduced, a large amount of operating space is saved, and the multifunctional electric power tool adapts to various operating environments.

Drawings

Fig. 1 is a schematic structural view of the whole device, wherein fig. 1-a is a schematic view of a closed state of the device, and fig. 1-b is a schematic view of a use state of the device.

Fig. 2 is a schematic structural view of the apparatus in a state of front disassembly.

Fig. 3 is a schematic structural view of the apparatus in a state of disassembly of the back surface.

Fig. 4 is a schematic structural view of the left-right sliding assembly, wherein fig. 4-a is a schematic structural view of the left-right sliding assembly in an assembled state, and fig. 4-b is a schematic structural view of the left-right sliding assembly in an disassembled state.

Fig. 5 is a schematic structural view of the left assembly, wherein fig. 5-a is a schematic structural view of the left assembly in an assembled state, and fig. 5-b is a schematic structural view of the left assembly in an disassembled state.

Fig. 6 is a schematic structural view of the right assembly, wherein fig. 6-a is a schematic structural view of the right assembly in an assembled state, and fig. 6-b is a schematic structural view of the right assembly in an disassembled state.

Fig. 7 is a schematic structural diagram of a screen driving assembly, wherein fig. 7-a is a schematic structural diagram of a screen driving assembly in an assembled state, and fig. 7-b is a schematic structural diagram of a screen driving assembly in a disassembled state.

Fig. 8 is a schematic structural view of a screen assembly, wherein fig. 8-a is a schematic structural view of a combined state of the screen assembly, and fig. 8-b is a schematic structural view of a disassembled state of the screen assembly.

Fig. 9 is a schematic structural diagram of the high-speed scanner, wherein fig. 9-a is a schematic structural diagram of the overall assembly state of the high-speed scanner, and fig. 9-b is a schematic structural diagram of the disassembly state.

The labels in the figure are:

100. a housing; 110. a front cover; 120. a rear cover; 130. a bottom cover;

200. a screen driving assembly; 210. a support panel; 211. a power bracket; 212. a panel fixing block; 213. a guide shaft; 214. a linear bearing; 220. a rotating shaft; 221. a bearing seat; 222. a bearing; 230. a motor; 231. a motor base; 232. a driving wheel; 233. A driven wheel; 234. a belt; 240. a second travel switch; 241. a second induction shifting piece; 242. a travel switch base; 250. a support plate;

300. a left-right sliding component; 310. a gear; 311. a bearing; 312. a gear fixing bracket; 313. a cover plate; 320. a left rack; 330. a right rack; 340. a guide rail; 344. a slider; 350. a motor; 351. a horizontal direct current motor fixing bracket; 360. a first travel switch; 361. a first travel switch base;

400. a screen assembly; 410. a screen front cover; 420. a display screen; 430. a face recognition camera; 440. pressing strips are arranged on the screen; 450. A screen side bar; 460. a screen rear cover; 470. mounting a plate; 480. a damping hinge; 490. a panoramic camera; 500. A left component; 510. a left upper housing; 520. a lower left housing; 530. decorating strips; 540. a left rack fixing block; 550. a high shooting instrument; 551. a high-speed shooting instrument cover; 552. a high-speed shooting instrument seat; 553. a high-speed shooting instrument conversion seat; 554. a high-speed shooting instrument conversion cover; 555. an ejector; 556. a long axis; 557. a minor axis; 558. a short limiting block; 559. a long limiting block; 5510. a fixed seat; 5511. a shaft sleeve; 5512. an ejector mounting seat; 560. a scanner; 561. a scanner fixing base; 570. a thermal printer; 571. a thermal printer; 572. a paper shaft seat; 573. a paper guide plate; 574. a print head platen; 580. an identity card sensor fixing frame; 581. Acrylic plates; 582. an identity card reader; 583. an antenna board; 584. an identity card module pressing plate; 590. a handle left side plate; 591. a handle left side plate reinforcing bracket;

600. a right component; 610. a right upper housing; 620. a right lower housing; 630. decorating strips; 640. a right rack fixing block; 650. a fingerprint device; 660. a signature panel; 661. a signature panel support; 662. reinforcing the plate; 670. a first induction shifting piece; 700. And a control component.

