Image branch of academic or vocational study is deposited with light piece intelligence and is taken device
Technical Field
The invention belongs to the technical field of medical auxiliary instruments, and particularly relates to an intelligent storage and taking device for optical sheets for an imaging department.
Background
The image department photo technology is widely applied to various aspects of production and life of people due to simple principle and flexible operation, and is the ray detection technology invented and used at the earliest. The light sheet for imaging department uses light blue sheet base to prevent halo. When the device is used, a fluorescence intensifying screen can be added to excite fluorescence for shooting, and the device has the advantages of better effect, low fog, high contrast, high density and high resolution. In addition, radiation-sensitive films for determining the radiation dose are also known, and films for radiographic reproduction are also included in the broad sense. Photographic emulsions are typically applied to both sides of a film substrate for direct photography to enhance sensitivity and contrast.
The optical sheet for imaging department generally has the following characteristics: (1) the resolution is high, and the defect identification capability is improved; (2) the X-ray detector has high sensitivity to X-rays, particularly medical light sheets, and has high light sensitivity requirement, so that the radiation quantity of the X-rays is reduced as much as possible, and human body damage is prevented; (3) the use is convenient, and the processing is simple and convenient; (4) the medicine film is coated evenly and has no stain so as to avoid being confused with a defective image.
The slide is the carrier of important examination and diagnosis basis and data in the image department, and medical staff confirms whether the corresponding part of the body of the patient is healthy or not according to the examination slide of the patient. At present, when the polished section for the department of imaging is stored in an overlapped mode, the polished section is easy to adhere to each other, the polished section is worn and is long in time, the influence on the polished section can influence the polished section to become fuzzy, even the polished section can be scrapped, and the storage of medical information data of the polished section is not facilitated. Moreover, the stacked optical sheets are not convenient to search and store, so that the working efficiency of medical staff is low.
Therefore, the invention designs an intelligent storage and taking device for optical sheets for the department of imaging.
Disclosure of Invention
Aiming at the problems, the invention provides an intelligent storage and taking device for optical sheets for imaging departments.
The technical scheme of the invention is as follows: an intelligent storage and taking device for photo films for imaging department, which mainly comprises a device main body, a receiving device, a moving device, a storage device, a taking device, a recovery device and a control device,
a sliding device is arranged on the inner wall of the rear side of the device main body,
the receiving device is arranged at the rear part of the upper surface of the device main body and comprises a light sheet conveyor which is connected with the outlet end of the light sheet printer and is used for conveying printed light sheets to the interior of the device main body for storage,
the moving device comprises a moving frame which is movably arranged on the sliding device and used for moving the moving device to the position below the polished section conveyor, a receiving groove used for receiving and conveying polished sections is arranged on the moving frame, a telescopic push rod used for pushing the polished sections in the receiving groove is arranged at one end of the receiving groove, which is close to the sliding rail,
the storage device is arranged at the front part in the device main body, the storage device internally comprises a plurality of storage grooves which are uniformly arranged in a matrix form, the top end of the inside of each storage groove is provided with a light sheet sensor used for sensing whether a light sheet is stored in the storage groove, the outer side of the rear end of each storage groove is provided with an indicator light used for indicating whether the light sheet is stored in the storage groove, the storage device also comprises sliding grooves which are arranged at the two sides of the front end surface of the storage device,
the taking device comprises a slide bar movably arranged between the two slide grooves, a slide sheet box used for receiving the slide sheets taken out from the storage groove is arranged on the slide bar in a sliding manner, a hollow groove is arranged on the front side wall of the slide sheet box, a sheet reading lamp group is arranged on the inner wall of the rear side of the slide sheet box, a switch rotary plate used for moving out the slide sheets in the slide sheet box is also arranged at the bottom of the slide sheet box, the taking device also comprises a sheet outlet arranged below the slide bar and used for taking out the slide sheets in the slide sheet box,
the recovery device comprises a processing box which is arranged below the taking device and corresponds to the bottom of the optical sheet box and is used for recovering and processing the optical sheets in the optical sheet box,
the controller is arranged on the side of the device body and comprises a data receiver connected with the optical sheet printer and used for receiving optical sheet information, a data storage connected with the data receiver, the mobile device and the storage device and used for recording optical sheet storage information, and a controller connected with the mobile device, the storage device, the taking device and the recovery device and used for transmitting corresponding control instructions.
Further, slider includes that two settings are in the slide rail and the sliding connection of device main part rear side inner wall both sides are in slide bar between two slide rails, remove the frame and slide and cup joint on the slide bar, can realize removing the frame and remove to the slide conveyer below and remove to arbitrary storage tank outside to remove the frame and pass through controller control, can select vacant storage tank to carry out the slide to deposit nearby.
Furthermore, the center of the front side face of the device main body is provided with a film reading window with the same size as that of the film reading window of the film box, so that a doctor can directly read the film in the film reading window without taking out the film to watch the film on the film reading machine.
Furthermore, the light sheet conveyor comprises two cylindrical rollers driven by a motor and a guide plate arranged at the outlet end of the light sheet conveyor, and the guide plate can enable the light sheets to bend at a certain angle and naturally fall onto a receiving groove of the movable frame, so that the light sheets are prevented from being bent due to vertical conveying.
