CN117615072A - Image recognition device based on informatization hospital archives files - Google Patents

Abstract

The invention discloses an image recognition device based on informationized hospital archives, which comprises a recognition box body and a digital display control panel, wherein a recognition cavity is formed in the recognition box body, an inlet and an outlet for communicating the recognition cavity with the outside are formed in one side of the recognition box body, a sliding cover is arranged at the inlet and the outlet in an opening and closing mode, and the recognition cavity is in a sealed and shading state under the state that the sliding cover is closed to the inlet and the outlet; through discernment box, collection paper box structure, discernment turn over subassembly, press paper subassembly, paper lift adjustment subassembly, paper buttress position correction subassembly and second camera etc. mutually cooperate, mutually support each other, can realize the automatic image recognition shooting of archives paper to and automatic paper feeding and the last paper after discernment shooting, can realize the two-sided automatic shooting of archives paper and keep shooting quality's uniformity, form an inseparable whole.

Description

Image recognition device based on informatization hospital archives files

Technical Field

The invention relates to the field of image recognition equipment, in particular to an image recognition device based on informationized hospital archives.

Background

The file informationized filing is to make file information into pictures and then upload the pictures to a computer for storage, the shooting work of the pictures of the files is mainly to carry out shooting record through an image recognition device, a large number of paper files are generated in hospitals, and in order to reduce occupied space, the files are usually informationized filed, and the file informationized filing is to make the file information into pictures and then upload the pictures to the computer for storage;

an image recognition device for archive informatization filing with the application number of 202020470115.8 comprises a bottom plate; the placing groove is formed in the top of the bottom plate; the four mounting blocks are fixedly mounted on two sides of the bottom plate respectively; the four first sliding grooves are respectively formed in the corresponding mounting blocks; four first motors;

however, most of the current image recognition is designed in an open type, and is affected by external environment, such as dim light or bright light, the recognition shooting quality of files is different, and the workers need to perform image recognition at a position where Zhang Bai is located and then take down to replace the next file, and if two sides are required to perform image recognition, manual surface replacement is also required, so that the efficiency of the method is low under the condition of performing file image recognition in a large batch.

Disclosure of Invention

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide an image recognition device for archiving hospital files based on informatization.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the invention provides an image recognition device based on informationized hospital archives, which comprises a recognition box body and a digital display control panel, wherein a recognition cavity is formed in the recognition box body, an inlet and an outlet for communicating the recognition cavity with the outside are formed in one side of the recognition box body, a sliding cover is arranged at the inlet and the outlet in an opening and closing mode, and the recognition cavity is in a sealed and shading state under the state that the sliding cover is closed to the inlet and the outlet;

the device comprises an identification chamber, a first camera, a second camera, a paper collecting box and a storage box, wherein the identification chamber is internally provided with an identification overturning assembly used for photographing one surface of the archives paper and for moving and overturning the archives paper;

the paper lifting adjusting assembly which is arranged below the identification turnover assembly and can be used for lifting and adjusting the height of the paper stack is arranged in the identification cavity, the paper stack position correcting assembly is arranged on the paper lifting adjusting assembly, and the paper pressing assembly used for positioning and pressing paper is arranged in the identification cavity.

Further, paper lift adjusting part is including seting up the lift cavity at the inside bottom surface of discernment cavity, and the lift cavity goes up and down to be provided with the elevating platform, the fixed third electric telescopic handle that is used for driving the elevating platform and goes up and down that is provided with in the elevating cavity, the upside middle part position rotation of elevating platform is provided with the center gyro wheel, the upside surface of the upside protrusion elevating platform of center gyro wheel, digital display control panel's output electricity is connected to the input of third electric telescopic handle.

Further, the paper buttress position correction subassembly is provided with four that are used for promoting paper buttress four sides, and every paper buttress position correction subassembly is all including seting up the direction spout at elevating platform upside surface, and the slip is provided with the direction slider in the direction spout, and direction spout internal fixation is provided with the third guide bar, runs through on the direction slider and has offered the third guiding hole that is used for sliding to pass the third guide bar, the fixed cardboard that pushes away that is provided with in direction slider upside, and the direction slider is towards the third guide bar outside nested between center gyro wheel one end and the terminal surface in the direction spout has the second spring.

