CN117228144A - Lossless type medical image independent film storage device - Google Patents

Abstract

The invention discloses a nondestructive independent medical image storage device. The invention belongs to the technical field of medical imaging department instruments, and particularly relates to a nondestructive medical imaging independent film storage device which comprises a nondestructive electric control magnetic clamp and a film storage protection split container, wherein the nondestructive electric control magnetic clamp comprises an adjusting frame, a bottom elastic magnetic clamp assembly, a top elastic magnetic clamp assembly and a travel relay assembly; when the film is taken out, the film is pulled to drive the bottom elastic magnetic force clamp assembly to move, the control circuit of the recovery stroke relay assembly is communicated, the bottom elastic magnetic force clamp assembly loosens the film, the film is conveniently taken out, and the problems of complex operation, film surface abrasion and the like existing in the conventional film storage and taking are solved.

Description

Lossless type medical image independent film storage device

Technical Field

The invention belongs to the technical field of medical imaging department instruments, and particularly relates to a nondestructive independent medical image storage device.

Background

In medical imaging, image inspection is a very important ring, but also important for storing image data, when storing films, a moisture-proof and sun-proof dry place is needed to be selected to avoid the films from being wet or mildewed, and in addition, when storing the films, each film needs to be stored independently in order to avoid scratch, bending and abrasion on the surfaces of the films caused by adhesion among the films to influence the image quality;

the chinese patent of invention with publication number CN108502318B discloses a medical image film storage device, which comprises a storage box and a plurality of partition boards arranged in the storage box, wherein the opening at the top of the storage box is arranged to be relatively wide, when medical image films are placed, the medical image films can be smoothly and conveniently placed into the storage box through the opening, and different medical image films can be spaced by stirring the partition boards; the technical scheme has the following problems:

when the film is placed and taken out, the partition plate and the pushing column are required to be operated, and the operation is complicated; in addition, although the film is separately stored by the partition board, contact exists between the surface of the film and the partition board, so that surface defects such as unavoidable scratches and the like can be generated, and the image quality of the film is affected.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a nondestructive medical image independent storage device, which comprises a nondestructive electric control magnetic clamp and a storage protection split container, wherein the nondestructive electric control magnetic clamp comprises an adjusting frame, a bottom elastic magnetic clamp assembly, a top elastic magnetic clamp assembly and a travel relay assembly; when the film is taken out, the film is pulled to drive the bottom elastic magnetic force clamp assembly to move, the control circuit of the recovery stroke relay assembly is communicated, the bottom elastic magnetic force clamp assembly loosens the film, the film is conveniently taken out, and the problems of complex operation, film surface abrasion and the like existing in the conventional film storage and taking are solved.

The technical scheme adopted by the invention is as follows: the invention provides a nondestructive medical image independent storage device, which comprises a nondestructive electric control magnetic clamp and a storage piece protection split container, wherein the nondestructive electric control magnetic clamp is arranged in the storage piece protection split container in an array manner, the nondestructive electric control magnetic clamp comprises an adjusting frame, a bottom elastic magnetic clamp assembly, a top elastic magnetic clamp assembly and a travel relay assembly, the travel relay assembly is fixedly connected to the adjusting frame, the bottom elastic magnetic clamp assembly and the top elastic magnetic clamp assembly are arranged on the adjusting frame in a sliding manner, and the bottom elastic magnetic clamp assembly and the top elastic magnetic clamp assembly are electrically connected with the travel relay assembly; the travel relay assembly comprises a relay shell, symmetrical split conducting blocks and a switch relay, wherein the relay shell is arranged on an adjusting frame, the symmetrical split conducting blocks and the switch relay are arranged on the relay shell, wires are arranged at two ends of the symmetrical split conducting blocks and are electrically connected with a control circuit of the switch relay, and the bottom elastic magnetic clamp assembly and the top elastic magnetic clamp assembly are electrically connected with a working circuit of the switch relay;

