CN114815271A - Dynamic switching type non-shielding observation type medical image film reader - Google Patents

Abstract

The invention discloses a dynamic switching type non-shielding observation type medical image viewer which comprises a dynamic switching temporary storage processing assembly, an overturning viewing accommodating mechanism, a light-transmitting observation panel, a built-in LED light source, a viewing shell and a control panel. The invention belongs to the field of medical images, and particularly relates to a dynamic switching type non-shielding observation type medical image viewer; aiming at the technical problem that the CT image cannot be positioned by the traditional positioning modes such as clamping or plugging, the dynamic switching temporary storage processing assembly and the overturning reading piece accommodating mechanism are provided, the CT image is not blocked completely, the taking and the placing of the CT image are very easy due to the adsorption effect of electrostatic charges, the CT image can be taken down by slightly poking the CT image from the transparent observation panel after the reading is finished, the built-in LED light source can be directly observed by turning on the control panel, and the CT image reading device is convenient for doctors.

Description

Dynamic switching type non-shielding observation type medical image film reader

Technical Field

The invention belongs to the technical field of medical images, and particularly relates to a dynamic switching type non-shielding observation type medical image viewer.

Background

After CT is done, a patient can print an image scanned by CT on an image film for the convenience of observation of a doctor, most of the existing CT image film reading devices are installed in various departments and are generally fixed on a wall, when the doctor reads the film, the doctor usually needs to manually press a CT film on a lamp box on the CT image film reading device or plug the top of the CT film into a gap of an external frame of the existing film reading device so as to realize positioning, and then the image on the CT film is displayed and observed through the irradiation of the lamp box, the lower half part of the CT film is easy to tilt in the conventional CT image film reading mode, so that the CT film is unstable and obviously inconvenient for the doctor to observe, the doctor needs to assist by hand sometimes, and the existing CT film positioning mode hardly shields the CT film, and the complete CT film is difficult to expose in the positioning process, therefore, a dynamically switchable non-blocking observation type medical image viewer is needed.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the dynamic switching type non-shielding observation type medical image film reader, which effectively solves the technical problems that in the current market, when a doctor looks up medical image CT, the positioning is difficult to realize, CT films are not shielded, and the film reading experience is poor.

The technical scheme adopted by the invention is as follows: the invention provides a dynamic switching type non-shielding observation type medical image reading device which comprises a dynamic switching temporary storage processing assembly, an overturning reading piece accommodating mechanism, a light-transmitting observation panel, a built-in LED light source, a reading piece shell and a control panel, wherein the built-in LED light source is arranged in the reading piece shell, the light-transmitting observation panel is embedded on the reading piece shell, the control panel is arranged on the side wall of the reading piece shell, the overturning reading piece accommodating mechanism is arranged on two sides of the reading piece shell, and the dynamic switching temporary storage processing assembly is arranged on the overturning reading piece accommodating mechanism.

Preferably, the dynamic switching temporary storage processing assembly comprises a temporary storage processing bracket, a temporary storage motion accommodating shell, a dynamic switching generation roller, a roller body accommodating groove, a temporary storage generation layer, a side supporting plate, a sliding guide frame, a dynamic switching sliding plate, an L-shaped groove, an auxiliary chute, a sliding operation column, a secondary moving connecting rod, an L-shaped bending connecting rod, a dynamic driving roller, a driving roller shaft, a driving roller bracket, a fixing clamping pin, a dynamic switching driving motor, a motor bracket, an output rocker and a driven connecting rod, wherein the temporary storage processing bracket is connected to the turnover sheet reading accommodating mechanism in a turnover way, the temporary storage motion accommodating shell is fixedly connected to the temporary storage processing bracket, the roller body accommodating groove is arranged on the temporary storage motion accommodating shell in a penetrating way, the dynamic switching generation roller is arranged between the inner walls of the roller body accommodating groove in a rotating way through a shaft, the temporary storage generation layer is wrapped on the outer wall of the dynamic switching generation roller, and the side supporting plate is fixedly connected to one side of the temporary storage processing bracket, the sliding guide frame is fixedly connected to the side supporting plate, the dynamic switching sliding plate is embedded and slidably arranged on the sliding guide frame, the L-shaped groove is penetratingly arranged on the sliding guide frame and comprises a vertical part and a horizontal part, the vertical part is communicated with the horizontal part, the auxiliary chute is penetratingly arranged on the dynamic switching sliding plate, the motor support is fixedly connected to the temporary storage processing support, the body of the dynamic switching driving motor is arranged on the motor support, the output rocker is fixedly connected to the output end of the dynamic switching driving motor, one end of the driven connecting rod is hinged to the output rocker, the other end of the driven connecting rod is hinged to the dynamic switching sliding plate, the sliding operation column is embedded and slidably arranged in the L-shaped groove and the auxiliary chute, the secondary moving connecting rod is fixedly connected to the sliding operation column, the L-shaped bent connecting rod is fixedly connected to the secondary moving connecting rod, the driving roller support is fixedly connected to the L-shaped bent connecting rod, and the driving roller shaft is penetratingly and rotatably arranged on the driving roller support, the dynamic driving roller is arranged on the driving roller shaft, and the fixed bayonet is fixedly connected to the second-stage movable connecting rod in a penetrating manner.