Further, the paper stack position correcting assembly further comprises a mounting hole corresponding to the guide chute, a fourth electric telescopic rod is fixedly arranged in the mounting hole, the telescopic direction of a push rod of the fourth electric telescopic rod is consistent with the sliding direction of the guide sliding block in the guide chute, the push rod head end of the fourth electric telescopic rod faces the guide chute and is fixedly connected with a first push block, a second push block is arranged on one side of the first push block, which faces the guide chute, a second pressure sensor is arranged between the first push block and the second push block, the output end of the second pressure sensor is electrically connected to the input end of the digital display control panel, and the output end of the digital display control panel is electrically connected to the input end of the fourth electric telescopic rod.

Further, discernment turn-over subassembly includes the revolving stage, and the both sides of revolving stage are rotated through the pivot and are set up in discernment cavity, and one of them pivot department is provided with the first motor that is used for driving revolving stage pivoted, be provided with two first electric telescopic handle that use its axis as central evenly distributed on the revolving stage, the push rod head end of two first electric telescopic handle sets up and is fixedly connected with subsides cardboard respectively in opposite directions each other, and subsides the appearance of cardboard is the rectangle, subsides the four corners department of cardboard all is provided with the vacuum suction apparatus, subsides the middle part position of cardboard is provided with first camera, digital display control panel's output is electrically connected to first motor, first electric telescopic handle and vacuum suction apparatus's input respectively, digital display control panel and first camera are electrically connected each other.

Further, every the both sides of first electric telescopic handle all are provided with and use it to hold in the palm paper structure as the two of central symmetry distribution, hold in the palm paper structure including the fixed second electric telescopic handle that sets up in the revolving stage, the push rod head end fixed connection of second electric telescopic handle is to holding in the palm on the cardboard, the both sides of second electric telescopic handle are provided with two first guide bars that use it as central symmetry distribution, the one end fixed connection of two first guide bars is to holding in the palm on the cardboard, the other end sliding connection of two first guide bars is to the revolving stage in the first guiding hole that the position was offered that corresponds, when the push rod of second electric telescopic handle reaches certain stroke, hold in the palm the cardboard place plane and the plane place of pasting the cardboard that corresponds are leveled each other, digital display control panel's output electricity is connected to the input of second electric telescopic handle.

Further, press paper subassembly including seting up the regulation smooth chamber in discernment box bottom, press paper subassembly still includes two supports that set up relatively, and the appearance of every support all is the U type, the U type opening of support is down and the slip direction of support in wearing the pole spout that the cavity bottom was seted up is worn to the lower part both ends slip, the lower part both ends of support extend to adjust smooth intracavity and fixedly connected with movable cross beam, be provided with the second motor between two movable cross beams, the second motor adopts biax motor, two output axle heads of biax motor are fixedly connected with the one end of lead screw respectively, the other end rotation of lead screw is connected to on adjusting smooth chamber inside wall, two lead screws and two movable cross beams are one-to-one each other, and set up the screw hole that corresponds screw threaded connection each other on the movable cross beam, the axial of lead screw is unanimous each other with the slip direction of support in wearing the pole spout, the both sides of lead screw are provided with two second guide bars that use it as central symmetry distribution, the second guide bar is fixed setting in adjusting smooth intracavity, run through on the movable cross beam and set up the second guide panel cooperation sliding connection's the second guide hole to the second guide bar.

Further, the ejector pin middle part downside fixedly connected with traveller of support, the below of traveller is provided with the slide, and the flexible slide hole with traveller lower extreme cooperation sliding connection is seted up to the upside of slide, and the inside bottom end face department of flexible slide hole is provided with first pressure sensor, is located between support and the slide the traveller outside nestification has first spring, fixedly on the slide be provided with the wheel carrier that is the U type, rotate in the wheel carrier and be provided with the platen roller that is used for pressing the side edge on the paper buttress, first pressure sensor's output electricity is connected to digital display control panel's input.

Further, the pull groove has been seted up to bottom one side of collection paper box structure, can dismantle in the pull groove and be provided with the pull box, and the bottom of pull box is provided with four removal wheels, and the side open slot has been seted up to the both sides of pull box, and the side open slot extends to the inside bottom surface of pull box along vertical extension and lower extreme, the top of pull box is provided with the electric fan that is used for blowing towards the below, is located between pull box and the electric fan set up the paper through opening on the collection paper box structure lateral wall, the discernment cavity communicates each other through paper through opening and collection paper box structure inside, and the upside rotation of paper through opening is provided with the guard roll.

Further, be provided with a plurality of light in the discernment cavity, the inboard border evenly distributed of light along the discernment cavity, the vertical setting of pipe form of light, digital display control panel's output electricity is connected to the input of light.