the film is fixed on a nondestructive electric control magnetic clamp and then stored in a film storage protection split container, the bottom elastic magnetic clamp component and the top elastic magnetic clamp component on the nondestructive electric control magnetic clamp the bottom edge and the top edge of the film respectively, the nondestructive electric control magnetic clamp only contacts the edge area of the film, scratches caused by friction are reduced, the surface of the film is protected to the greatest extent, meanwhile, according to the characteristics of film imaging and image inspection, most of effective images on the film exist in the central area of the film, and the peripheral edges of the film are margin blank or non-key image areas, so that the edges of the film are clamped, the damage to important areas on the film can be avoided as much as possible, only the edges of the film are contacted and rubbed, and the storage quality of the film is improved; the bottom elastic magnetic force clamp assembly and the top elastic magnetic force clamp assembly are controlled to clamp according to the insulation property of the film, the symmetrical split conductive blocks and the switch relay are arranged, when the film is inserted into the middle of the symmetrical split conductive blocks, the symmetrical split conductive blocks are separated, the currents at the two ends of the symmetrical split conductive blocks are separated, so that the on-off of a control circuit of the switch relay is controlled through the position of the film, the clamping of the bottom elastic magnetic force clamp assembly and the top elastic magnetic force clamp assembly is controlled, after the arrangement, the switch relay controls the bottom elastic magnetic force clamp assembly and the top elastic magnetic force clamp assembly to clamp the film for fixed storage when the film is inserted into the position of the stroke relay assembly, only the film is pulled when the film is taken out, the bottom elastic magnetic force clamp assembly and the top elastic magnetic force clamp assembly are driven to slide on the adjusting frame, the control circuit of the switch relay is communicated again after the film leaves the symmetrical split conductive blocks, the bottom elastic magnetic force clamp assembly and the top elastic magnetic force clamp assembly are loosened, and the film can be taken out easily.

Further, control springs are further arranged at two ends of the symmetrical split conductive blocks, two ends of each control spring are respectively connected to the symmetrical split conductive blocks and the relay shell, a relay through groove is formed in the adjusting frame, and the relay shell is arranged in the relay through groove; when the film moves to the position of the travel relay assembly, the film is inserted into the middle of the symmetrical split conductive block to separate the symmetrical split conductive blocks, and the current at the two ends of the symmetrical split conductive block is separated, so that the control circuit of the switch relay is cut off, the working circuit of the switch relay is converted into a closed state, the bottom elastic magnetic clamp assembly and the top elastic magnetic clamp assembly are controlled to clamp the film, the opening and closing of the switch relay is controlled through the symmetrical split conductive blocks by means of the insulativity of the film, the symmetrical split conductive block is simple in structure, low in cost, high in response speed and good in control effect.

Further, a bottom groove is formed in the bottom of the adjusting frame, a bottom guide wheel is arranged on the bottom groove, the bottom guide wheel is located at one end, far away from the relay through groove, of the bottom groove, the bottom guide wheel is rotationally connected with the bottom groove, a bottom elastic magnetic clamp assembly is arranged in the bottom groove, and the bottom elastic magnetic clamp assembly is in sliding connection with the bottom groove; the bottom groove and the bottom guide wheel are arranged at the bottom of the adjusting frame, the film moves in the bottom groove when the film is stored, the film is guided by arranging the bottom guide wheel on the bottom groove, so that the film is smoothly inserted into the bottom groove, and the film is simply and conveniently inserted into the bottom guide wheel when the film is stored.

Further, the bottom elastic magnetic force clamp assembly comprises a magnetic force clamp bottom plate, a fixed clamp plate and a movable clamp plate, wherein the fixed clamp plate is fixedly connected to the magnetic force clamp bottom plate, the movable clamp plate is slidably arranged on the magnetic force clamp bottom plate, and the fixed clamp plate corresponds to the movable clamp plate in position.

Further, an electromagnet is arranged on the fixed clamping plate and is electrically connected with a working circuit of the switch relay, the electromagnet is electrically connected with the movable clamping plate, a clamping plate spring is arranged on the movable clamping plate, and the other end of the clamping plate spring is connected with the magnetic clamping bottom plate; the film is inserted between the fixed clamping plate and the movable clamping plate after the adjusting frame, when the working circuit of the switch relay is closed and communicated, the electromagnet is electrified to generate magnetic force, the magnetic force of the electromagnet attracts the movable clamping plate to move towards the electromagnet, the film is clamped between the fixed clamping plate and the movable clamping plate, the control is convenient, the working process of the electromagnet does not produce pollution, and the film cannot be damaged.