Preferably, the piece accommodating mechanism is read in the upset includes static charge temporary storage tank, CT image standing groove, the piece holding plate is read to the side, the upset hinge, top location auxiliary hole and bottom location auxiliary hole, the piece holding plate is read to the side divide two sets of rigid couplings in the both sides of reading the piece shell, the side is located to the upset hinge and is read on the piece holding plate, the processing support of keeping in locates the side through the upset hinge upset and reads on the piece holding plate, static charge temporary storage tank locates the side and reads on the piece holding plate, CT image standing groove locates on the side reads the piece holding plate, static charge temporary storage tank and CT image standing groove are linked together, top location auxiliary hole runs through to locate on the processing support of keeping in, bottom location auxiliary hole runs through to locate on the side reads the piece holding plate, top location auxiliary hole and bottom location auxiliary hole are linked together.

In order to drive the dynamic driving roller to rotate when the driving roller support moves, an auxiliary gear is arranged at the end part of the driving roller shaft, an auxiliary rack is fixedly arranged on the side supporting plate, and the auxiliary gear is meshed with the auxiliary rack.

Further, the temporary storage movement accommodating shell is provided with a driving roller accommodating groove.

Wherein the fixing pin enters the top positioning auxiliary hole and the bottom positioning auxiliary hole when moving.

Preferably, the roll body accommodating groove and the static charge retention groove are communicated with each other.

Further, the control board is electrically connected with the built-in LED light source.

Preferably, the turnover film reading accommodating mechanisms are provided with two groups, and the dynamic switching temporary storage processing assemblies are provided with two groups.

In order to increase the electrostatic adsorption effect on the CT image, the temporary storage generation layer is made of chemical fiber materials, and the electrostatic charge temporary storage groove is made of plastic materials.

Further, the dynamic switching generation roller and the dynamic driving roller are in direct frictional contact, and the temporary storage generation layer and the electrostatic charge temporary storage tank are in frictional contact.

The invention with the structure has the following beneficial effects: the scheme provides a dynamic switching type non-shielding observation type medical image film reader, which effectively solves the technical problems that when a doctor looks up medical image CT in the current market, the positioning is difficult to realize, the CT film is not shielded, and the film reading experience is poor, and the technical method provided by the invention has the following advantages:

(1) the invention aims at the technical problems that the CT image is positioned when the CT image is read, and the traditional positioning modes such as clamping or plugging cannot be utilized to position (the image of the CT image is prevented from being shielded by a clamped object and the reading process is not influenced), provides a dynamic switching temporary storage processing assembly and an overturning reading accommodating mechanism, only needs to control a dynamic switching driving motor to start, an output rocker rotates to enable a driven connecting rod to swing in a reciprocating way, the driven connecting rod is hinged on a dynamic switching sliding plate, so that the dynamic switching sliding plate slides in a reciprocating way on a sliding guide frame, as sliding running columns connected with the end parts of secondary moving connecting rods are sequentially embedded and slide in an L-shaped groove and an auxiliary chute, the dynamic switching sliding plate drives the sliding running columns to slide in the sliding process, and when the sliding running columns slide through a vertical part, the positions of the sliding running columns relative to the auxiliary chute are unchanged, in the process, the sliding operation column is positioned at the end part of the auxiliary chute, when the sliding operation column slides to the junction of the vertical part and the horizontal part along with the dynamic switching sliding plate, the dynamic switching sliding plate continuously slides, the sliding operation column is driven to slide by the auxiliary chute, namely, the sliding operation column continuously slides along the horizontal part, namely, the sliding operation column synchronously drives the secondary moving connecting rod to vertically move firstly and then horizontally move towards the temporary storage processing bracket during the motion, during the period, the L-shaped bent connecting rod drives the dynamic driving roller to move through the driving roller bracket, an auxiliary gear connected with the driving roller shaft is meshed and rolls along the auxiliary rack, so that the driving roller shaft moves and rotates per se, the rotating dynamic driving roller receives the dynamic switching generation rollers in the shell through the temporary storage motion one by one, and a plurality of groups of dynamic switching generation rollers respectively rotate, the dynamic switching generation roller penetrates through the roller body accommodating groove to be in frictional contact with the electrostatic charge temporary storage groove, the temporary storage generation layer on the dynamic switching generation roller is continuously in contact with the electrostatic charge temporary storage groove, so that electrostatic charges are stored on the electrostatic charge temporary storage groove, namely, the static charges can be continuously accumulated on the surface of the electrostatic charge temporary storage groove after the dynamic switching driving motor is started, when the CT image is required to be read, two groups of temporary storage processing supports are turned over to two sides and opened, then the temporary storage processing supports are turned over by using turning hinges, at the moment, the electrostatic charge temporary storage groove is completely exposed, at the moment, the CT image is placed on the CT image placing groove and the electrostatic charge temporary storage groove from bottom to top, then the CT image is directly attached to the CT image placing groove and the electrostatic charge temporary storage groove, at the moment, the CT image is not shielded completely, and the taking and placing of the CT image are very easy due to the adsorption effect of the electrostatic charges, and the CT image can be taken down by slightly pulling off from the transparent observation panel after the reading is finished, the built-in LED light source can be turned on through the control panel to directly observe the CT image, which is more convenient for doctors;

(2) after the film reading is finished, two sets of temporary storage processing supports are turned over and closed, and when the sliding operation column slides along the horizontal part, the driving roller support and the dynamic driving roller enter the driving roller accommodating groove together, the fixing clamping pin also enters the top positioning auxiliary hole and the bottom positioning auxiliary hole at the moment in sequence, the dynamic switching driving motor can be controlled to stop running at the moment, the bottom positioning auxiliary hole is positioned on the side reading film accommodating plate, when the fixing clamping pin stretches into the bottom positioning auxiliary hole, the whole temporary storage processing support cannot be turned over, dust can be prevented from being accumulated on the static charge temporary storage groove and the CT image accommodating groove, the dynamic switching driving motor can be continuously turned on before next use, static charge can be accumulated on the static charge temporary storage groove again, and the next time of the film reading can be achieved by turning over and opening the two sets of temporary storage processing supports again, and the film reading is very convenient.

Drawings

Fig. 1 is a schematic view of a main view structure of a dynamically switched non-blocking observation type medical image viewer provided in the present invention;

FIG. 2 is a schematic perspective view of a part of the structure of a dynamically switched non-blocking observation type medical image viewer according to the present invention;

fig. 3 is a perspective view of a part of the structure of a dynamically switched non-blocking observation type medical image viewer in an open state according to the present invention;

FIG. 4 is a schematic diagram of a partial structure of a dynamic switching temporary storage processing module according to the present invention;

fig. 5 is a schematic diagram of a right-view structure of the dynamic switching temporary storage processing assembly and the turnover reading film accommodating mechanism provided by the present invention;

fig. 6 is a right sectional view of the dynamic switching temporary storage processing assembly and the turnover slide reading accommodating mechanism according to the present invention;

fig. 7 is a schematic left-view structural diagram of the dynamic switching temporary storage processing assembly and the flip reading accommodating mechanism according to the present invention;

fig. 8 is a partially enlarged view of a portion a of fig. 1;

fig. 9 is a partial enlarged view of a portion B of fig. 2;

fig. 10 is a partially enlarged view of a portion C of fig. 2.