Detailed Description

The drawings are only for purposes of illustration and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The invention develops a portable self-service certificate handling device through technical integration, is more convenient for people to handle services, enables people, particularly people in remote mountain areas, to handle identity cards, vehicles and related services of entry and exit on the same terminal device, does not need to run to different handling points for handling different services to queue up for handling, greatly shortens the handling time of the people and improves the working efficiency of each department. The portable self-service certificate handling equipment is developed from vertical police service self-service terminal equipment, and aims to meet the use requirements of city peripheral government affairs handling through miniaturization and portability and convey the design concept of scientific and technical convenience and intelligent service. And the portable self-service equipment is suitable for places to be dispatched in the present, town and rural areas of two-line and three-line cities, and performs government affair services which are relatively dispersed and have relatively high mobility along with the mobile police car. The portable self-service certificate handling equipment is carried by a policeman on a vehicle, and the policeman completes the startup and shutdown actions for a main operator to guide a transactor to complete the transaction of services in a corresponding acquisition area.

Examples

As shown in fig. 1, fig. 1-a is a closed state of the portable self-service certificate handling device of the present embodiment, fig. 1-b is an open use state of the portable self-service certificate handling device of the present embodiment, the device complete machine is formed by a design form of a stacking motion and realizes a novel open mode, that is, the device is controlled to be opened and closed by stretching and gathering of components on two sides, all external components are accommodated in a housing, and other functions except main functions can be opened automatically according to needs; and after the components on the two sides are opened, the screen is lifted forwards and upwards, and the position of the screen can be adjusted according to the operation posture of an operator, so that the distance between the operator and the screen is shortened, and the human-computer interaction relationship is more facilitated. Wherein, the structure sketch map of the state of disassembling of portable self-service certificate handling equipment front and back is as shown in fig. 2 and 3, includes:

the casing 100, specifically, the casing 100 is a main body casing of the apparatus, in addition to the main body casing, the apparatus further includes a front cover 110, a rear cover 120, and a bottom cover 130, the front cover 110 is mounted on the screen assembly 400 so as to protect the screen assembly, the rear cover 120 is mounted at the back of the casing 100 to enclose the screen driving assembly 200 and the left-right sliding assembly 300 at the back of the casing 100, the rear cover is a main maintenance channel through which simple maintenance work can be performed, the bottom cover 130 is mounted at the bottom of the casing 100 to enclose the control assembly 700 at the bottom of the casing 100;

a screen assembly 400 mounted at the front of the housing 100 for displaying an operation page;

the screen driving assembly 200 is mounted on the back of the casing 100, connected to the screen assembly 400, and used for driving the screen assembly 400 to move up and down relative to the casing 100;

a left-right sliding assembly 300, which is installed at the back of the housing 100, connected to the left assembly and the right assembly, and configured to drive the left assembly and the right assembly to perform opening and closing movements relative to the housing 100, and at least a portion of the left assembly and the right assembly to be in a stacked state when the left assembly and the right assembly are closed;

and a control assembly 700 mounted on the back of the housing 100, connected to the screen driving assembly 200 and the left and right sliding assemblies 300, and configured to control the screen driving assembly 200 and the left and right sliding assemblies 300 to operate.

The working principle of the portable self-service certificate handling equipment is as follows: after the device is connected with a power supply and a network through the control assembly 700, the control assembly 700 can control the left and right sliding assemblies 300 and the screen driving assembly 200 to work in sequence, the left assembly and the right assembly move and expand towards two sides under the driving of the left and right sliding assemblies 300, after the left assembly and the right assembly expand towards two sides to a specific position, the certificate handling function operation modules on the left assembly and the right assembly are exposed, and the left assembly and the right assembly stop moving; the screen assembly 400 is then driven by the screen driving assembly 200 to start to ascend, and once the screen assembly 400 ascends to a specific position and stops ascending, the equipment is in an open state for an operator to transact business.