Compared with the prior art, the invention has the beneficial effects that:

1. through discernment box, collection paper box structure, discernment turn over subassembly, press paper subassembly, paper lift adjustment subassembly, paper buttress position correction subassembly and second camera etc. mutually cooperate, mutually support each other, can realize the automatic image recognition shooting of archives paper to and automatic paper feeding and the last paper after discernment shooting, can realize the two-sided automatic shooting of archives paper and keep shooting quality's uniformity, form an inseparable whole.

2. When the sliding cover is in a closed state for the inlet and the outlet, the identification chamber is in a sealed shading state, so that the consistency of the identification chamber to the file paper image identification environment can be maintained no matter whether the external environment of the identification chamber is in the daytime or the night or in the dim or strong light environment, and the problem that the shooting quality of the file paper is different under different light conditions is solved;

3. the paper lifting adjusting component can adjust the height of the paper stack, when the paper stack is placed in the paper lifting device, the lifting platform can be adjusted to a proper height to be conveniently placed, and the paper stack position on the lifting platform can be corrected by matching with the paper stack position correcting component;

4. the identification turnover assembly can be matched with the paper pressing assembly, the paper lifting adjusting assembly and the second camera to realize double-sided automatic image identification of paper, ensure consistency of shooting intervals, and can also be matched with a paper collecting box structure to realize automatic paper discharging of the paper after shooting;

5. the paper supporting structure can ensure the flatness of the file paper and ensure the image recognition shooting quality when the second camera shoots the file paper.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the front view of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure of FIG. 1 A-A in accordance with the present invention;

FIG. 3 is a schematic view of the present invention in a partially enlarged configuration at C of FIG. 2;

FIG. 4 is a schematic view of the cross-sectional structure B-B of FIG. 1 according to the present invention;

FIG. 5 is a schematic diagram of the left-hand construction of FIG. 1 according to the present invention;

FIG. 6 is a schematic view of the cross-sectional C-C structure of FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic view of a partially enlarged structure of the invention at D of FIG. 6;

fig. 8 is a schematic perspective view of the fig. 1 embodiment of the present invention.

The reference numerals are explained as follows: 1. identifying a box body; 101. an inlet and an outlet; 102. a sliding cover; 103. identifying a chamber; 2. a paper collecting box structure; 201. a drawing groove; 202. drawing the box; 203. a moving wheel; 204. an electric fan; 205. a side open slot; 206. a paper opening; 207. a protective roller; 3. identifying a turn-over assembly; 301. a rotary table; 302. a first motor; 303. a first electric telescopic rod; 304. sticking paper boards; 305. a vacuum aspirator; 306. a first camera; 307. a second electric telescopic rod; 308. a paper supporting plate; 309. a first guide bar; 310. a first guide hole; 4. a platen assembly; 401. adjusting the sliding cavity; 402. a second motor; 403. a movable cross beam; 404. a second guide bar; 405. a bracket; 406. a rod penetrating chute; 407. a screw rod; 408. a spool; 409. a slide; 410. a telescopic slide hole; 411. a first pressure sensor; 412. a first spring; 413. a wheel carrier; 414. a paper pressing wheel; 5. a paper lifting adjusting assembly; 501. a lifting chamber; 502. a lifting table; 503. a third electric telescopic rod; 504. a center roller; 6. a stack position correction assembly; 601. a guide chute; 602. a guide slide block; 603. a third guide bar; 604. a second spring; 605. pushing the paper board; 606. a fourth electric telescopic rod; 607. a first push block; 608. a second push block; 609. a second pressure sensor; 7. a second camera; 8. a lighting lamp; 9. and a digital display control panel.

Detailed Description

For the purpose of the present invention; the technical scheme and advantages are more clear, and the technical scheme of the invention will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, based on the examples herein, which are within the scope of the invention as defined by the claims, will be within the scope of the invention as defined by the claims.