Further, a bottom side wall slideway is further arranged on the bottom groove, a magnetic clamp sliding block is arranged on the magnetic clamp bottom plate, the magnetic clamp sliding block is slidably arranged in the bottom side wall slideway, a release spring is arranged on the magnetic clamp sliding block, and two ends of the release spring are respectively connected to the magnetic clamp sliding block and the bottom groove; when the film is taken out, the film is pulled outwards, the pulling force is transmitted to the magnetic clamp bottom plate, the magnetic clamp sliding block overcomes the elastic force of the release spring to slide in the side wall slideway at the bottom, when the film is moved out of the symmetrical split conductive block, the control springs at the two ends of the symmetrical split conductive block push the symmetrical split conductive block to be communicated again, the control circuit of the switch relay is communicated with the symmetrical split conductive block, the electromagnet does not generate magnetic force any more, the movable clamp plate is pulled back to the original position by the spring rebound of the clamp plate, the fixed clamp plate and the movable clamp plate do not clamp the film any more, and the film can be taken out easily at the moment; the movable magnetic force clamping bottom plate is arranged, the film is separated from the symmetrical split conductive blocks through the micro-travel generated by pulling, and then the clamping of the film is relieved, so that the film can be taken out by only one pulling operation, and the film taking device is convenient and quick.

Further, symmetrical side baffles are arranged on two sides of the magnetic clamp bottom plate, the side baffles are attached to the outer surface of the bottom groove, and the projection area of the side baffles on the bottom groove is larger than the area of the bottom side wall slideway; when the magnetic clamp slide block slides in the bottom side wall slideway, the side baffle plate slides on the bottom groove to block the magnetic clamp slide block from sliding off the bottom side wall slideway.

Further, a top movable frame is arranged at the top of the adjusting frame, the top movable frame is in sliding connection with the adjusting frame, a top guide wheel and a top side wall slideway are arranged on the top movable frame, the top guide wheel is positioned at one end, far away from a relay through groove, of the top movable frame, a top elastic magnetic force clamp assembly is arranged on the top movable frame in a sliding manner, and the structure of the top elastic magnetic force clamp assembly is identical with that of the bottom elastic magnetic force clamp assembly; the top movable frame with adjustable setting activity is through adjusting the distance between top movable frame and the bottom recess in order to be applicable to the film of equidimension not, set up the top elasticity magnetic force clamp assembly the same with the structure of bottom elasticity magnetic force clamp assembly on top movable frame, top elasticity magnetic force clamp assembly slides and establishes on top movable frame, the effect that its produced is similar with bottom elasticity magnetic force clamp assembly, bottom elasticity magnetic force clamp assembly is responsible for realizing the clamp of film bottom, top elasticity magnetic force clamp assembly is responsible for realizing the clamp at film top, the action of top elasticity magnetic force clamp assembly and bottom elasticity magnetic force clamp assembly is also the same when depositing and taking out the film, realize the stable of film through top elasticity magnetic force clamp assembly and bottom elasticity magnetic force clamp assembly that sets up the upper and lower position.

Further, an adjusting bolt and an adjusting nut are arranged at the top of the top movable frame, and the top movable frame is connected to the top of the adjusting frame in a sliding manner through the adjusting bolt and the adjusting nut; the height of the top movable frame is adjusted through the adjusting bolts and the adjusting nuts, the connecting mode of the adjusting bolts and the adjusting nuts is threaded connection, the connection is more stable, the adjustment is convenient, and the structure is more stable.

Further, the split storage protection container comprises an upper box body and a lower box body, wherein the upper box body is rotationally arranged on the lower box body, a clamp grid is arranged in the lower box body, the adjusting frame is clamped in the clamp grid, and a handle is further arranged on the upper box body; the film and the nondestructive electronic control magnetic clamp are stored in the film storage protection split container, light and humid environment are isolated, film aging and mildew damage are avoided, the clamp grid is arranged on the lower box body to fix the plurality of nondestructive electronic control magnetic clamps, and the handle is arranged on the upper box body to conveniently open and close the film storage protection split container.

The beneficial effects obtained by the invention by adopting the structure are as follows:

(1) The invention provides a nondestructive medical image independent film storage device, a film is fixed on a nondestructive electric control magnetic clamp and then stored in a film storage protection split container, a bottom elastic magnetic clamp assembly and a top elastic magnetic clamp assembly on the nondestructive electric control magnetic clamp the bottom edge and the top edge of the film respectively, the nondestructive electric control magnetic clamp only contacts the edge area of the film, only contacts and rubs the edge of the film, and the storage quality of the film is improved;