Wherein, 1, dynamic switching temporary storage processing component, 2, overturning and viewing sheet containing mechanism, 3, light-transmitting observation panel, 4, built-in LED light source, 5, viewing sheet shell, 6, control panel, 7, temporary storage processing bracket, 8, temporary storage motion containing shell, 9, dynamic switching generating roller, 10, roller body containing groove, 11, temporary storage generating layer, 12, side support plate, 13, sliding guide frame, 14, dynamic switching sliding plate, 15, L-shaped groove, 16, auxiliary chute, 17, sliding running column, 18, two-stage moving connecting rod, 19, L-shaped bending connecting rod, 20, dynamic driving roller, 21, driving roller shaft, 22, driving roller bracket, 23, fixed bayonet, 24, dynamic switching driving motor, 25, motor bracket, 26, output rocker, 27, driven connecting rod, 28, vertical part, 29, horizontal part, 30, static charge temporary remaining groove, 31, CT image containing groove, 32. side slide accommodating plate, 33, turnover hinge, 34, top positioning auxiliary hole, 35, bottom positioning auxiliary hole, 36, driving roller accommodating groove, 37, auxiliary gear, 38 and auxiliary rack.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1-2, the present invention provides a dynamically switched non-shielding observation type medical image viewer, which comprises a dynamically switched temporary storage processing assembly 1, an overturning viewing housing mechanism 2, a transparent observation panel 3, a built-in LED light source 4, a viewing housing 5 and a control panel 6, wherein the built-in LED light source 4 is arranged in the viewing housing 5, the transparent observation panel 3 is embedded in the viewing housing 5, the control panel 6 is arranged on a side wall of the viewing housing 5, the overturning viewing housing mechanism 2 is arranged on two sides of the viewing housing 5, and the dynamically switched temporary storage processing assembly 1 is arranged on the overturning viewing housing mechanism 2.

As shown in fig. 2, 4-7 and 9, the dynamic switching temporary storage processing assembly 1 includes a temporary storage processing bracket 7, a temporary storage motion accommodating housing 8, a dynamic switching generation roller 9, a roll body accommodating groove 10, a temporary storage generation layer 11, a side support plate 12, a sliding guide frame 13, a dynamic switching sliding plate 14, an L-shaped groove 15, an auxiliary chute 16, a sliding motion column 17, a two-stage moving link 18, an L-shaped bending link 19, a dynamic driving roller 20, a driving roller shaft 21, a driving roller bracket 22, a fixing latch 23, a dynamic switching driving motor 24, a motor bracket 25, an output rocker 26 and a driven link 27, the temporary storage processing bracket 7 is connected to the turnover temporary storage slide accommodating mechanism 2 in a turnover manner, the temporary storage motion accommodating housing 8 is fixed to the temporary storage processing bracket 7, the roll body accommodating groove 10 is formed through the temporary storage motion accommodating housing 8, the dynamic switching generation roller 9 is arranged between inner walls of the roll body accommodating groove 10 through the shaft rotation, the temporary storage generation layer 11 is wrapped on the outer wall of the dynamic switching generation roller 9, a side support plate 12 is fixedly connected with one side of a temporary storage processing bracket 7, a sliding guide frame 13 is fixedly connected with the side support plate 12, a dynamic switching sliding plate 14 is embedded and slidably arranged on the sliding guide frame 13, an L-shaped groove 15 is penetratingly arranged on the sliding guide frame 13, the L-shaped groove 15 comprises a vertical part 28 and a horizontal part 29, the vertical part 28 is communicated with the horizontal part 29, an auxiliary chute 16 is penetratingly arranged on the dynamic switching sliding plate 14, a motor bracket 25 is fixedly connected on the temporary storage processing bracket 7, a body of a dynamic switching driving motor 24 is arranged on the motor bracket 25, an output rocker 26 is fixedly connected on the output end of the dynamic switching driving motor 24, one end of a driven connecting rod 27 is hinged on the output rocker 26, the other end of the driven connecting rod 27 is hinged on the dynamic switching sliding plate 14, a sliding motion column 17 is embedded and slidably arranged in the L-shaped groove 15 and the auxiliary chute 16, the secondary moving connecting rod 18 is fixedly connected to the sliding running column 17, the L-shaped bent connecting rod 19 is fixedly connected to the secondary moving connecting rod 18, the driving roller support 22 is fixedly connected to the L-shaped bent connecting rod 19, the driving roller shaft 21 is rotatably arranged on the driving roller support 22 in a penetrating mode, the dynamic driving roller 20 is arranged on the driving roller shaft 21, and the fixing clamping pin 23 is fixedly connected to the secondary moving connecting rod 18 in a penetrating mode.