Referring to fig. 1-8, the invention provides an image recognition device based on archives of an informationized hospital, which comprises a recognition box body 1 and a digital display control panel 9, wherein a recognition cavity 103 is formed in the recognition box body 1, an inlet and outlet 101 for communicating the recognition cavity 103 with the outside is formed in one side of the recognition box body 1, a sliding cover 102 is arranged at the inlet and outlet 101 in an opening and closing mode, the recognition cavity 103 is in a sealed and shading state when the sliding cover 102 is in a closing state of the inlet and outlet 101, a plurality of illuminating lamps 8 are arranged in the recognition cavity 103, the illuminating lamps 8 are uniformly distributed along the inner side edge of the recognition cavity 103, the circular tube-shaped vertical arrangement of the illuminating lamps 8 is realized, and the output end of the digital display control panel 9 is electrically connected to the input end of the illuminating lamps 8; through the above specific structural design, under the closed state of the sliding cover 102 to the inlet and outlet 101, the identification chamber 103 is in a sealed shading state, so that the consistency of the identification chamber 103 to the file paper image identification environment can be maintained no matter whether the external environment of the identification box body 1 is in the daytime or the night or in the dim or strong light environment, and the different shooting quality of the file paper under different light conditions is solved.

The identification chamber 103 is internally provided with an identification turnover assembly 3 for photographing one surface of the archival paper and for moving and turnover the archival paper, the top in the identification box 1 is provided with a second camera 7 for photographing the other surface of the archival paper, and two sides of the identification box 1 are provided with a paper collecting box structure 2 for collecting the photographed archival paper; the paper lifting adjusting assembly 5 which is arranged below the identification turn-over assembly 3 and can lift and adjust the height of the paper stack is arranged in the identification chamber 103, the paper lifting adjusting assembly 5 is provided with the paper stack position correcting assembly 6, and the paper pressing assembly 4 for positioning and pressing the paper is arranged in the identification chamber 103.

In this embodiment, a specific paper lifting adjustment assembly 5 is proposed, as shown in fig. 2, 4 and 6 of the specification, the paper lifting adjustment assembly 5 includes a lifting chamber 501 provided on an inner bottom surface of the identification chamber 103, an upper side of the lifting chamber 501 is opened, a lifting table 502 is provided in the lifting chamber 501 in a lifting manner, a third electric telescopic rod 503 for driving the lifting table 502 to lift up and down is fixedly provided in the lifting chamber 501, when a push rod of the third electric telescopic rod 503 reaches a minimum stroke, an upper side surface of the lifting table 502 is lower than an inner bottom surface of the identification chamber 103, when the push rod of the third electric telescopic rod 503 reaches a maximum stroke, an upper side surface of the lifting table 502 is higher than an inner bottom surface of the identification chamber 103, a central roller 504 is rotatably provided at an upper middle position of the lifting table 502, a top side of the central roller 504 protrudes out of the upper side surface of the lifting table 502, and an output end of the digital display control panel 9 is electrically connected to an input end of the third electric telescopic rod 503. Through the above specific structural design, the paper lifting adjusting component 5 can adjust the height of the paper stack, when the paper stack is placed in, the paper lifting adjusting component 5 can adjust the lifting table 502 to a proper height, so that a worker can conveniently place the paper stack on the lifting table 502, when the paper stack position correcting component 6 corrects the position of the paper stack on the lifting table 502, the lifting table 502 can be adjusted into the lifting cavity 501, the position height of the paper pushing plate 605 is adjusted to a position corresponding to the second push block 608, then the push rod of the fourth electric telescopic rod 606 is extended, the paper pushing plate 605 is pushed to adjust the placement position of the paper stack, in addition, when the paper is photographed, the paper lifting adjusting component 5 can be matched with the paper pressing component 4 to always enable the uppermost paper to be at a certain fixed point height, and when the lower end of the sliding column 408 is in abutting contact with the first pressure sensor 411, the fixed point with the height consistent with the bottom side height of the paper pressing wheel 414 at the moment is achieved, and the situation that the photographing height is inconsistent or the image size is not consistent when the paper stack is located at different heights or the uppermost paper is avoided.

