CN110060431B - Quick film taking device for imaging department - Google Patents

Abstract

The invention discloses a quick film taking device for imaging department, which comprises a display screen, an operation table, a baffle, a film outlet and a machine body, wherein the bottom end of the display screen is embedded and arranged on the top end of the operation table, the invention can detect the surface of a film through a concave surface detection mechanism when printing is carried out by improving the structure of the device, when the unevenness of the surface of the film is detected, the equipment is controlled to stop processing in time, so that the phenomenon that the equipment still prints when the film is wrinkled is effectively avoided, the wrinkled part of the printed film is blurred and can not be used for diagnosis, meanwhile, the liquid level of the ink in the printing ink box can be prolonged and detected through the liquid level detection mechanism, when detecting that the ink volume is not enough to print out a complete film, the valve is closed in time, so that the waste caused by the fuzziness of the printed film due to the fact that the equipment still prints when the ink volume is not enough is avoided.

Description

Quick film taking device for imaging department

Technical Field

The invention relates to the field of medical film taking devices, in particular to a quick film taking device for an imaging department.

Background

Image branch of academic or vocational study is with getting piece device fast, a/k/a get mascerating machine by oneself, locate the hospital often, be used for CT piece and X piece draw by oneself, convenient operation, can be quick get the piece, but current equipment is when using, because the required inkjet of the film of printing at every turn is different, thereby the ink horn spray in the printing ink box is not enough to print out a complete film in the equipment easily appears, and the user of service still prints, the film part place that leads to printing out is fuzzy to be left the defect and to cause the waste to the film, the film is when printing simultaneously, if film itself has the fold, the surface is unsmooth, easily make the film when printing, the fold part is fuzzy, lead to the unable diagnosis of the film of printing out and use.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: image branch of academic or vocational study is with getting piece device fast, its structure includes the display screen, operation panel, baffle, play piece mouth, organism, the bottom embedding of display screen is installed on the top of operation panel, the operation panel is located the baffle directly over, it is located the baffle under to go out the piece mouth, it is structure as an organic whole with the organism, the organism includes coupling assembling, film placement mechanism, film recovery mechanism, shell, printing mechanism, coupling assembling's top welds mutually with the top of shell, film placement mechanism horizontal welding is in printing mechanism's front end, the top that the mechanism was retrieved to the film welds mutually with printing mechanism's bottom, printing mechanism's top is connected with coupling assembling's bottom electricity.

As a further optimization of this technical scheme, coupling assembling includes connection module, wire, wiring module, connection module's bottom welds with the top of wire mutually, wiring module's top is located to the wire, wiring module is located connection module under, the wire welds with wiring module mutually, wiring module's bottom and printing mechanism's electricity are connected.

As the further optimization of this technical scheme, the mechanism is placed to the film includes standing groove, adsorption plate, electrostatic pole, static control module, the bottom in the standing groove is located to the adsorption plate, the bottom horizontal welding of adsorption plate has the electrostatic pole, the bottom of static control module is equipped with the electrostatic pole, the top of static control module welds mutually with the bottom of standing groove, the standing groove is located the film and retrieves the mechanism directly over, static control module welds mutually with the electrostatic pole.

As a further optimization of the technical scheme, the film recovery mechanism comprises a pulling handle, a storage groove, a roller and an oblique block, the pulling handle is vertically welded at the left end of the storage groove, the roller is arranged at the bottom end of the storage groove, the oblique block is vertically welded at the right end of the storage groove, the storage groove is located under the storage groove, and the roller is movably touched with the storage groove.

As a further optimization of this technical scheme, printing mechanism includes ink storage mechanism, shower nozzle, transfer passage, concave surface detection mechanism, the perpendicular welding in bottom of ink storage mechanism has the shower nozzle, the below of shower nozzle is located to the transfer passage, concave surface detection mechanism is located ink storage mechanism's right-hand, the transfer passage touches with the shower nozzle activity, concave surface detection mechanism bottom is equipped with five detection arms for the concave and convex face detects, the shower nozzle is connected with the module electricity of working a telephone switchboard.

As the further optimization of this technical scheme, ink storage mechanism is including soaking sponge, filling opening, liquid level detection mechanism, drawing liquid module, hygroscopic plate, protecting crust, soak the sponge and be located the filling opening under, liquid level detection mechanism's left end horizontal welding has the hygroscopic plate, the top of drawing liquid module welds mutually with liquid level detection mechanism's bottom, the top of protecting crust is located to the filling opening, filling opening and protecting crust formula structure as an organic whole.