(2) The invention provides a nondestructive independent film storage device for medical images, which is characterized in that a bottom elastic magnetic force clamp assembly and a top elastic magnetic force clamp assembly are controlled to clamp and put through a travel relay assembly, a symmetrical split conductive block and a switch relay are arranged according to the insulativity of a film, when the film is inserted into the middle of the symmetrical split conductive block, the symmetrical split conductive block is separated, and the currents at the two ends of the symmetrical split conductive block are separated, so that the on-off of a control circuit of the switch relay is controlled through the position of the film, the clamping and putting of the bottom elastic magnetic force clamp assembly and the top elastic magnetic force clamp assembly are controlled by the switch relay, the bottom elastic magnetic force clamp assembly and the top elastic magnetic force clamp assembly are controlled to clamp the film for fixed storage when the film is inserted into the position of the travel relay assembly, and only one action is needed for storing and taking out the film, and no extra operation is needed;

(3) The invention provides a nondestructive independent film storage device for medical images, which controls the opening and closing of a switch relay by virtue of the insulativity of films through symmetrical split conductive blocks, and the symmetrical split conductive blocks have the advantages of simple structure, low cost, high response speed and good control effect;

(4) The invention provides a nondestructive independent film storage device for medical images, which is characterized in that a bottom guide wheel is arranged on a bottom groove to guide films, so that the films are smoothly inserted into the bottom groove, and only the films are required to be inserted into the bottom guide wheel during storage, so that the nondestructive independent film storage device is simple and convenient;

(5) The invention provides a nondestructive independent film storage device for medical images, when a working circuit of a switch relay is closed and communicated, an electromagnet is electrified to generate magnetic force, and the magnetic force of the electromagnet attracts a movable clamping plate to move towards the electromagnet to clamp a film between a fixed clamping plate and the movable clamping plate, so that the device is convenient to control, and the working process of the electromagnet does not produce pollution and damage the film;

(6) The invention provides a nondestructive independent film storage device for medical images, which is provided with a movable magnetic clamping bottom plate, and realizes that films are separated from symmetrical split conductive blocks through micro-travel generated by pulling, so that the clamping of the films is relieved, and therefore, the films can be taken out by only one pulling operation, and the film storage device is convenient and quick;

(7) The invention provides a nondestructive independent medical image storage device.A side baffle slides on a bottom groove to block a magnetic force clamp sliding block from sliding off a bottom side wall slideway;

(8) The invention provides a nondestructive independent film storage device for medical images, which realizes stable storage of films by arranging a top elastic magnetic clamp assembly and a bottom elastic magnetic clamp assembly at upper and lower positions;

(9) The invention provides a nondestructive independent medical image storage device, which is characterized in that the position height of a top movable frame is adjusted through an adjusting bolt and an adjusting nut, the connecting mode of the adjusting bolt and the adjusting nut is threaded connection, the connection is more stable, the adjustment is convenient, and the structure is more stable;

(10) The invention provides a nondestructive medical image independent film storage device, which stores films and a nondestructive electronic control magnetic clamp in a film storage protection split container, isolates light and humid environment, and avoids ageing and mildew damage of the films.

Drawings

FIG. 1 is a perspective view of a non-destructive medical image independent storage device according to the present invention;

FIG. 2 is a right side view of a non-destructive medical image independent memory device according to the present invention;

FIG. 3 is a right side view of a nondestructive electronic control magnetic clamp of a nondestructive medical image independent storage device;

FIG. 4 is a perspective view of a nondestructive electronic control magnetic clamp of a nondestructive medical image independent storage device;

FIG. 5 is a front view of a nondestructive electronically controlled magnetic clamp for a nondestructive medical image independent storage device according to the present invention;

FIG. 6 is an exploded view of a nondestructive electronically controlled magnetic clamp for a nondestructive medical image independent storage device according to the present invention;

FIG. 7 is an enlarged view of the portion I of FIG. 1;

FIG. 8 is a perspective view of a relay assembly of a non-destructive medical image independent storage device according to the present invention;

FIG. 9 is a top view of a relay assembly of a non-destructive medical image independent memory device according to the present invention;

fig. 10 is a top view of a bottom elastic magnetic clip assembly of a non-destructive medical image independent storage device according to the present invention.