In order to match the above-mentioned discernment turn-over subassembly 3 and paper lift adjustment subassembly 5, paper buttress position correction subassembly 6 is provided with four that are used for promoting paper buttress four sides, every paper buttress position correction subassembly 6 all is including seting up the guide runner 601 at elevating platform 502 upside surface, the guide runner 601 is slided and is provided with the guide slide 602, the fixed third guide bar 603 that is provided with in guide runner 601, the last third guiding hole that is used for sliding through third guide bar 603 that runs through of guide slide 602, the fixed cardboard 605 that pushes away that is provided with of guide slide 602 upside, the guide slide 602 is towards the outside nested second spring 604 of third guide bar 603 between center gyro wheel 504 one end and the guide runner 601 interior terminal surface. The paper stack position correcting assembly 6 further comprises a mounting hole corresponding to the guide chute 601, a fourth electric telescopic rod 606 is fixedly arranged in the mounting hole, the telescopic direction of a push rod of the fourth electric telescopic rod 606 is consistent with the sliding direction of the guide sliding block 602 in the guide chute 601, the push rod head end of the fourth electric telescopic rod 606 faces the guide chute 601 and is fixedly connected with a first push block 607, a second push block 608 is arranged on one side of the first push block 607, which faces the guide chute 601, a second pressure sensor 609 is arranged between the first push block 607 and the second push block 608, the output end of the second pressure sensor 609 is electrically connected to the input end of the digital display control panel 9, and the output end of the digital display control panel 9 is electrically connected to the input end of the fourth electric telescopic rod 606. Through the above specific structural design, the second pressure sensor 609 may be used for implementing feedback control to the fourth electric telescopic rod 606 after adjusting the paper stack to the central position, thereby implementing automatic correction to the paper stack position, at this time, the push rod stroke of the fourth electric telescopic rod 606 with the telescopic direction consistent with the moving direction of the support 405 is recorded by the digital display control panel 9, and is used for implementing proportional control to the moving distance of the support 405, and the moving distance of the support 405 is y, the push rod stroke under the deviation correction of the fourth electric telescopic rod 606 is x, y=x+d, where d is a certain fixed value.

The recognition turn-over assembly 3 comprises a rotary table 301, two sides of the rotary table 301 are rotatably arranged in a recognition chamber 103 through rotary shafts, a first motor 302 for driving the rotary table 301 to rotate is arranged at one rotary shaft, two first electric telescopic rods 303 which are uniformly distributed by taking the axis of the rotary table 301 as the center are arranged on the rotary table 301, push rod head ends of the two first electric telescopic rods 303 are arranged opposite to each other and are fixedly connected with a paperboard sticking plate 304 respectively, the appearance of the paperboard sticking plate 304 is rectangular, vacuum attractors 305 are arranged at four corners of the paperboard sticking plate 304, a first camera 306 is arranged in the middle of the paperboard sticking plate 304, and the output end of a digital display control panel 9 is electrically connected to the first motor 302, the first electric telescopic rods 303 and the input end of the vacuum attractors 305 respectively, and the digital display control panel 9 is electrically connected with the first camera 306.

Two paper supporting structures which are symmetrically distributed by taking the paper supporting structures as centers are arranged on two sides of each first electric telescopic rod 303, each paper supporting structure comprises a second electric telescopic rod 307 which is fixedly arranged in a rotary table 301, the head end of a push rod of each second electric telescopic rod 307 is fixedly connected to a paper supporting plate 308, two first guide rods 309 which are symmetrically distributed by taking the paper supporting rods as centers are arranged on two sides of each second electric telescopic rod 307, one end of each first guide rod 309 is fixedly connected to the paper supporting plate 308, the other ends of the two first guide rods 309 are slidably connected into first guide holes 310 which are formed in corresponding positions of the rotary table 301, when the push rod of each second electric telescopic rod 307 reaches a certain stroke, the plane of the paper supporting plate 308 and the plane of the corresponding paper attaching plate 304 are level, and the output end of the digital display control panel 9 is electrically connected to the input end of the second electric telescopic rod 307. The paper supporting structure can ensure the flatness of the archival paper and ensure the image recognition shooting quality when the second camera 7 shoots the archival paper.