As the further optimization of this technical scheme, liquid level detection mechanism is including logical material mouth, seal the pole, promote the groove, postpone pushing down sliding sleeve, floating block, pushing away the gas groove, the right-hand member level embedding of logical material mouth has a seal pole, the left end that promotes the groove is located to the seal pole, floating block imbeds perpendicularly in the middle part of postponing pushing down the sliding sleeve, the middle part that pushes away the gas groove is located to the floating block, the left end that pushes away the gas groove is equipped with promotes the groove, seal pole and promotion groove swing joint.

As a further optimization of this technical scheme, concave surface detection mechanism includes sealed shell, response module, support valve block, concave and convex face detection lever, the top of response module welds mutually with the top of sealed shell, it is equipped with two to support the valve block, welds mutually with both ends about in the sealed shell respectively, the bottom of response module is located to concave and convex face detection lever, concave and convex face detection lever is connected with the response module electricity.

As a further optimization of the technical solution, the concave-convex surface detection rod comprises a conductive frame, a connection module, a conductive contact plate, a winding sliding sleeve and a detection rod, wherein the top end of the conductive frame is welded to the bottom end of the connection module, the conductive contact plate is arranged below the connection module, the winding sliding sleeve is installed on the conductive contact plate in a surrounding manner, and the top end of the detection rod is welded to the bottom end of the conductive contact plate.

As a further optimization of the technical scheme, the detection rod is a cylinder, and a circular guide wheel is arranged below the detection rod.

As a further optimization of the technical scheme, the conductive frame is a rectangular frame, and openings are arranged below and welded at the left end and the right end of the coiled sliding sleeve.

Advantageous effects

The invention relates to a quick film taking device for an image department, which is characterized in that when equipment is used, an operation table is used for operating, a film to be printed is selected, after the film is printed, a circular guide wheel on a detection rod on a concave detection mechanism can detect the film in transportation, when the film with a concave surface or a convex surface is detected, the detection rod can be stressed to move upwards or downwards, so that a conductive contact plate on the detection rod moves up and down and is connected with a conductive frame to form a closed circuit, so that a connection module is triggered to transmit data to a sensing module, the equipment controls a conveying channel to incline angularly, the wrinkled film slides onto a storage tank through an inclined block, waste caused by printing of some wrinkled films when the film taking equipment prints is effectively avoided, and after the film is printed, a floating block on a liquid level detection mechanism is under the action of delaying to press a sliding sleeve, slowly descend, promote the gas in the gas pushing groove, make during gas comes to the promotion groove via the pipeline, promote the seal rod and carry out the displacement, when the ink liquid level volume in the protecting crust is not enough to print a film, the seal rod receives the promotion in gas pushing groove and arrives the most summit and lead to the fixture block looks gomphosis on the material mouth to avoided when the chinese ink volume is not enough, equipment still prints and cause the film that prints to obscure lead to the fact the waste.

Based on the prior art, the invention can detect the surface of the film through the concave surface detection mechanism when printing is carried out by improving the structure of the equipment, timely control the equipment to stop processing when the surface of the film is detected to be uneven, effectively avoid the phenomenon that the film is wrinkled, still print by the equipment, enable the wrinkle part of the printed film to be fuzzy and not to be used for diagnosis, and simultaneously can prolong and detect the liquid level of ink in the printing ink box through the liquid level detection mechanism, close the valve in time when detecting that the liquid level of ink is not enough to print a complete film, and avoid the waste caused by the fuzzy printed film because the equipment still prints when the liquid level of ink is not enough.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a fast film-taking device for an imaging department according to the present invention.

Fig. 2 is a detailed cross-sectional structural view of the machine body before operation.

Fig. 3 is a detailed cross-sectional structural diagram of the machine body in operation.

FIG. 4 is a schematic cross-sectional detail view of the printing mechanism of the present invention prior to operation.

FIG. 5 is a schematic cross-sectional detail view of an ink reservoir according to the present invention in operation.

FIG. 6 is a schematic cross-sectional detailed view of the fluid level sensing mechanism of the present invention prior to operation.

FIG. 7 is a cross-sectional detail view of the concave detection mechanism of the present invention before operation.

Fig. 8 is a detailed structural diagram of a cross section of the concave-convex surface detection rod in operation according to the present invention.

