CN212135576U - Full-automatic non-joint type self-service sheet taking machine - Google Patents

Abstract

The utility model discloses a full-automatic non-connect self-service mascerating machine of getting, get the mascerating machine including self-service, be equipped with the industrial control host computer in the self-service mascerating machine and the singlechip of being connected with the industrial control host computer electricity, the self-service mascerating machine includes identification device, image film printer, laser printer and the automatic output device of film bag that are connected with the industrial control host computer electricity, identification device includes the camera that is used for acquireing face information and is used for acquireing the medical insurance card reader-writer of radio frequency information, the industrial control host computer is connected with hospital's management information system electricity through keyboard interface; the image film printer is used for printing the image film, and the outlet position of the image film printer is provided with a continuous transmission device for continuously transmitting the image film. The utility model discloses a set up face identification device, have the image film printer and the automatic output device of film bag that continue to pass the device, effectively reduced the patient and got the contact of piece in-process and external world during the epidemic situation.

Description

Full-automatic non-joint type self-service sheet taking machine

Technical Field

The utility model relates to a get mascerating machine technical field by oneself, specifically be a full-automatic non-connect formula gets mascerating machine by oneself.

Background

The emergent epidemic situation makes people gradually deepen the understanding of the novel coronavirus, the transmission path of the epidemic situation is clear, and a plurality of knowledge in the aspect of the novel coronavirus are known and understood through learning. It is known that novel coronaviruses can be transmitted by respiratory droplets and contact. Evidence that first line of Wuhan defeats the new coronavirus suggests that aerosols of certain concentrations are also infectious in a relatively confined environment. This clearly tells everyone that: in the presence of infectious agents, new coronavirus can be transmitted by contact, touch or even the air in various ways. The self-help film taking machine is also difficult to avoid as a window for the external service of the image center of the hospital. When the patient obtains the image film and the diagnosis report in a self-service mode, the patient can not touch the self-service equipment, and if the patient encounters a new positive coronavirus, the patient can not be infected. According to incomplete statistics, hospitals at all levels in the country have less than two thousand families, and patients are received by the hospitals at all levels all year round by 24 hundred million people. Patients often need to queue up in hospitals for long periods of time. A special survey by the relevant department shows that 44% of citizens have experienced long-line in hospitals. Registration, radiation, photography, disease diagnosis, prescription pricing, medicine taking and the like are queued, and the sum of the queuing times greatly exceeds the time for disease diagnosis. The long-time multiple queuing makes patients and family members very unbearable. In the center of the radiological image, the patient needs CT, MR, DR, DSA and other examination equipment, so that the queuing phenomenon is more prominent.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic non-connects formula gets mascerating machine by oneself, through setting up face identification device, having the image film printer and the automatic output device of film bag that continue to pass the device, effectively reduced the patient and got the contact of piece in-process and external world during the epidemic situation.

In order to achieve the above object, the utility model provides a following technical scheme: a full-automatic non-connected self-service film taking machine comprises a self-service film taking machine, wherein an industrial control host and a single chip microcomputer electrically connected with the industrial control host are arranged in the self-service film taking machine, the self-service film taking machine comprises a recognition device, an image film printer, a laser printer and a film bag automatic output device, the recognition device comprises a camera and a medical insurance card reader-writer, the camera is used for acquiring face information, the medical insurance card reader-writer is used for acquiring radio frequency medical insurance card information, and the industrial control host is electrically connected with a hospital management information system through a keyboard interface;

the image film printer is used for printing image films, a continuous transmission device for continuously transmitting the image films is arranged at the outlet position of the image film printer, the continuous transmission device comprises a transmission belt for bearing the image films, the transmission belt is driven by a direct current motor,

the laser printer is used for printing a report of a patient, a paper guide plate and a paper support plate of the laser printer are arranged on two sides of the printer, a turntable used for fixing the printer is arranged at the bottom of the laser printer, an insulating resin plate is rotatably connected below the turntable, a first annular conductive copper strip and a second annular conductive copper strip are embedded in the insulating resin plate, the first conductive copper strip is connected with an alternating current power supply and used for providing a power supply, and the second conductive copper strip is connected with a USB signal line of an industrial control host and used for providing printing task information of the patient report;

the automatic slice bag output device is used for automatically outputting single slice bags, and a hand-held opening is formed in each slice bag.

Preferably, the bottom surface fixed mounting of carousel has first carbon brush seat and second carbon brush seat with first electrically conductive copper bar and the electrically conductive copper bar electric connection of second, laser printer's power supply port links to each other with first carbon brush seat electric property through the electric wire that runs through the carousel, laser printer's signal port links to each other with second carbon brush seat electric property through the electric wire that runs through the carousel.