The device comprises a nondestructive electronic control magnetic clamp, 101, an adjusting frame, 200, a bottom elastic magnetic clamp assembly, 210, a top elastic magnetic clamp assembly, 300, a travel relay assembly, 400, a storage piece protection split container, 102, a bottom groove, 103, a top movable frame, 104, a bottom guide wheel, 105, a bottom side wall slideway, 106, a top guide wheel, 107, a top side wall slideway, 108, an adjusting bolt, 109, an adjusting nut, 201, a magnetic clamp bottom plate, 202, a fixed clamp plate, 203, a movable clamp plate, 204, a magnetic clamp slide block, 205, a release spring, 206, an electromagnet, 207, a clamp plate spring, 208, a side baffle plate, 301, a relay shell, 302, a symmetrical split conductive block, 303, a switch relay, 304, a control spring, 305, a wire, 401, an upper box, 402, a lower box, 403, a handle, 404 and a clamp lattice.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1 to 10, the present invention provides a non-destructive independent medical image storage device, which comprises a non-destructive electronically controlled magnetic clamp 100 and a storage protection split container 400, wherein the non-destructive electronically controlled magnetic clamp 100 is arranged in the storage protection split container 400 in an array, the non-destructive electronically controlled magnetic clamp 100 comprises an adjusting frame 101, a bottom elastic magnetic clamp assembly 200, a top elastic magnetic clamp assembly 210 and a travel relay assembly 300, the travel relay assembly 300 is fixedly connected to the adjusting frame 101, the bottom elastic magnetic clamp assembly 200 and the top elastic magnetic clamp assembly 210 are slidably arranged on the adjusting frame 101, and the bottom elastic magnetic clamp assembly 200 and the top elastic magnetic clamp assembly 210 are electrically connected with the travel relay assembly 300; the travel relay assembly 300 comprises a relay housing 301, a symmetrical split conductive block 302 and a switch relay 303, wherein the relay housing 301 is arranged on the adjusting frame 101, the symmetrical split conductive block 302 and the switch relay 303 are arranged on the relay housing 301, wires 305 are arranged on two ends of the symmetrical split conductive block 302, the wires 305 are electrically connected with a control circuit of the switch relay 303, the bottom elastic magnetic clamp assembly 200 and the top elastic magnetic clamp assembly 210 are electrically connected with a working circuit of the switch relay 303, and the type of the switch relay 303 is normally open HHC68A-1Z;

the film is fixed on the nondestructive electric control magnetic clamp 100 and then stored in the film storage protection split container 400, and the bottom elastic magnetic clamp assembly 200 and the top elastic magnetic clamp assembly 210 on the nondestructive electric control magnetic clamp 100 clamp the bottom edge and the top edge of the film respectively; the bottom elastic magnetic force clamp assembly 200 and the top elastic magnetic force clamp assembly 210 are controlled to clamp through the travel relay assembly 300, the symmetrical split conductive blocks 302 and the switch relay 303 are arranged according to the insulativity of the film, when the film is inserted into the middle of the symmetrical split conductive blocks 302, the symmetrical split conductive blocks 302 are separated, the current at two ends of the symmetrical split conductive blocks 302 is separated, the on-off of a control circuit of the switch relay 303 is controlled through the position of the film, the clamping of the bottom elastic magnetic force clamp assembly 200 and the top elastic magnetic force clamp assembly 210 is controlled, after the arrangement, the switch relay 303 controls the bottom elastic magnetic force clamp assembly 200 and the top elastic magnetic force clamp assembly 210 to clamp the film for fixed storage when the film is inserted into the position of the travel relay assembly 300, and when the film is taken out, the film is pulled only to drive the bottom elastic magnetic force clamp assembly 200 and the top elastic magnetic force clamp assembly 210 to slide on the adjusting frame 101, and the control circuit of the switch relay 303 is disconnected after the film leaves the symmetrical split conductive blocks 302, and the bottom elastic magnetic force clamp assembly 200 and the top elastic magnetic force clamp assembly 210 are loosened, and then the film can be taken out.

Control springs 304 are further arranged at two ends of the symmetrical split conductive blocks 302, two ends of each control spring 304 are respectively connected to the symmetrical split conductive blocks 302 and the relay housing 301, the relay through groove 110 is formed in the adjusting frame 101, and the relay housing 301 is arranged in the relay through groove 110; when the film moves to the position of the travel relay assembly 300, the film is inserted into the middle of the symmetrical split conductive block 302 to separate the symmetrical split conductive block 302, and the current at the two ends of the symmetrical split conductive block 302 is cut off, so that the control circuit of the switch relay 303 is cut off, and at the moment, the working circuit of the switch relay 303 is turned into a closed state, so that the bottom elastic magnetic clamp assembly 200 and the top elastic magnetic clamp assembly 210 are controlled to clamp the film, and the opening and closing of the switch relay 303 are controlled through the symmetrical split conductive block 302 by means of the insulativity of the film.