The paper pressing assembly 4 comprises an adjusting sliding cavity 401 arranged at the bottom of the identification box body 1, the paper pressing assembly 4 further comprises two opposite brackets 405, the appearance of each bracket 405 is U-shaped, the U-shaped opening of each bracket 405 faces downwards, two ends of the lower portion of each bracket are slidably penetrated through rod penetrating sliding grooves 406 arranged at the bottom of the identification cavity 103, two ends of the lower portion of each bracket 405 extend into the adjusting sliding cavity 401 and are fixedly connected with movable cross beams 403, a second motor 402 is arranged between the two movable cross beams 403, the second motor 402 adopts a double-shaft motor, two output shaft ends of the double-shaft motor are respectively and fixedly connected with one end of each lead screw 407, the other end of each lead screw 407 is rotationally connected to the inner side wall of the adjusting sliding cavity 401, the two lead screws 407 and the two movable cross beams 403 are in one-to-one correspondence with each other, threaded holes in threaded connection with the corresponding lead screws 407 are formed in the movable cross beams 403, the axial direction of each lead screw 407 and the sliding direction of each bracket 405 in the rod penetrating sliding grooves 406 are consistent with each other, two second guide rods 404 which are symmetrically distributed with the center are arranged on two sides of each lead screw 407, the second guide rods 404 are fixedly arranged in the adjusting sliding cavity 401, one end is provided with a second guide rod 404, one end is matched with a second guide panel, and is electrically connected to a second guide panel. The lower side of the middle part of the ejector rod of the bracket 405 is fixedly connected with a sliding column 408, a sliding seat 409 is arranged below the sliding column 408, a telescopic sliding hole 410 which is matched with the lower end of the sliding column 408 in a sliding manner is formed in the upper side of the sliding seat 409, a first pressure sensor 411 is arranged at the inner bottom end face of the telescopic sliding hole 410, a first spring 412 is nested outside the sliding column 408 between the bracket 405 and the sliding seat 409, a U-shaped wheel frame 413 is fixedly arranged on the sliding seat 409, a paper pressing wheel 414 for pressing the upper side edge of a paper stack is arranged in the wheel frame 413 in a rotating manner, and the output end of the first pressure sensor 411 is electrically connected to the input end of the digital display control panel 9. Through the above specific structural design, when the uppermost paper is extracted by the identifying turn-over assembly 3, the paper pressing wheel 414 can press the next paper, so that the influence of the position deviation of the paper on the image identification and the subsequent extraction and adsorption movement of the paper are avoided.

The drawing groove 201 has been seted up to bottom one side of collection paper box structure 2, can dismantle in the drawing groove 201 and be provided with drawing box 202, the bottom of drawing box 202 is provided with four removal wheels 203, side open slot 205 has been seted up to the both sides of drawing box 202, side open slot 205 extends to the inside bottom surface of drawing box 202 along vertical extension and lower extreme, the top of drawing box 202 is provided with the fan 204 that is used for blowing towards the below, paper feed through opening 206 has been seted up on the collection paper box structure 2 lateral wall between drawing box 202 and fan 204, discernment cavity 103 communicates each other through paper feed through opening 206 and collection paper box structure 2 inside, the upside rotation of paper feed through opening 206 is provided with guard roll 207. The shield roller 207 can provide a shield for the paper as it enters the header box structure 2 through the paper feed port 206.

Working principle:

when in use, the archival papers to be identified by the informationized image are piled up, then the sliding cover 102 is opened to expose the inlet and outlet 101, the piled archival papers are placed on the lifting platform 502 from the inlet and outlet 101, at the moment, the position of the archival papers is corrected by the paper pile position correcting component 6, so that the archival papers are positioned at the upper center position of the lifting platform 502, the sliding cover 102 is closed, the identification chamber 103 is in a shading and sealing state, in the process, the extension length of the push rod of the fourth electric telescopic rod 606 of the paper pile position correcting component 6 is in direct proportion to the moving position of the bracket 405 of the paper pressing component 4, the extension direction of the fourth electric telescopic rod 606 is consistent with the moving direction of the bracket 405, the moving position of the paper pressing wheel 414 of the paper pressing component 4 is positioned at the upper edge of the papers, then the height of the papers is adjusted by the paper lifting adjusting component 5, so that the papers are upwards moved, the upper side edge of the paper stack is in a butt joint state with the paper pressing wheel 414, the feedback control of the digital display control panel 9 on the third electric telescopic rod 503 is realized by the first pressure sensor 411, the uppermost paper is always in a fixed-point height position, after the first camera 306 for identifying the turning assembly 3 recognizes the photographed image of the uppermost paper, the push rod of the first electric telescopic rod 303 positioned below the turning assembly 3 is identified to stretch, the paper sticking board 304 is tightly stuck to the archival paper, the vacuum aspirator 305 attracts the paper under negative pressure, the push rod of the first electric telescopic rod 303 is retracted, thereby driving the paper to roll and withdraw from the paper pressing wheel 414 to move upwards, the first motor 302 drives the rotary table 301 to rotate for one hundred eighty degrees, the other surface of the paper is upwards driven by the first electric telescopic rod 303 to move upwards to a certain height, the second camera 7 shoots images on the other surface of the paper, the first motor 302 drives the rotary table 301 to rotate ninety degrees, after the paper corresponds to the paper through hole 206, the push rod of the first electric telescopic rod 303 stretches, after the paper is sent into the paper collecting box structure 2, the vacuum aspirator 305 loosens the adsorption of the paper, and the paper falls into the drawing box 202 to be collected, so that the double-sided image shooting identification and the file collection after the identification of the paper are automatically completed.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An image recognition device based on informatization hospital archives files, its characterized in that: the portable electronic device comprises an identification box body (1) and a digital display control panel (9), wherein an identification cavity (103) is formed in the identification box body (1), an inlet and outlet (101) for communicating the identification cavity (103) with the outside is formed in one side of the identification box body (1), a sliding cover (102) is arranged at the inlet and outlet (101) in an opening and closing mode, and the identification cavity (103) is in a sealed and shading state when the sliding cover (102) is in a closing state to the inlet and outlet (101);