Preferably, a guide plate is installed at an exit position of the image film printer.

Preferably, the length of the image film is set to d, and the distance from the side of the guide plate away from the image film printer to the side of the conveyor belt close to the guide plate is set to 1/2 d-d.

Preferably, the exit position of the image film printer is provided with a first photoelectric sensor for detecting the image film at the exit position of the image film printer, and the first photoelectric sensor is connected with the input end of the single chip microcomputer.

Preferably, a second photoelectric sensor is installed at the outlet position of the laser printer and used for detecting the report at the outlet position of the laser printer, and the second photoelectric sensor is connected with the input end of the single chip microcomputer.

Preferably, piece bag automatic output device includes the piece bag winding up roller, just twine the piece bag on the piece bag winding up roller, the piece bag winding up roller is installed in the axis of rotation for it rotates through the axis of rotation drive, the top of piece bag winding up roller is equipped with fixed mounting and gets the inside fixed pulley of mascerating machine by oneself, and is used for right the piece bag carries out the switching-over, the axis of rotation passes through the shaft coupling and links to each other with step motor, step motor and the output electric connection of singlechip.

Preferably, piece bag automatic output device still includes the guide structure of fixed mounting on getting the mascerating machine by oneself, guide structure includes a direction seam, one side that the direction seam is close to piece bag delivery outlet is equipped with cuts the mechanism for cut the piece bag, one side that the mechanism is close to piece bag delivery outlet of cutting is equipped with the third photoelectric sensor for detect the portable opening on the piece bag, the input electric connection of third photoelectric sensor and singlechip.

Preferably, the cutting mechanism comprises a cutting blade and a cutting table, wherein the cutting table is provided with a cutting slot matched with the cutting blade and used for cutting off the sheet bag through the shearing force formed between the cutting slot and the cutting blade.

Preferably, cutting blade and electric cylinder's flexible fixed connection, electric cylinder fixed mounting is inside getting the mascerating machine by oneself, guide structure includes first guide part and second guide part, form the direction seam between first guide part and the second guide part, electric cylinder and first guide part fixed connection, second guide part and cutting bed fixed connection, just one side that first guide part and second guide part are close to each other is arc guide structure.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a get mascerating machine by oneself has realized the automatic identification of patient's identity through setting up face identification device, has ensured the information exactness that image film and report printed.

The utility model discloses a get mascerating machine by oneself through having the image film printer and the automatic output device of film bag that continue to pass the device, effectively reduced the patient and got the contact of piece in-process and external world.

The utility model discloses a get mascerating machine by oneself is equipped with the carousel that is used for fixed printer through the bottom at laser printer, and the below of carousel rotates and is connected with insulating resin plate, is equipped with first electrically conductive copper bar and the electrically conductive copper bar of second on the insulating resin plate for the printer power supply with convey print task information, saved loaded down with trivial details electric wire and signal line, owing to need be with the whole 180 degrees of rotation of printer when trading paper, power cord and signal line emergence contact failure phenomenon have been avoided to this kind of structural design.

Drawings

Fig. 1 is a schematic structural view of a full-automatic non-connected self-service sheet taking machine of the present invention;

FIG. 2 is a schematic structural view of an image film printer in a fully automatic non-connected self-service film dispenser according to the present invention;

FIG. 3 is a schematic structural diagram of a laser printer in a fully automatic non-connected self-service film taking machine according to the present invention;

FIG. 4 is a schematic structural view of an insulating resin plate in the fully automatic non-splicing self-help sheet taking machine of the present invention;

FIG. 5 is a schematic structural view of an automatic film bag output device in a full-automatic non-connected self-service film taking machine according to the present invention;

FIG. 6 is a schematic structural view of a film bag in the full-automatic non-connected self-service film taking machine of the present invention;

fig. 7 is a circuit connection block diagram of the full-automatic non-contact self-service slice taking machine of the present invention.