The bottom of the adjusting frame 101 is provided with a bottom groove 102, the bottom groove 102 is provided with a bottom guide wheel 104, the bottom guide wheel 104 is positioned at one end of the bottom groove 102 far away from the relay through groove 110, the bottom guide wheel 104 is rotationally connected with the bottom groove 102, the bottom groove 102 is internally provided with a bottom elastic magnetic clamp assembly 200, and the bottom elastic magnetic clamp assembly 200 is in sliding connection with the bottom groove 102; the bottom groove 102 and the bottom guide wheel 104 are arranged at the bottom of the adjusting frame 101, the film moves in the bottom groove 102 when being stored, and the film is guided by arranging the bottom guide wheel 104 on the bottom groove 102, so that the film is inserted into the bottom groove 102, and the film is only required to be inserted into the bottom guide wheel 104 when being stored.

The bottom elastic magnetic force clamp assembly 200 comprises a magnetic force clamp bottom plate 201, a fixed clamp plate 202 and a movable clamp plate 203, wherein the fixed clamp plate 202 is fixedly connected to the magnetic force clamp bottom plate 201, the movable clamp plate 203 is slidably arranged on the magnetic force clamp bottom plate 201, and the fixed clamp plate 202 corresponds to the movable clamp plate 203 in position.

The fixed clamping plate 202 is provided with an electromagnet 206, the electromagnet 206 is electrically connected with a working circuit of the switch relay 303, the electromagnet 206 is electrically connected with the movable clamping plate 203, the movable clamping plate 203 is provided with a clamping plate spring 207, and the other end of the clamping plate spring 207 is connected with the magnetic clamping bottom plate 201; when the working circuit of the switch relay 303 is closed and communicated, the electromagnet 206 is electrified to generate magnetic force, and the magnetic force of the electromagnet 206 attracts the movable clamp plate 203 to move towards the electromagnet 206, so that the film is clamped between the fixed clamp plate 202 and the movable clamp plate 203.

The bottom groove 102 is also provided with a bottom side wall slideway 105, the magnetic clamp bottom plate 201 is provided with a magnetic clamp sliding block 204, the magnetic clamp sliding block 204 is slidably arranged in the bottom side wall slideway 105, the magnetic clamp sliding block 204 is provided with a release spring 205, and two ends of the release spring 205 are respectively connected to the magnetic clamp sliding block 204 and the bottom groove 102; when the film is taken out, the film is pulled outwards, the pulling force is transmitted to the magnetic clamp bottom plate 201, the magnetic clamp sliding block 204 slides in the bottom side wall slideway 105 against the elastic force of the release spring 205, when the film is moved out of the symmetrical split conductive block 302, the control springs 304 at the two ends of the symmetrical split conductive block 302 push the symmetrical split conductive block 302 to be communicated again, the control circuits of the switch relay 303 are communicated with each other, the electromagnet 206 does not generate magnetic force any more, the movable clamp plate 203 is pulled back to the original position by the rebound of the clamp plate spring 207, and the fixed clamp plate 202 and the movable clamp plate 203 can take out the film.

Symmetrical side baffles 208 are also arranged on two sides of the magnetic clamping bottom plate 201, the side baffles 208 are attached to the outer surface of the bottom groove 102, and the projection area of the side baffles 208 on the bottom groove 102 is larger than the area of the bottom side wall slideway 105; as the magnetic clamp slider 204 slides in the bottom side wall slide 105, the side guards 208 slide over the bottom groove 102 blocking the magnetic clamp slider 204 from sliding off the bottom side wall slide 105.

The top of the adjusting frame 101 is provided with a top movable frame 103, the top movable frame 103 is in sliding connection with the adjusting frame 101, the top movable frame 103 is provided with a top guide wheel 106 and a top side wall slideway 107, the top guide wheel 106 is positioned at one end of the top movable frame 103 far away from the relay through groove 110, the top movable frame 103 is provided with a top elastic magnetic force clamp assembly 210 in a sliding manner, and the structure of the top elastic magnetic force clamp assembly 210 is identical with that of the bottom elastic magnetic force clamp assembly 200; the top movable frame 103 with adjustable movement is arranged, films with different sizes are suitable for by adjusting the distance between the top movable frame 103 and the bottom groove 102, the top elastic magnetic force clamp assembly 210 which is identical to the structure of the bottom elastic magnetic force clamp assembly 200 is arranged on the top movable frame 103, the top elastic magnetic force clamp assembly 210 is arranged on the top movable frame 103 in a sliding mode, the generated effect is similar to that of the bottom elastic magnetic force clamp assembly 200, the bottom elastic magnetic force clamp assembly 200 is responsible for realizing clamping of the bottom of the film, the top elastic magnetic force clamp assembly 210 is responsible for realizing clamping of the top of the film, and the actions of the top elastic magnetic force clamp assembly 210 and the bottom elastic magnetic force clamp assembly 200 are identical when the film is stored and taken out.