The following detailed description is made for the partial structures and the working principles of the portable self-service certificate handling device:

first, the specific structure of the left-right sliding assembly 300 is explained one by one:

as shown in fig. 4, fig. 4-a is a schematic structural view of the overall combination state of the left and right sliding assemblies, and fig. 4-b is a schematic structural view of the disassembly state of the left and right sliding assemblies, which specifically includes:

a gear 310 mounted on a cover plate 313 through a gear fixing bracket 312 and a bearing 311;

the left rack 320 and the right rack 330 have the same length structure and are respectively meshed with the gear 310, the left rack 320 and the right rack 330 are parallel and move on the same plane, and the left rack 320 and the right rack 330 are respectively and correspondingly connected with the left component and the right component;

the guide rails 340 are installed in parallel with the left rack 320 and the right rack 330 and are respectively installed on the upper side and the lower side of the left rack and the right rack, the upper guide rail and the horizontal surface form an inclined angle, the lower guide rail is parallel to the horizontal surface, 8 sliding blocks 344 are arranged on the lower guide rail and the upper guide rail and the lower guide rail 340 are respectively provided with 4 sliding blocks, and the left assembly and the right assembly are slidably connected to the guide rails 340 through the sliding blocks 344;

the sliding driving mechanism is connected with the gear 310 and provides power for the rotation of the gear 310, and specifically comprises a motor 350 mounted on a horizontal straight motor fixing bracket 351, the horizontal straight motor fixing bracket 351 is erected on the guide rail 340 and is perpendicular to the lower guide rail 340, and the motor 350 is vertically connected with the gear 310 mounted on the cover plate 313;

the first travel switch 360 is erected on the horizontal straight motor fixing support 351 through a first travel switch seat 361, and a contact of the first travel switch 360 is close to the right rack.

Wherein, the theory of operation of horizontal slip subassembly does: when the equipment starts to work, the motor 350 in the sliding driving mechanism drives the gear 310 to rotate in the forward direction, the gear 310 rotates to drive the left rack 320 and the right rack 330 which are meshed with the gear to move towards the left and right directions by taking the gear 310 as a central point, the left rack 320 and the right rack 330 respectively push the left component and the right component of the sliding block 344 arranged on the guide rail 340 to slide towards the left and right sides, the operation function modules on the left component and the right component are displayed, and the equipment stops sliding after the first travel switch 360 is disconnected from the left component and the right component; when the device is closed, the motor 350 in the sliding driving mechanism drives the gear 310 to rotate reversely, the gear 310 rotates to drive the left rack 320 and the right rack 330 engaged on the gear to move by taking the gear 310 as a central point, the left component and the right component are pulled to be gathered towards the center, and a part of the left component and the right component are in a laminated state after the device is closed.

Secondly, the concrete structures of the left assembly and the right assembly are explained one by one respectively:

as shown in fig. 5, fig. 5-a is a schematic structural diagram of the left assembly in the assembled state, and fig. 5-b is a schematic structural diagram of the left assembly in the disassembled state, which specifically includes:

an upper left housing 510 comprising a first left upright and a left base, one end of the first left upright being mounted on the left base;

a left lower housing 520, which is installed to be embedded with the left upper housing 510, and includes a second left pillar, one end of which is installed on the left bottom plate, and a left bottom plate, which is installed on the slider of the upper guide rail, and the left bottom plate is installed on the slider of the lower guide rail, and the first left pillar is embedded and assembled with the second left pillar,