In the figure: 1. taking the machine by oneself; 2. an industrial control host; 201 a camera; 202. a medical insurance card reader-writer; 3. an image film printer; 301. a guide plate; 302. a first photosensor; 4. a laser printer; 401. a turntable; 402. an insulating resin plate; 403. a first conductive copper bar; 404. a second conductive copper bar; 405. a first carbon brush holder; 406. a second carbon brush holder; 407. a second photosensor; 408. A paper supporting plate; 409. a paper guide plate; 5. a continuous transmission device; 501. a conveyor belt; 502. a drive shaft; 503. A driven shaft; 61. a film bag winding roller; 62. a film bag; 620. carrying out opening by hand; 63. a fixed pulley; 64. A rotating shaft; 65. a stepping motor; 66. a guide structure; 660. a first guide portion; 661. a second guide portion; 662. guiding the seam; 7. a cutting mechanism; 701. a cutting blade; 702. cutting table; 703. Cutting a groove; 704. an electric cylinder; 705. a third photosensor; 706. a first mounting plate; 707. And a carrying plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides an embodiment, a full-automatic non-connect formula is got mascerating machine 1 by oneself, including getting mascerating machine 1 by oneself, get mascerating machine 1 by oneself and be equipped with industrial control host 2 and the singlechip of being connected with industrial control host 2 electricity, get mascerating machine 1 by oneself and include the recognition device, image film printer 3, laser printer 4 and the automatic output device of film bag 62 that are connected with industrial control host 2 electricity, recognition device includes the camera that is used for acquireing face information and is used for acquireing the medical insurance card reader 202 of radio frequency medical insurance card information, industrial control host 2 is connected with hospital's management information system electricity through the keyboard interface;

as shown in fig. 2, the image film printer 3 is used for printing an image film, and a continuous transmission device 5 for continuously transmitting the image film is disposed at an exit position of the image film printer 3, the continuous transmission device 5 includes a conveying belt 501 for carrying the image film, the conveying belt 501 is driven by a dc motor, and a guide plate 301 is installed at the exit position of the image film printer 3. A first photoelectric sensor 302 is installed at the outlet position of the image film printer 3 and used for detecting the image film at the outlet position of the image film printer 3, and the first photoelectric sensor 302 is connected with the input end of the single chip microcomputer; dc motor with the output electric connection of monolithic, conveyer 501 cover is on driving shaft 502 and driven shaft 503, dc motor's output shaft links to each other with driving shaft 502, when first photoelectric sensor 302 detects that 3 exit position departments of image film printer have the image film, monolithic control dc motor rotates, and then convey conveyer 501, drive the motion of image film to 3 exit direction of image film printer, the image film continues to transmit forward through glossy deflector 301, export the image film to surpassing 3 export 150mm positions of image film printer department, the image film falls into the optimum scope of patient's vision completely, the patient can need not touch the convenient image film who takes out oneself of any position of rack. The problem that the patient needs to put the hand into the equipment when trying to take the image film is solved.

The first photosensor 302 is a thin photosensor EX-10A, which is a self-contained subminiature sensor provided by panasonic corporation, japan. The NPN open collector transistor is arranged in the device, the maximum inflow current reaches 50mA, the power amplifier is arranged in the device, the thickness is only 3.5mm, the device is convenient to install, a clear and visible double-color indicator lamp is used, an image film is detected stably and reliably, and the measurement starting sensitivity is very accurate within the range of 0.5-0.8 mm. When the image film transmission reaches the designated position and is rapidly triggered to start, the pulse signal output by the photoelectric sensor is processed by the singlechip and isolated and amplified by the buffer circuit to excite the normally open contact of the miniature relay to close, and the N370 direct current motor is driven to operate.

Preferably, the length of the image film is set to d, and the distance between the side of the guide plate 301 away from the image film printer 3 and the side of the conveyor belt 501 close to the guide plate 301 is set to 1/2 d-d.

As shown in fig. 1, 3 and 4, the laser printer 4 is configured to print a report of a patient, a paper guide plate 409 and a paper support plate 408 of the laser printer 4 are disposed on two sides of the printer, a turntable 401 for fixing the printer is disposed at the bottom of the laser printer 4, an insulating resin plate 402 is rotatably connected below the turntable 401, a circular first conductive copper bar 403 and a circular second conductive copper bar 404 are embedded on the insulating resin plate 402, the first conductive copper bar 403 is connected with an ac power supply and used for providing a power supply, and the second conductive copper bar 404 is connected with a USB signal line of the industrial control host 2 and used for providing printing task information of the report of the patient; the bottom surface fixed mounting of carousel 401 has first carbon brush seat 405 and second carbon brush seat 406 with first electrically conductive copper bar 403 and the electrically conductive copper bar 404 electric connection of second, the power supply port of laser printer 4 links to each other with first carbon brush seat 405 electric property through the electric wire that runs through carousel 401, the signal port of laser printer 4 links to each other with second carbon brush seat 406 electric property through the electric wire that runs through carousel 401. When adding paper or trading the ink horn, need with the printer all rotatory 180 degrees, add the back and reset, contact failure phenomenon takes place very easily along with rotatory power cord and signal line for a long time to lead to printing the anomaly, 360 degrees rotations of realization that this structural design can be very convenient, no matter the staff adds paper and trades the ink horn or engineer maintenance is all very convenient.