the file paper moving and overturning device is characterized in that an identification overturning assembly (3) for photographing one surface of the file paper and for moving and overturning the file paper is arranged in the identification chamber (103), a second camera (7) for photographing the other surface of the file paper is arranged at the inner top of the identification box body (1), and paper collecting box structures (2) for collecting the photographed file paper are arranged at two sides of the identification box body (1);

the paper lifting adjusting assembly (5) which is arranged below the identification overturning assembly (3) and can lift and adjust the height of the paper stack is arranged in the identification chamber (103), the paper lifting adjusting assembly (5) is provided with the paper stack position correcting assembly (6), and the paper pressing assembly (4) used for positioning and pressing the paper is arranged in the identification chamber (103).

2. An image recognition device based on informationized hospital archives according to claim 1, characterized in that: the paper lifting adjusting assembly (5) comprises a lifting cavity (501) formed in the inner bottom surface of the identification cavity (103), a lifting table (502) is arranged in the lifting cavity (501) in a lifting mode, a third electric telescopic rod (503) used for driving the lifting table (502) to lift up and down is fixedly arranged in the lifting cavity (501), a central roller (504) is rotatably arranged at the middle position of the upper side of the lifting table (502), the top side of the central roller (504) protrudes out of the upper side surface of the lifting table (502), and the output end of the digital display control panel (9) is electrically connected to the input end of the third electric telescopic rod (503).

3. An image recognition device based on informationized hospital archives according to claim 2, characterized in that: the paper pile position correcting assembly (6) is provided with four that are used for promoting four sides of paper pile, and every paper pile position correcting assembly (6) all is including seting up guide chute (601) at elevating platform (502) upside surface, and the slip is provided with guide slide (602) in guide chute (601), and guide chute (601) internal fixation is provided with third guide bar (603), runs through on guide slide (602) and has offered the third guiding hole that is used for sliding through third guide bar (603), guide slide (602) upside is fixed to be provided with and pushes away cardboard (605), and guide slide (602) are towards third guide bar (603) outside nested between center gyro wheel (504) one end and the guide chute (601) interior terminal surface have second spring (604).

4. An image recognition apparatus based on informationized hospital archives according to claim 3, wherein: the paper stack position correcting assembly (6) further comprises a mounting hole corresponding to the guide chute (601), a fourth electric telescopic rod (606) is fixedly arranged in the mounting hole, the telescopic direction of a push rod of the fourth electric telescopic rod (606) is consistent with the sliding direction of the guide sliding block (602) in the guide chute (601), the push rod head end of the fourth electric telescopic rod (606) faces the guide chute (601) and is fixedly connected with a first push block (607), a second push block (608) is arranged on one side of the first push block (607) facing the guide chute (601), a second pressure sensor (609) is arranged between the first push block (607) and the second push block (608), and the output end of the second pressure sensor (609) is electrically connected to the input end of the digital display control panel (9), and the output end of the digital display control panel (9) is electrically connected to the input end of the fourth electric telescopic rod (606).

5. An image recognition device based on informationized hospital archives according to claim 1, characterized in that: the utility model provides a discernment turn-over subassembly (3) is including revolving stage (301), and the both sides of revolving stage (301) are rotated through the pivot and are set up in discernment cavity (103), and one of them pivot department is provided with first motor (302) that are used for driving revolving stage (301), be provided with on revolving stage (301) with its axis as two first electric telescopic handle (303) of center evenly distributed, the push rod head end of two first electric telescopic handle (303) set up in opposite directions each other and fixedly connected with subsides cardboard (304) respectively, and the appearance of subsides cardboard (304) is the rectangle, the four corners department of subsides cardboard (304) all is provided with vacuum aspirator (305), the middle part position of subsides cardboard (304) is provided with first camera (306), the output of digital display control panel (9) is electrically connected to first motor (302), first electric telescopic handle (303) and vacuum aspirator (305) input respectively, digital display control panel (9) are connected with each other electrically.