The top of the top movable frame 103 is provided with an adjusting bolt 108 and an adjusting nut 109, and the top movable frame 103 is connected to the top of the adjusting frame 101 in a sliding way through the adjusting bolt 108 and the adjusting nut 109; the position height of the top movable frame 103 is adjusted by an adjusting bolt 108 and an adjusting nut 109.

The split storage protection container 400 comprises an upper box 401 and a lower box 402, wherein the upper box 401 is rotatably arranged on the lower box 402, a clamp grid 404 is arranged in the lower box 402, the adjusting frame 101 is clamped in the clamp grid 404, and a handle 403 is further arranged on the upper box 401; the film and the nondestructive electronic control magnetic force clamps 100 are stored in the film storage protection split container 400, a clamp grid 404 is arranged on the lower box body 402 for fixing a plurality of nondestructive electronic control magnetic force clamps 100, and a handle 403 is arranged on the upper box body 401 for opening and closing the film storage protection split container 400.

When the automatic film storage device is specifically used, firstly, the adjusting frame 101 is adjusted according to the size of a film to be stored, the distance between the top movable frame 103 and the bottom groove 102 is adjusted through the adjusting bolt 108 and the adjusting nut 109, then the lossless electric control magnetic clamp 100 is installed in the film storage protection split container 400, the upper box 401 is rotated to open the film storage protection split container 400, at the moment, the control circuit of the switch relay 303 is communicated, the electromagnet 206 does not generate magnetic force, and a gap exists between the fixed clamp plate 202 and the movable clamp plate 203;

when the film is stored, the film is inserted into the adjusting frame 101, the bottom edge of the film enters the bottom guide wheel 104, the top edge of the film enters the top guide wheel 106, then the film passes through a gap between the fixed clamping plate 202 and the movable clamping plate 203, when the film reaches the position of the stroke relay assembly 300, the film is inserted into the middle of the symmetrical split conductive block 302 against the elastic force of the control spring 304, so that the control circuit of the switch relay 303 is cut off, at the moment, the working current of the switch relay 303 is communicated, the electromagnet 206 is controlled to generate magnetic attraction force, the movable clamping plate 203 is attracted to move towards the fixed clamping plate 202 against the elastic force of the clamping plate spring 207, and the film is clamped between the fixed clamping plate 202 and the movable clamping plate 203, so that the film is stored;

when the film is taken out, only the film is pulled outwards, the pulling force is transmitted to the magnetic clamp bottom plate 201, the magnetic clamp sliding block 204 slides in the bottom side wall sliding way 105 and the top side wall sliding way 107 against the elastic force of the release spring 205, when the film is moved out of the symmetrical split conductive block 302, the control springs 304 at the two ends of the symmetrical split conductive block 302 push the symmetrical split conductive block 302 to be communicated again, the control circuits of the switch relay 303 are communicated with each other, the electromagnet 206 does not generate magnetic force any more, the movable clamp plate 203 is pulled back to the original position by the resilience of the clamp plate spring 207, the fixed clamp plate 202 and the movable clamp plate 203 do not clamp the film any more, and the film can be taken out easily at the moment; the film is stored and taken out only by one action, no additional operation is needed, the use is simple and convenient, only the contact and friction are generated on the edge of the film, and the storage effect is good.

The whole working flow of the invention is just the above, and the step is repeated when the invention is used next time.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (10)

1. The utility model provides a harmless medical science image independent deposit piece device which characterized in that: the automatic storage device comprises a nondestructive electronic control magnetic clamp (100) and a storage piece protection split container (400), wherein the nondestructive electronic control magnetic clamp (100) is arranged in the storage piece protection split container (400) in an array, the nondestructive electronic control magnetic clamp (100) comprises an adjusting frame (101), a bottom elastic magnetic clamp assembly (200), a top elastic magnetic clamp assembly (210) and a travel relay assembly (300), the travel relay assembly (300) is fixedly connected to the adjusting frame (101), the bottom elastic magnetic clamp assembly (200) and the top elastic magnetic clamp assembly (210) are slidably arranged on the adjusting frame (101), and the bottom elastic magnetic clamp assembly (200) and the top elastic magnetic clamp assembly (210) are electrically connected with the travel relay assembly (300);

the travel relay assembly (300) comprises a relay shell (301), symmetrical split conductive blocks (302) and a switch relay (303), wherein the relay shell (301) is arranged on an adjusting frame (101), the symmetrical split conductive blocks (302) and the switch relay (303) are arranged on the relay shell (301), wires (305) are arranged at two ends of the symmetrical split conductive blocks (302), the wires (305) are electrically connected with a control circuit of the switch relay (303), and the bottom elastic magnetic force clamp assembly (200) and the top elastic magnetic force clamp assembly (210) are electrically connected with a working circuit of the switch relay (303).