the left base and the left bottom plate are embedded and installed to form a left cavity, the left cavity can be divided into a first cavity, a second cavity and a third cavity, the first cavity is arranged at the left side part of the left cavity, a high-speed shooting instrument 550 is installed in the first cavity, an opening is formed in the side face, opposite to the left upper shell, of the first cavity, and the high-speed shooting instrument 550 can be pulled out from the left side of the left assembly for operation and use; the second cavity is arranged at the right side part of the left cavity, the thermal printer 570 is arranged in the second cavity, an opening is formed in the left lower shell corresponding to a printing output port of the thermal printer 570, printing paper of the thermal printer 570 can be output from the opening, the thermal printer 570 is correspondingly provided with a printing head pressing plate 574, a paper reel 571 is correspondingly arranged on the thermal printer 570, the paper reel 571 is arranged on the paper reel seat 572, an opening is formed in the printing output port of the thermal printer after the left base and the left bottom plate are installed in an embedded mode, a paper guide plate 573 is arranged at the opening, and the paper reel 571 outputs the printing paper from the paper guide plate 573 after the thermal printer 570 prints; the third cavity is arranged at the upper part of the first cavity, the scanner 560 is arranged in the third cavity, an opening is arranged at the position of the upper shell corresponding to the scanning port of the scanner 560, and an operator can perform barrier-free operation interaction with the scanning port of the scanner 560 through the opening.

A decorative strip 530 is arranged in a cavity formed after the upper left shell 510 and the lower left shell 520 are embedded and assembled;

left rack fixed block 540, install in left side base right side, just left side rack fixed block 540 with left side rack 320 is connected, install the ID card recognizer on the rack fixed block 540 of a left side, the ID card recognizer strengthens support 591 through handle left side board 590 and handle left side board and installs the right side at first cavity, specifically, the ID card recognizer includes that the ID card reads the ware 582, is equipped with antenna panel 583 on the ID card reads the ware 582, has ID card module clamp plate 584 to the ID card reads the ware 582 and installs in ID card inductor mount 580 below through ya keli board 581, ID card inductor mount 580 left side is connected with handle left side board 590.

As shown in fig. 6, fig. 6-a is a schematic structural diagram of a right assembly in an assembled state, and fig. 6-b is a schematic structural diagram of a right assembly in a disassembled state, which specifically includes:

a right upper housing 610 including a first right pillar and a right base, one end of the first right pillar being mounted on the right base;

the right lower shell 620 comprises a second right upright post and a right bottom plate, the second right upright post is mounted on the upper side guide rail slide block, the right bottom plate is mounted on the lower side guide rail slide block, one end of the second right upright post is mounted on the right bottom plate, the first right upright post and the second right upright post are mounted in an embedded mode, the right base and the right bottom plate are mounted in an embedded mode to form a right cavity, the right cavity is provided with a fingerprint instrument 650, and a corresponding opening is formed in the right base of the right upper shell 610 corresponding to the position where the fingerprint instrument 650 presses a fingerprint;

a decorative strip 630 is arranged in a cavity formed after the upper right shell 610 and the lower right shell 620 are embedded and assembled;

the right rack fixing block 640 is mounted on the left side of the right base, the right rack fixing block 640 is connected with the right rack 330, a signature plate 660 is mounted on the right rack fixing block 640, a reinforcing plate 662 is arranged below the signature plate 660, the signature plate 660 is connected with the left side of the right component through a signature plate bracket 661, and the signature plate 660 and an identity card sensor fixing frame 580 of the identity card recognizer are in a laminated state when the right rack fixing block is closed;

first response plectrum 670 with right rack fixed block 640 parallel arrangement, first response plectrum 670 one end is installed on the left side of right subassembly, first response plectrum 670 with first travel switch cooperation is used.