In the figure: display screen-1, operation table-2, baffle-3, film outlet-4, machine body-5, connecting component-51, film placing mechanism-52, film recovering mechanism-53, shell-54, printing mechanism-55, connecting module-511, wire-512, wiring module-513, placing groove-521, adsorption plate-522, electrostatic rod-523, electrostatic control module-524, pulling handle-531, storing groove-532, roller-533, oblique block-534, ink storing mechanism-551, spray head-552, conveying channel-553, concave surface detecting mechanism-554, soaking sponge-a, liquid adding opening-b, liquid level detecting mechanism-c, liquid extracting module-d, soaking plate-e, moisture absorbing plate-c, moisture absorbing plate-p, The device comprises a protective shell-f, a material through opening-c 1, a sealing rod-c 2, a pushing groove-c 3, a delay pressing sliding sleeve-c 4, a floating block-c 5, a gas pushing groove-c 6, a sealing shell-5541, an induction module-5542, a support valve block-5543, a concave-convex surface detection rod-5544, a conductive frame-55441, a connecting module-55442, a conductive contact plate-55443, a winding sliding sleeve-55444 and a detection rod-55445.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-8, the present invention provides a fast film taking device for department of imaging, which comprises a display screen 1, an operation table 2, a baffle 3, a film outlet 4, and a machine body 5, wherein the bottom end of the display screen 1 is embedded in the top end of the operation table 2, the operation table 2 is located right above the baffle 3, the film outlet 4 is located right below the baffle 3, the film outlet 4 and the machine body 5 are integrated, the machine body 5 comprises a connection assembly 51, a film placing mechanism 52, a film recycling mechanism 53, a housing 54, and a printing mechanism 55, the top end of the connection assembly 51 is welded to the top end of the housing 54, the film placing mechanism 52 is horizontally welded to the front end of the printing mechanism 55, the top end of the film recycling mechanism 53 is welded to the bottom end of the printing mechanism 55, the top end of the printing mechanism 55 is electrically connected to the bottom end of the connection assembly 51, the connecting assembly 51 comprises a connecting module 511, a lead 512 and a wiring module 513, wherein the bottom end of the connecting module 511 is welded with the top end of the lead 512, the lead 512 is arranged at the top end of the wiring module 513, the bottom end of the wiring module 513 is electrically connected with the printing mechanism 55, the wiring module 513 is arranged right below the connecting module 511, the lead 512 is welded with the wiring module 513, the film placing mechanism 52 comprises a placing groove 521, an adsorption plate 522, an electrostatic rod 523 and an electrostatic control module 524, the adsorption plate 522 is arranged at the bottom in the placing groove 521, the electrostatic rod 523 is horizontally welded at the bottom end of the adsorption plate 522, the electrostatic rod 523 is arranged at the bottom end of the electrostatic control module 524, the top end of the electrostatic control module 524 is welded with the bottom end of the placing groove 521, the placing groove 521 is arranged right above the film recycling mechanism 53, and the electrostatic control module 524 is welded with the electrostatic rod 523, the film recycling mechanism 53 comprises a pulling handle 531, a storage slot 532, a roller 533, and an inclined block 534, wherein the pulling handle 531 is vertically welded at the left end of the storage slot 532, the roller 533 is arranged at the bottom end of the storage slot 532, the inclined block 534 is vertically welded at the right end of the storage slot 532, the storage slot 532 is arranged right below the storage slot 521, the roller 533 is movably contacted with the storage slot 532, the printing mechanism 55 comprises an ink storage mechanism 551, a spray head 552, a conveying channel 553 and a concave surface detection mechanism 554, the bottom end of the ink storage mechanism 551 is vertically welded with the spray head 552, the conveying channel 553 is arranged below the spray head 552, the concave surface detection mechanism 554 is arranged at the right side of the ink storage mechanism 551, the conveying channel 553 is movably contacted with the spray head 552, five detection rods are arranged at the bottom of the concave surface detection mechanism 554 and are used for concave surface detection, the spray head 552 is electrically connected with a wiring module 513, the ink storage mechanism 551 comprises a soaked sponge a, a liquid filling port b, a liquid level detection mechanism c, a liquid pumping module d, a moisture absorption plate e and a protective shell f, the soaked sponge a is positioned right below the liquid filling port b, the left end of the liquid level detection mechanism c is horizontally welded with the moisture absorption plate e, the top end of the liquid pumping module d is welded with the bottom end of the liquid level detection mechanism c, the liquid filling port b is arranged at the top end of the protective shell f, the liquid filling port b and the protective shell f are of an integrated structure, the liquid level detection mechanism c comprises a feed port c1, a sealing rod c2, a pushing groove c3, a delay pushing sliding sleeve c4, a floating block c5 and a pushing groove 6, the right end of the feed port c1 is horizontally embedded with a sealing rod c2, the sealing rod c2 is arranged at the left end of a pushing groove c3, the floating block c5 is vertically embedded in the middle of the delay pushing sliding sleeve c4, the floating block c5 is arranged in the middle of the pushing groove c 6345, and the pushing groove 85c 3 is arranged at the left end of the pushing groove 82, the sealing rod c2 is movably connected with the pushing groove c3, the concave surface detection mechanism 554 comprises a sealing shell 5541, a sensing module 5542, a supporting valve block 5543 and a concave-convex surface detection rod 5544, the top end of the induction module 5542 is welded with the top end of the sealing shell 5541, two supporting valve blocks 5543 are arranged and respectively welded with the left end and the right end in the sealing shell 5541, the concave-convex surface detection rod 5544 is arranged at the bottom end of the induction module 5542, the concave-convex surface detection rod 5544 is electrically connected with the induction module 5542, the concave-convex surface detection rod 5544 comprises a conductive frame 55441, a connecting module 55442, a conductive contact plate 55443, a winding sliding sleeve 55444 and a detection rod 55445, the top end of the conductive frame 55441 is welded to the bottom end of the connection module 55442, the conductive contact plate 55443 is disposed below the connection module 55442, the winding sliding sleeve 55444 is mounted around the conductive contact plate 55443, the top end of the detection rod 55445 is welded to the bottom end of the conductive contact plate 55443.