Furthermore, the maximum telescopic length of the telescopic push rod can reach the front end outlet of the storage groove, and the telescopic push rod can push the optical sheets on the receiving groove into the storage groove and can also push the optical sheets in the storage groove into the optical sheet box.
Furthermore, the chip inlet end of the storage groove is a U-shaped port, so that the optical chips can smoothly enter the storage groove, and the optical chips are prevented from being clamped by the inlet end of the storage groove.
Furthermore, a sheet placing plate is arranged on the outer side of the sheet outlet, a plurality of packaging bags for packaging the optical sheets are hung on the side portion of the sheet placing plate, the optical sheets are placed on the sheet placing plate through the sheet outlet, and an operator uses the packaging bags to package the optical sheets and give the packaged optical sheets to a patient, so that the optical sheets are prevented from being artificially polluted or damaged.
Furthermore, a cutter used for cutting the optical sheets into pieces is arranged inside the inlet end of the processing box, so that useless and waste optical sheets can be cut into pieces and recovered, and the privacy of patients is protected.
Furthermore, the control device also comprises a display control screen arranged on the front side surface of the device main body, and an operator can observe the storage condition of the optical sheets and perform optical sheet taking control operation on the display control screen.
The working principle of the invention is as follows: the light sheet printer prints the light sheet and then conveys the light sheet to the inside of the device main body through the light sheet conveyor of the receiving device, meanwhile, the moving frame of the moving device moves to the lower part of the light sheet conveyor through the sliding device, the light sheet falls on the receiving groove of the moving frame, the control device controls the moving frame to move to the outside of the nearby vacant storage groove, the telescopic push rod on the receiving groove pushes the light sheet to the storage groove, the light sheet sensor senses the presence of the light sheet in the storage groove, the indicator light is changed from green to red, the corresponding data memory stores the light sheet storage information, when the light sheet is required to be taken, an operator inputs the patient information on the display control screen, the control device moves the light sheet box of the taking device to the front side of the light sheet storage groove required to be taken according to the information in the data memory, then moves the moving frame to the rear side of the storage groove required to be taken, the telescopic push rod stretches into the storage groove to push the light sheet out into the storage groove, the slide box moves to the position of the slide reading window, the slide reading lamp set is turned on, a doctor can watch the slide on the slide reading window, and after the watch is finished, the doctor can choose to take out the slide through the slide outlet and give the slide to a patient, and can cut and crush useless and waste slides through a processing box of a recovery device.
The invention has the beneficial effects that: the invention provides an intelligent storage and taking device for optical sheets for imaging departments, which is particularly suitable for being used by a large number of optical sheets in hospitals. In a word, the invention has the advantages of novel structure, convenient operation, high intelligence degree, high efficiency, no error and the like.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of the slide of the present invention;
FIG. 3 is a schematic diagram of the optical sheet conveyer of the present invention;
FIG. 4 is a schematic diagram of a mobile device according to the present invention;
FIG. 5 is a schematic view of the storage unit of the present invention;
FIG. 6 is a schematic diagram of an optical sheet cassette according to the present invention;
FIG. 7 is a schematic view of the recycling apparatus of the present invention;
fig. 8 is a schematic structural diagram of the control device of the present invention.
Wherein, 1-device body, 11-sliding device, 111-sliding rail, 112-sliding rod, 12-film reading window, 2-receiving device, 21-optical sheet conveyor, 211-cylindrical roller, 212-guide plate, 3-moving device, 31-moving frame, 32-receiving groove, 33-telescopic push rod, 4-storage device, 41-storage groove, 42-optical sheet sensor, 43-indicator light, 44-sliding groove, 5-taking device, 51-sliding rod, 52-optical sheet box, 521-empty groove, 522-film reading lamp group, 523-switch rotary plate, 53-film outlet, 531-film placing plate, 6-recovery device, 61-processing box, 611-shearing device, 7-control device, 71-data receiver, 72-data memory, 73-controller, 74-display control screen.
Detailed Description
For the understanding of the technical solution of the present invention, the following description is further illustrated with reference to fig. 1 to 8 and specific examples, which are not intended to limit the scope of the present invention.