Thirdly, a specific structure of the screen driving assembly 200 is explained one by one:

as shown in fig. 7, fig. 7-a is a schematic structural diagram of a combined state of the screen driving assembly, and fig. 7-b is a schematic structural diagram of a disassembled state of the screen driving assembly, which specifically includes:

the supporting mechanism is installed on the back of the shell, connected with the screen assembly and used for supporting the screen assembly, and the supporting mechanism specifically comprises: the front surface of the supporting panel 210 is matched with the size of the screen assembly 400, and the back surface of the supporting panel is provided with two panel fixing blocks 212; the power support 211 comprises a first support plate and a second support plate, the first support plate is vertically connected with the second support plate in a T shape, the first support plate is connected with the back of the support panel 210, and the second support plate is connected with the rotating shaft 220 in a limiting manner. The power bracket 211 is installed at the midpoint of the support panel 210, and the two panel fixing blocks 212 are respectively installed at the left and right sides of the power bracket 211; a guide shaft 213 parallel to the power bracket 211, the guide shaft 213 being mounted on a linear bearing 214, the linear bearing 214 being fixedly mounted on the support plate 250, the guide shaft 213 being connected to the support panel 210 through the panel fixing block 212 to guide the support panel 210 to stably move upward in an oblique direction;

the rotating shaft 220 penetrates through a bearing 222 and a bearing seat 221 which are fixed on the supporting plate 250, the rotating shaft comprises a first shaft section and a second shaft section, the first shaft section is provided with a limiting sleeve, the rotating shaft 220 is in limiting connection with the power bracket through the limiting sleeve, the diameter of the first shaft section is larger than that of the second shaft section, and the second shaft section can be rotatably stretched in the first shaft section;

the lifting driving mechanism specifically comprises a motor 230, the motor 230 is fixedly mounted on the supporting plate 250 through a motor base 231, one end of the motor 230 is connected with a driving wheel 232, one end of the rotating shaft 220 is connected with a driven wheel 233, and the driving wheel 232 is rotatably connected with the driven wheel 233 through a belt 234;

the screen driving assembly is further provided with a second travel switch 240, the second travel switch 240 is mounted on the supporting plate 250 through a travel switch seat 242, the power support 211 is provided with a second induction shifting piece 241, and the second induction shifting piece 241 is matched with the second travel switch 240 for use.

Wherein, screen drive assembly drive screen subassembly elevating movement's theory of operation does:

when the device starts to work, the contact head of the second travel switch 240 contacts with the second induction shifting piece 241, the motor 231 in the lifting driving mechanism drives the driving wheel 232 to start rotating, the driven wheel 233 is driven to rotate through the belt 234, so that the rotating shaft 220 rotates, the length difference generated by the extension and contraction of the second shaft section in the rotating shaft 220 pushes the power support 211 to move upwards in an inclined mode, the supporting panel 210 further pushes the screen assembly to ascend, and when the second induction shifting piece 241 on the power support 211 moves to a certain distance, the contact with the second travel switch 240 is disconnected, and the screen stops ascending; when the apparatus is turned off, the motor 230 drives the rotation shaft to rotate in the reverse direction, and the screen assembly moves back in the back and forth movement of the power bracket 211 and the support panel 210.

Fourthly, a specific structure of the screen assembly 400 will be explained one by one:

as shown in fig. 8, fig. 8-a is a schematic structural diagram of a combined state of the screen assembly, and fig. 8-b is a schematic structural diagram of a disassembled state of the screen assembly, which specifically includes:

the display screen 420 is connected with the supporting mechanism and used for screen display and touch screen operation, a screen front cover 410 is installed in front of the display screen 420, the display screen 420 is installed on a screen rear cover 460 through a screen upper pressing strip 440 and a screen side pressing strip 450, and the back of the screen rear cover is also provided with an installation plate 470 and a damping hinge 480;

the face recognition camera 430 is installed above the display screen 420 and used for face verification and recognition;

the panoramic camera 490 is installed below the display screen 420 and used for monitoring all steps of the whole handling process;

fifthly, the specific structure of the high-speed scanner is explained one by one:

as shown in fig. 9, fig. 9-a is a schematic structural view of the overall assembly state of the high-speed scanner, and fig. 9-b is a schematic structural view of the disassembly state, which specifically includes:

the high-speed shooting instrument 550 is packaged in a high-speed shooting instrument base 552 through a high-speed shooting instrument cover 551, the high-speed shooting instrument base 552 is installed at the left side portion in the first cavity, a high-speed shooting instrument conversion base 553 and a high-speed shooting instrument conversion cover 554 are arranged at the left side of the high-speed shooting instrument base 552, a sliding shaft and an ejector 555 are respectively arranged at the right side of the high-speed shooting instrument base 552, the sliding shaft is respectively installed on the ejector installation base 5512 through a short shaft 557, a long shaft 556, a short limit block 558, a long limit block 559 and a fixing base 5510 in a nested and combined mode, and the ejector 555 is installed on the ejector installation base.