Referring to fig. 8, the detection rod 55445 is a cylinder, and a circular guide wheel is embedded and installed on the cylinder below the detection rod 55445, so that the film can be smoothed, and the film is not affected by the friction of the detection rod 55445 during transportation, and the wrinkle of the film can be accurately detected.

Referring to fig. 8, the conductive frame 55441 is a rectangular frame, openings are formed in the lower portion of the conductive frame 55441 and welded to the left end and the right end of the coiled sliding sleeve 55444, two short rectangular metal sheets are arranged on the left end and the right end of the inner frame of the conductive frame 55441 near the middle, and when the detection rod 55445 detects the concave-convex surface of the film, the fast conductive contact plates 55443 touch each other to form a closed circuit.

The principle of the invention is as follows: when the device is used, the operation is carried out through the operation table 2, a film to be printed is selected, after the film is printed, the circular guide wheel on the detection rod 5544 on the concave detection mechanism 554 can detect the film in transportation, when the concave or convex film is detected, the detection rod 5544 can be forced to move upwards or downwards, so that the conductive contact plate 55443 on the detection rod 55445 can move upwards and downwards to be connected with the conductive frame 55441 to form a closed circuit, so that the connection module 55442 is triggered to transmit data to the sensing module 5542, the device can control the conveying channel 553 to tilt angularly, the wrinkled film can slide onto the storage groove 532 through the inclined block 534, the problem that some wrinkled film is printed by the film taking device and is wasted can be effectively avoided, after the film is printed, the floating block c5 on the liquid level detection mechanism c is under the action of delaying to press the sliding sleeve 4 downwards, the air in the air pushing groove C6 is pushed to enable the air to enter the pushing groove C3 through the pipeline, the sealing rod C2 is pushed to move, when the liquid level of the ink in the protective shell f is not enough to print one piece of film, the sealing rod C2 is pushed by the air pushing groove C6 to reach the topmost point to be embedded with the clamping block on the material passing hole C1, and therefore waste caused by the fact that printed films are fuzzy due to the fact that equipment still prints when the amount of the ink is not enough is avoided.

The invention solves the problems that when the existing equipment is used, ink jet required by a printed film is different every time, so that the spray of an ink box in the printing ink box in the equipment is not enough to print a complete film, and a user still prints, so that the printed film is partially blurred and has defects to waste the film, and meanwhile, when the film is printed, if the film has wrinkles and uneven surface, the wrinkles are easily blurred during the printing of the film, so that the printed film cannot be diagnosed for use, the invention combines the components mutually, improves the structure of the equipment, so that the surface of the film can be detected by a concave detection mechanism 554 during the printing, and controls the equipment to stop processing in time when the surface of the film is detected to be uneven, the effectual film of having avoided itself when having the fold, equipment still prints, and the film fold part that makes to print is fuzzy, can not be used as the diagnosis, can prolong the detection through liquid level detection mechanism c to the chinese ink liquid level volume in the ink horn of printing simultaneously, when detecting chinese ink volume and be not enough to print out a complete film, in time close the valve, avoided when chinese ink volume is not enough, equipment still prints and causes the film that prints to obscure to cause the waste.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. Image branch of academic or vocational study is with getting piece device fast, its structure includes display screen (1), operation panel (2), baffle (3), play piece mouth (4), organism (5), the bottom embedding of display screen (1) is installed on the top of operation panel (2), operation panel (2) are located baffle (3) directly over, play piece mouth (4) are located baffle (3) under, play piece mouth (4) and organism (5) structure as an organic whole, its characterized in that:

the machine body (5) comprises a connecting assembly (51), a film placing mechanism (52), a film recovering mechanism (53), a shell (54) and a printing mechanism (55), the top end of the connecting assembly (51) is welded with the top end of the shell (54), the film placing mechanism (52) is horizontally welded at the front end of the printing mechanism (55), the top end of the film recovering mechanism (53) is welded with the bottom end of the printing mechanism (55), and the top end of the printing mechanism (55) is electrically connected with the bottom end of the connecting assembly (51);

the connecting assembly (51) comprises a connecting module (511), a lead (512) and a wiring module (513), the bottom end of the connecting module (511) is welded with the top end of the lead (512), the lead (512) is arranged at the top end of the wiring module (513), the wiring module (513) is positioned right below the connecting module (511), and the bottom end of the wiring module (513) is electrically connected with the printing mechanism (55);

the film placing mechanism (52) comprises a placing groove (521), an adsorption plate (522), an electrostatic rod (523) and an electrostatic control module (524), wherein the adsorption plate (522) is arranged at the bottom inside the placing groove (521), the electrostatic rod (523) is horizontally welded at the bottom end of the adsorption plate (522), the electrostatic rod (523) is arranged at the bottom end of the electrostatic control module (524), the top end of the electrostatic control module (524) is welded with the bottom end of the placing groove (521), and the placing groove (521) is positioned right above the film recovering mechanism (53);

the film recovery mechanism (53) comprises a pulling handle (531), a storage groove (532), a roller (533) and an inclined block (534), the pulling handle (531) is vertically welded at the left end of the storage groove (532), the roller (533) is arranged at the bottom end of the storage groove (532), the inclined block (534) is vertically welded at the right end of the storage groove (532), and the storage groove (532) is positioned right below the placing groove (521);

the printing mechanism (55) comprises an ink storage mechanism (551), a spray head (552), a conveying channel (553) and a concave surface detection mechanism (554), wherein the spray head (552) is vertically welded at the bottom end of the ink storage mechanism (551), the conveying channel (553) is arranged below the spray head (552), the concave surface detection mechanism (554) is positioned at the right side of the ink storage mechanism (551), and the spray head (552) is electrically connected with a wiring module (513);

the ink storage mechanism (551) comprises a soaking sponge (a), a liquid filling opening (b), a liquid level detection mechanism (c), a liquid pumping module (d), a moisture absorption plate (e) and a protective shell (f), wherein the soaking sponge (a) is positioned right below the liquid filling opening (b), the moisture absorption plate (e) is horizontally welded at the left end of the liquid level detection mechanism (c), the top end of the liquid pumping module (d) is welded with the bottom end of the liquid level detection mechanism (c), and the liquid filling opening (b) is arranged at the top end of the protective shell (f);

the liquid level detection mechanism (c) comprises a material passing hole (c1), a sealing rod (c2), a pushing groove (c3), a delay pressing sliding sleeve (c4), a floating block (c5) and a gas pushing groove (c6), wherein the right end of the material passing hole (c1) is horizontally embedded with the sealing rod (c2), the sealing rod (c2) is arranged at the left end of the pushing groove (c3), the floating block (c5) is vertically embedded in the middle of the delay pressing sliding sleeve (c4), the floating block (c5) is arranged in the middle of the gas pushing groove (c6), and the left end of the gas pushing groove (c6) is provided with the pushing groove (c 3);

the concave surface detection mechanism (554) comprises a sealing shell (5541), an induction module (5542), two supporting valve blocks (5543) and two concave-convex surface detection rods (5544), wherein the top end of the induction module (5542) is welded with the top end of the sealing shell (5541), the two supporting valve blocks (5543) are respectively welded with the left end and the right end in the sealing shell (5541), and the concave-convex surface detection rods (5544) are arranged at the bottom end of the induction module (5542);

the concave-convex surface detection rod (5544) comprises a conductive frame (55441), a connecting module (55442), a conductive contact plate (55443), a winding sliding sleeve (55444) and a detection rod (55445), wherein the top end of the conductive frame (55441) is welded with the bottom end of the connecting module (55442), the conductive contact plate (55443) is arranged below the connecting module (55442), the winding sliding sleeve (55444) is installed on the conductive contact plate (55443) in a surrounding mode, and the top end of the detection rod (55445) is welded with the bottom end of the conductive contact plate (55443).

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