6. An image recognition device based on informationized hospital archives according to claim 5, wherein: each of the two sides of the first electric telescopic rods (303) are respectively provided with two paper supporting structures which are distributed symmetrically with respect to the center of the paper supporting structures, each paper supporting structure comprises a second electric telescopic rod (307) which is fixedly arranged in the rotary table (301), the head end of each push rod of each second electric telescopic rod (307) is fixedly connected to the corresponding paper supporting plate (308), two first guide rods (309) which are distributed symmetrically with respect to the center of each second electric telescopic rod are arranged on the two sides of each second electric telescopic rod (307), one end of each first guide rod (309) is fixedly connected to the paper supporting plate (308), the other end of each first guide rod (309) is slidably connected to the corresponding first guide hole (310) formed in the corresponding position of the rotary table (301), when the push rod of each second electric telescopic rod (307) reaches a certain stroke, the plane where the paper supporting plate (308) is located is level with the plane where the corresponding paper attaching plate (304) is located, and the output end of the digital display control panel (9) is electrically connected to the input end of the second electric telescopic rod (307).

7. An image recognition device based on informationized hospital archives according to claim 1, characterized in that: the paper pressing assembly (4) comprises an adjusting sliding cavity (401) arranged at the bottom of the identification box body (1), the paper pressing assembly (4) further comprises two opposite brackets (405), the appearance of each bracket (405) is U-shaped, a U-shaped opening of each bracket (405) faces downwards, two ends of the lower part of each bracket slide through a rod penetrating sliding groove (406) arranged at the bottom of the identification cavity (103), two ends of the lower part of each bracket (405) extend into the adjusting sliding cavity (401) and are fixedly connected with a movable cross beam (403), a second motor (402) is arranged between the two movable cross beams (403), two output shaft ends of each second motor (402) are respectively and fixedly connected with one end of a lead screw (407), the other ends of each lead screw (407) are rotationally connected to the inner side walls of the adjusting sliding cavity (401), threaded holes in threaded connection with the corresponding movable cross beams (403) are arranged on the movable cross beams (403), the axial direction of each bracket (407) and the two ends of each bracket (405) extend into the adjusting sliding cavity (401) and are symmetrically distributed in the direction of the second lead screw (401) so as to lead screws (401) to be symmetrically distributed in the two guide rods (401) of the second motor (401), the movable cross beam (403) is provided with a second guide sliding hole in a penetrating mode, the second guide sliding hole is matched with the second guide rod (404) in a sliding mode, and the output end of the digital display control panel (9) is electrically connected to the input end of the second motor (402).

8. An image recognition device based on informationized hospital archives according to claim 7, wherein: the utility model discloses a digital display control panel, including support (405), ejector pin middle part downside fixedly connected with post (408) of support (405), the below of post (408) is provided with slide (409), and flexible slide hole (410) with post (408) lower extreme cooperation sliding connection are seted up to the upside of slide (409), and the inside bottom end face department of flexible slide hole (410) is provided with first pressure sensor (411), is located between support (405) and slide (409) post (408) outside nestification has first spring (412), is fixedly provided with on slide (409) and is U type wheel carrier (413), and wheel carrier (413) internal rotation is provided with and is used for carrying out the platen roller (414) of pressure to the upper side edge of buttress, the output electricity of first pressure sensor (411) is connected to the input of digital display control panel (9).

9. An image recognition device based on informationized hospital archives according to claim 1, characterized in that: draw groove (201) have been seted up to bottom one side of collection paper box structure (2), can dismantle in draw groove (201) and be provided with pull box (202), the bottom of pull box (202) is provided with four removal wheels (203), and side open slot (205) have been seted up to the both sides of pull box (202), and side open slot (205) are along vertical extension and the lower extreme extends to the inside bottom surface of pull box (202), the top of pull box (202) is provided with electric fan (204) that are used for blowing towards the below, is located between pull box (202) and electric fan (204) set up paper through opening (206) on collection paper box structure (2) lateral wall, discernment cavity (103) are through paper through opening (206) and collection paper box structure (2) inside intercommunication each other, and the upside rotation of paper through opening (206) is provided with guard roll (207).

10. An image recognition device based on informationized hospital archives according to claim 1, characterized in that: the digital display device is characterized in that a plurality of illuminating lamps (8) are arranged in the identification chamber (103), the illuminating lamps (8) are uniformly distributed along the inner side edge of the identification chamber (103), the circular tube-shaped illuminating lamps (8) are vertically arranged, and the output end of the digital display control panel (9) is electrically connected to the input end of the illuminating lamps (8).