The first conductive copper bar 403 and the second conductive copper bar 404 adopt a silver-plated double-carbon brush technology, so that good contact is ensured, and sparking and electronic interference are reduced.

Preferably, a second photoelectric sensor 407 is installed at the exit position of the laser printer 4, and is used for detecting a report at the exit position of the laser printer 4, and the second photoelectric sensor 407 is connected to the input end of the single chip microcomputer. The automatic sheet bag 62 output device is used for automatically outputting single sheet bags 62, and a hand-held opening 620 is arranged on each sheet bag 62.

The laser printer 4 prints the report, and the singlechip controls the automatic output device of the film bag 62 to output the film bag 62 for the patient to take in the image film and the report.

The utility model discloses choose the ATmega8 singlechip of high performance, low-power consumption for use as the main control unit of non-part spare.

As shown in fig. 1, 5 and 6, the automatic sheet bag 62 output device comprises a sheet bag roller 61, a sheet bag 62 is wound on the sheet bag roller 61, the sheet bag roller 61 is installed on a rotating shaft 64 and used for driving the sheet bag roller to rotate through the rotating shaft 64, a fixed pulley 63 fixedly installed inside the self-service sheet taking machine 1 is arranged above the sheet bag roller 61 and used for carrying out reversing conveying on the sheet bag 62, the rotating shaft 64 is connected with a stepping motor 65 through a coupler, and the stepping motor 65 is electrically connected with the output end of the single chip microcomputer.

Preferably, the automatic output device of piece bag 62 still includes guide structure 66 of fixed mounting on getting the mascerating machine 1 by oneself, guide structure 66 includes a direction seam 662, one side that direction seam 662 is close to the piece bag 62 delivery outlet is equipped with cuts mechanism 7 for cut the piece bag 62, one side that cuts mechanism 7 is close to the piece bag 62 delivery outlet is equipped with third photoelectric sensor 705, is used for detecting portable opening 620 on the piece bag 62, the input electric connection of third photoelectric sensor 705 and singlechip. The third photoelectric sensor 705 is fixed on a first mounting plate, and the first mounting plate is fixedly connected with the electric cylinder 704. The cutting table 702 is fixedly provided with an object carrying plate 707 near one side of the bag outlet, the object carrying plate 707 is provided with an infrared receiving device of the third photoelectric sensor 705, when the portable opening 620 on the bag moves to the position, the infrared receiving device can receive an infrared signal to control the stepping motor 65 to stop rotating and the cutting mechanism to cut, and the cutting of the single bag 62 is completed.

Preferably, the cutting mechanism 7 includes a cutting blade 701 and a cutting table 702, the cutting table 702 is provided with a cutting slot 703 matched with the cutting blade 701, and the cutting slot 703 is used for cutting off the sheet bag 62 by the shearing force formed between the cutting slot 703 and the cutting blade 701.

Preferably, cutting blade and electric cylinder 704's flexible fixed connection, electric cylinder 704 fixed mounting is inside getting mascerating machine 1 by oneself, guide structure 66 includes first guide part 660 and second guide part 661, form direction seam 662 between first guide part 660 and the second guide part 661, electric cylinder 704 and first guide part 660 fixed connection, second guide part 661 and cutting table 702 fixed connection, just one side that first guide part 660 and second guide part 661 are close to each other is arc guide structure 66.

The working principle is as follows: as shown in fig. 7, the industrial personal computer 2 is electrically connected to the recognition device, and can automatically recognize the identity of the patient through the face recognition device, and after the identity of the patient is confirmed, the industrial personal computer 2 retrieves the image film information and report information of the patient from the hospital information management system, and respectively transmitting the image film information and the report information to the image film printer 3 and the laser printer 4 for printing, the continuous transmission device 5 outputs the image film to a position which is beyond the proper position of the outlet of the image film printer 3, the image film completely falls into the optimal range of the vision of the patient, the patient can conveniently take out the image film without touching any part of the cabinet, after the report is printed by the laser printer 4, the single chip microcomputer controls the automatic output device of the film bag 62 to output a single film bag 62 for a patient to take in image films and report, and the whole non-film-receiving work flow is completed. The utility model discloses effectively reduced during the epidemic situation, the patient is getting the contact of piece in-process and external world.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A full-automatic non-connected self-service film taking machine is characterized by comprising a self-service film taking machine, wherein an industrial control host and a single chip microcomputer electrically connected with the industrial control host are arranged in the self-service film taking machine, the self-service film taking machine comprises a recognition device electrically connected with the industrial control host, an image film printer, a laser printer and a film bag automatic output device, the recognition device comprises a camera for acquiring face information and a medical insurance card reader-writer for acquiring radio frequency medical insurance card information, and the industrial control host is electrically connected with a hospital management information system through a keyboard interface;