As shown in figure 1, the intelligent storing and taking device for the optical film for the department of imaging mainly comprises a device main body 1, a receiving device 2, a moving device 3, a storing device 4, a taking device 5, a recovering device 6 and a control device 7,
as shown in fig. 2, the inner wall of the rear side of the device body 1 is provided with a sliding device 11, the sliding device 11 comprises two sliding rails 111 arranged at two sides of the inner wall of the rear side of the device body 1 and a sliding rod 112 connected between the two sliding rails 111, the moving frame 31 is slidably sleeved on the sliding rod 112, a reading window 12 with the same size as the reading window 521 of the photo box 52 is arranged at the central position of the front side of the device body 1,
the receiving device 2 is arranged at the rear part of the upper surface of the device body 1, the receiving device 2 comprises a light sheet conveyor 21 which is connected with the outlet end of the light sheet printer and is used for conveying printed light sheets to the device body 1 for storage, as shown in figure 3, the light sheet conveyor 21 comprises two cylindrical rollers 211 driven by a motor and a guide plate 212 arranged at the outlet end of the light sheet conveyor 21,
as shown in fig. 4, the moving device 3 includes a moving frame 31 movably mounted on the sliding device 11 for moving the moving device 3 to a position below the sheet conveyor 21, a receiving slot 32 for receiving and conveying the sheet is disposed on the moving frame 31, a telescopic push rod 33 for pushing the sheet in the receiving slot 32 is disposed at one end of the receiving slot 32 close to the sliding rail 11, a maximum telescopic length of the telescopic push rod 33 can reach an outlet at a front end of the storage slot 41,
as shown in fig. 5, the storage device 4 is arranged at the front part of the device main body 1, the storage device 4 comprises a plurality of storage slots 41 uniformly arranged in a matrix form, the chip inlet end of each storage slot 41 is a U-shaped port, the top end of the interior of each storage slot 41 is provided with a chip inductor 42 for inducing whether a chip is stored in the storage slot 41, the outer side of the rear end of each storage slot 41 is provided with an indicator lamp 43 for indicating whether a chip is stored in the storage slot 41, the storage device 4 further comprises sliding slots 44 arranged at two sides of the front end surface of the storage device 4,
as shown in fig. 6, the taking device 5 includes a slide bar 51 movably disposed between two slide slots 44, a slide bar 51 is slidably disposed on the slide bar 51 and is used for receiving a slide box 52 for taking out a slide in the storage slot 41, a hollow slot 521 is disposed on a front side wall of the slide box 52, a slide reading lamp set 522 is disposed on an inner wall of a rear side of the slide box 52, a switch rotating plate 523 for moving out the slide in the slide box 52 is further disposed at a bottom of the slide box 52, the taking device 5 further includes a slide outlet 53 disposed below the slide bar 51 and used for taking out the slide in the slide box 52, a slide placing plate 531 is disposed outside the slide outlet 53, a plurality of packaging bags for packaging the slide are hung on a side portion of the slide placing plate 531,
as shown in fig. 7, the recycling device 6 includes a processing box 61 disposed below the taking device 5 corresponding to the bottom of the light sheet box 52 for recycling the light sheets in the light sheet box 52, a cutter 611 for cutting the light sheets is disposed inside an inlet end of the processing box 61,
as shown in fig. 8, the control device 7 is disposed at the side of the device body 1, the controller 7 includes a data receiver 71 connected to the optical sheet printer for receiving optical sheet information, a data storage 72 connected to the data receiver 71, the mobile device 3, and the storage device 4 for recording optical sheet storage information, and a controller 73 connected to the mobile device 3, the storage device 4, the accessing device 5, and the recycling device 6 for transmitting corresponding control instructions, the control device 7 further includes a display control screen 74 disposed at the front side of the device body 1,
the sliding rod 112 can be a stainless steel rod with electric rollers at two ends, the cylindrical roller 211 can be an OGP-15F adjustable-interval rotating roller, the telescopic push rod 33 can be an SKF-MPT pneumatic telescopic rod, the optical sheet sensor 42 can be an XKCF type non-contact infrared sensor, the sheet reading lamp set 522 can be an induction type LED ultrathin lamp set, the switch rotating plate 523 can be a QD electric rotating shaft plate, the cutter 611 can be an RXX type electric shearing machine, and other components which are not specially described are products in the prior art, and technicians in the field can select the components according to requirements.
The working method of the above embodiment is as follows: the light sheet printer prints the light sheet and then conveys the light sheet to the inside of the device body 1 through the light sheet conveyor 21 of the receiving device 2, meanwhile, the moving frame 31 of the moving device 3 moves to the lower part of the light sheet conveyor 21 through the sliding device 11, the light sheet falls on the receiving groove 32 of the moving frame 31, the control device 7 controls the moving frame 31 to move to the outside of the nearby vacant storage groove 41, the telescopic push rod 33 on the receiving groove 32 pushes the light sheet to the storage groove 41, the light sheet sensor 42 senses the light sheet stored in the storage groove 41, the indicator lamp 43 changes from green to red, the corresponding data memory 72 stores information of the light sheet, when the light sheet is required to be taken, an operator inputs the information of a patient on the display control screen 74, the control device 7 moves the light sheet box 52 of the taking device 5 to the front side of the light sheet storage groove 42 required to be taken according to the information in the data memory 72, then the movable rack 31 is moved to the rear side of the optical sheet storage groove 41 which needs to be taken, the telescopic push rod 33 extends into the storage groove 41 to push out the optical sheet to the optical sheet box 52, the optical sheet box 52 moves to the position of the optical sheet reading window 12, the optical sheet reading lamp set 522 is turned on, a doctor can watch the optical sheet on the optical sheet reading window 12, after the observation is finished, the optical sheet can be selected to be taken out through the optical sheet outlet 53 and delivered to a patient, and the useless optical sheet can be cut and broken through the processing box 61 of the recovery device 6.