The control assembly in the embodiment of the present invention specifically includes an industrial personal computer, a driving board, a hard disk, and a power switch, the control assembly 700 is connected to the screen driving assembly 200 and the left-right sliding assembly 300, and the connection relationship of the control assembly is not described in detail herein for the prior art.

The embodiment of the invention is also provided with a signature pen, the signature pen is hidden in the lower cover plate, and the signature pen needs to be taken out by opening the cover plate when in use.

The embodiment of the invention is also provided with the handle, the handle is arranged behind the equipment and can be taken away no matter the equipment is opened or closed, the normal use of the product is not influenced in the process, and the handle is assembled with the internal metal framework, so that the handle is firm and durable and is not easy to loosen.

The portable self-service certificate handling equipment provided by the embodiment of the invention is also correspondingly provided with the auxiliary machine for payment and endorsement functions, and can communicate with the host machine to process related services. The auxiliary machine consists of an ABS plastic shell, an aluminum plate and a steel plate, and the safety of the equipment is guaranteed to the maximum extent while the auxiliary machine is integrally portable. The portable self-service police terminal integrates three government affairs handling contents: the portable police service self-service terminal comprises a host and an auxiliary machine, and the host and the auxiliary machine support handling of the three services, the host part mainly handles the housekeeping and the vehicle driving management services, the host works independently in most of the time, and the auxiliary machine needs to be connected externally to handle the entry-exit services and the payment.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention claims should be included in the protection scope of the present invention claims.

Claims

1. A portable self-service authentication device, comprising:

a housing;

the left and right sliding assembly is mounted on the back of the shell, connected with the left assembly and the right assembly and used for driving the left assembly and the right assembly to perform opening and closing movement relative to the shell, and at least part of the left assembly and the right assembly are in a laminated state when the left assembly and the right assembly are closed;

2. The portable self-service certificate handling device of claim 1, wherein the left-right sliding assembly specifically comprises:

a gear;

the sliding driving mechanism drives the gear to rotate, the gear drives the left rack and the right rack to move towards the left and right directions of the shell, and the left rack and the right rack respectively drive a left assembly and a right assembly which are installed on the guide rail to slide towards the two sides of the shell.

3. The portable self-service authentication device according to claim 1, wherein the screen driving assembly specifically comprises:

4. A portable self-service authentication device according to claim 3, wherein the support mechanism specifically comprises:

5. The portable self-service certificate handling device of claim 2, wherein the left component specifically comprises:

6. The portable self-service certificate handling device of claim 2, wherein the right component specifically comprises:

7. A portable self-service authentication device according to claim 3, wherein the screen assembly specifically comprises:

8. The portable self-service certificate handling equipment according to claim 2, wherein the left-right sliding assembly further comprises a first travel switch, the right assembly or the left assembly is provided with a first induction shifting piece, the first induction shifting piece is arranged in parallel with the right rack fixing block or the left rack fixing block, and the first induction shifting piece is matched with the first travel switch for use.

9. The portable self-service certificate handling equipment according to claim 4, wherein the screen driving assembly further comprises a second travel switch, the power bracket is provided with a second induction shifting piece, and the second induction shifting piece is matched with the second travel switch for use.

10. The portable self-service certificate handling device as recited in claim 5, wherein a sliding shaft is arranged on the right side of the high-speed camera, and the high-speed camera can be embedded and hidden in the first cavity through the sliding shaft.