the image film printer is used for printing an image film, and a continuous transmission device for continuously transmitting the image film is arranged at the outlet of the image film printer and comprises a conveying belt for bearing the image film, and the conveying belt is driven by a direct current motor;

the laser printer is used for printing a report of a patient, a paper guide plate and a paper support plate of the laser printer are arranged on two sides of the printer, a turntable used for fixing the printer is arranged at the bottom of the laser printer, an insulating resin plate is rotatably connected below the turntable, a first annular conductive copper strip and a second annular conductive copper strip are embedded in the insulating resin plate, the first conductive copper strip is connected with an alternating current power supply and used for providing a power supply, and the second conductive copper strip is connected with a USB signal line of an industrial control host and used for providing printing task information of the patient report;

the automatic slice bag output device is used for automatically outputting single slice bags, and a hand-held opening is formed in each slice bag.

2. The full-automatic non-connected self-service slice taking machine according to claim 1, characterized in that: the bottom surface fixed mounting of carousel has first carbon brush seat and second carbon brush seat with first electrically conductive copper bar and the electrically conductive copper bar electric connection of second, laser printer's power supply port links to each other with first carbon brush seat electric property through the electric wire that runs through the carousel, laser printer's signal port links to each other with second carbon brush seat electric property through the electric wire that runs through the carousel.

3. The full-automatic non-connected self-service slice taking machine according to claim 2, characterized in that: and a guide plate is arranged at the outlet of the image film printer.

4. The full-automatic non-connected self-service slice taking machine according to claim 3, characterized in that: the length of the image film is set as d, and the distance from one side of the guide plate far away from the image film printer to the side of the conveying belt close to the guide plate is set as 1/2 d-d.

5. The full-automatic non-receiving self-service slice taking machine according to any one of claims 1 to 4, wherein: the exit position department of image film printer installs first photoelectric sensor for detect the image film of image film printer exit position department, first photoelectric sensor links to each other with the input of singlechip.

6. The full-automatic non-receiving self-service slice taking machine according to any one of claims 1 to 4, wherein: and a second photoelectric sensor is arranged at the outlet position of the laser printer and used for detecting a report at the outlet position of the laser printer, and the second photoelectric sensor is connected with the input end of the singlechip.

7. The full-automatic non-receiving self-service slice taking machine according to any one of claims 1 to 4, wherein: the automatic sheet bag output device comprises a sheet bag winding roller, a sheet bag is wound on the sheet bag winding roller, the sheet bag winding roller is installed on a rotating shaft and used for driving the sheet bag to rotate through the rotating shaft, a fixed pulley fixedly installed inside a self-service sheet taking machine is arranged above the sheet bag winding roller and used for reversing and conveying the sheet bag, the rotating shaft is connected with a stepping motor through a coupler, and the stepping motor is electrically connected with the output end of a single chip microcomputer.

8. The full-automatic non-connected self-service slice taking machine according to claim 7, characterized in that: the automatic sheet bag output device further comprises a guide structure fixedly mounted on the self-service sheet taking machine, the guide structure comprises a guide seam, one side of the guide seam, which is close to a sheet bag output port, is provided with a cutting mechanism for cutting the sheet bag, one side of the cutting mechanism, which is close to the sheet bag output port, is provided with a third photoelectric sensor for detecting a portable opening on the sheet bag, and the third photoelectric sensor is electrically connected with an input end of the single chip microcomputer.

9. The full-automatic non-connected self-service slice taking machine according to claim 8, characterized in that: the cutting mechanism comprises a cutting blade and a cutting table, wherein the cutting table is provided with a cutting groove matched with the cutting blade and used for cutting off the film bag through the shearing force formed between the cutting groove and the cutting blade.

10. The full-automatic non-connected self-service slice taking machine according to claim 9, characterized in that: cutting blade and electric cylinder's flexible fixed connection, electric cylinder fixed mounting is inside getting the mascerating machine by oneself, guide structure includes first guide part and second guide part, form the direction seam between first guide part and the second guide part, electric cylinder and first guide part fixed connection, second guide part and cutting bed fixed connection, just one side that first guide part and second guide part are close to each other is arc guide structure.

Images