2. The non-destructive medical image independent storage device of claim 1, wherein: control springs (304) are further arranged at two ends of the symmetrical split conductive blocks (302), the two ends of each control spring (304) are respectively connected to the symmetrical split conductive blocks (302) and the relay housing (301), the relay through grooves (110) are formed in the adjusting frame (101), and the relay housing (301) is arranged in the relay through grooves (110).

3. The non-destructive medical image independent storage device of claim 2, wherein: the bottom of adjusting frame (101) is equipped with bottom recess (102), be equipped with bottom leading wheel (104) on bottom recess (102), bottom leading wheel (104) are located the one end of keeping away from relay logical groove (110) on bottom recess (102), rotate between bottom leading wheel (104) and bottom recess (102) and be connected, be equipped with bottom elasticity magnetic force clamp subassembly (200) in bottom recess (102), sliding connection between bottom elasticity magnetic force clamp subassembly (200) and bottom recess (102).

4. A non-destructive medical image independent storage device according to claim 3, wherein: the bottom elastic magnetic force clamp assembly (200) comprises a magnetic force clamp bottom plate (201), a fixed clamp plate (202) and a movable clamp plate (203), wherein the fixed clamp plate (202) is fixedly connected to the magnetic force clamp bottom plate (201), the movable clamp plate (203) is slidably arranged on the magnetic force clamp bottom plate (201), and the fixed clamp plate (202) corresponds to the movable clamp plate (203) in position.

5. The non-destructive image independent storage device of claim 4, wherein: the fixed clamp plate (202) is provided with an electromagnet (206), the electromagnet (206) is electrically connected with a working circuit of the switch relay (303), the electromagnet (206) is electrically connected with the movable clamp plate (203), the movable clamp plate (203) is provided with a clamp plate spring (207), and the other end of the clamp plate spring (207) is connected to the magnetic clamp bottom plate (201).

6. The non-destructive image independent storage device of claim 5, wherein: the magnetic force clamp is characterized in that a bottom side wall slideway (105) is further arranged on the bottom groove (102), a magnetic force clamp sliding block (204) is arranged on the magnetic force clamp bottom plate (201), the magnetic force clamp sliding block (204) is arranged in the bottom side wall slideway (105) in a sliding mode, a release spring (205) is arranged on the magnetic force clamp sliding block (204), and two ends of the release spring (205) are respectively connected to the magnetic force clamp sliding block (204) and the bottom groove (102).

7. The non-destructive image independent storage device of claim 6, wherein: the magnetic force presss from both sides of bottom plate (201) still are equipped with symmetrical side shield (208), side shield (208) laminating is on the surface of bottom recess (102), the projected area of side shield (208) on bottom recess (102) is greater than the area of bottom lateral wall slide (105).

8. The non-destructive image independent storage device of claim 7, wherein: the top of adjusting frame (101) is equipped with top movable frame (103), sliding connection between top movable frame (103) and adjusting frame (101), be equipped with top leading wheel (106) and top lateral wall slide (107) on top movable frame (103), top leading wheel (106) are located the one end that keeps away from relay logical groove (110) on top movable frame (103), the slip is equipped with top elasticity magnetic force clamp assembly (210) on top movable frame (103), the structure of top elasticity magnetic force clamp assembly (210) is the same with bottom elasticity magnetic force clamp assembly (200).

9. The non-destructive image independent storage device of claim 8, wherein: the top of the top movable frame (103) is provided with an adjusting bolt (108) and an adjusting nut (109), and the top movable frame (103) is slidably connected to the top of the adjusting frame (101) through the adjusting bolt (108) and the adjusting nut (109).

10. The non-destructive image independent storage device of claim 9, wherein: the storage piece protection split container (400) comprises an upper box body (401) and a lower box body (402), wherein the upper box body (401) is rotationally arranged on the lower box body (402), a clamp grid (404) is arranged in the lower box body (402), the adjusting frame (101) is clamped in the clamp grid (404), and a handle (403) is further arranged on the upper box body (401).