As shown in fig. 3, 5-7 and 10, flip reader accommodating mechanism 2 includes an electrostatic charge retaining slot 30 and a CT image placing slot 31, the side is read the piece and is held board 32, upset hinge 33, top location auxiliary hole 34 and bottom location auxiliary hole 35, the side is read the piece and is held board 32 and divide two sets of rigid couplings in the both sides of reading piece shell 5, upset hinge 33 locates on the side is read the piece and is held board 32, the processing support of keeping in 7 is located on the side is read the piece and is held board 32 through upset hinge 33 upset, static charge temporary storage tank 30 locates on the side is read the piece and is held board 32, CT image standing groove 31 locates on the side is read the piece and is held board 32, static charge temporary storage tank 30 and CT image standing groove 31 are linked together, top location auxiliary hole 34 runs through and locates on the processing support of keeping in 7, bottom location auxiliary hole 35 runs through and locates on the side is read the piece and is held board 32, top location auxiliary hole 34 and bottom location auxiliary hole 35 are linked together.

As shown in fig. 6 and 8, in order to drive the dynamic driving roller 20 to rotate when the driving roller bracket 22 moves, an auxiliary gear 37 is provided at an end of the driving roller shaft 21, an auxiliary rack 38 is fixedly provided on the side supporting plate 12, and the auxiliary gear 37 and the auxiliary rack 38 are engaged with each other.

As shown in fig. 2 and 5, the temporary motion accommodation housing 8 is provided with a drive roller accommodation groove 36.

As shown in fig. 2, the fixing pin 23 enters the top positioning auxiliary hole 34 and the bottom positioning auxiliary hole 35 when moving, the roller body accommodating groove 10 and the static charge temporary holding groove 30 are communicated, the control board 6 and the built-in LED light source 4 are electrically connected, in order to increase the electrostatic adsorption effect on the CT image, the temporary storage generating layer 11 is made of chemical fiber, and the static charge temporary holding groove 30 is made of plastic.

As shown in fig. 1, two sets of the turnover reading piece accommodating mechanisms 2 are provided, and two sets of the dynamic switching temporary storage processing assemblies 1 are provided.

As shown in fig. 2, the dynamic-switching generation roller 9 and the dynamic driving roller 20 are in direct frictional contact, and the temporary-storage generation layer 11 and the electrostatic charge temporary storage tank 30 are in frictional contact.

When the dynamic switching sliding device is used specifically, after the dynamic switching driving motor 24 is controlled to be started, the output rocker 26 rotates, so that the driven connecting rod 27 swings in a reciprocating manner, the driven connecting rod 27 is hinged on the dynamic switching sliding plate 14, then the dynamic switching sliding plate 14 slides in a reciprocating manner on the sliding guide frame 13, as the sliding operation column 17 connected with the end part of the secondary moving connecting rod 18 is embedded and slides in the L-shaped groove 15 and the auxiliary chute 16 in sequence, the sliding operation column 17 is driven by the dynamic switching sliding plate 14 to slide in the sliding process, and when the sliding operation column 17 slides through the vertical part 28, the position of the sliding operation column 17 relative to the auxiliary chute 16 is not changed, in the sliding process, the sliding operation column 17 is positioned at the end part of the auxiliary chute 16, and when the sliding operation column 17 slides to the junction of the vertical part 28 and the horizontal part 29 along with the dynamic switching sliding plate 14, the dynamic switching sliding plate 14 continues to slide, and the sliding operation column 17 is driven by the auxiliary chute 16 to slide, that is, the sliding motion column 17 continues to slide along the horizontal portion 29, that is, the sliding motion column 17 moves to drive the secondary moving link 18 to move vertically and then to move horizontally in the direction of the temporary storage support 7, during which the L-shaped bending link 19 drives the dynamic driving roller 20 to move through the driving roller support 22, the auxiliary gear 37 connected to the driving roller shaft 21 rolls along the auxiliary rack 38 in a meshing manner, so that the driving roller shaft 21 rotates by itself while moving, the rotating dynamic driving roller 20 passes through the dynamic switching generation rollers 9 in the temporary storage housing 8 one by one, so that the multiple sets of dynamic switching generation rollers 9 rotate respectively, the dynamic switching generation rollers 9 pass through the roller housing groove 10 to come into frictional contact with the static charge temporary storage groove 30, the temporary storage layer 11 on the dynamic switching generation rollers 9 continuously comes into contact with the static charge temporary storage groove 30, so that the static charge is stored in the static charge temporary storage groove 30, namely, after the dynamic switching driving motor 24 is started, static charges can be continuously accumulated on the surface of the static charge temporary storage groove 30, when the CT image reading is required, two groups of temporary storage processing brackets 7 are turned over to two sides, then the temporary storage processing brackets 7 are turned over by using the turning hinge 33, at the moment, the static charge temporary storage groove 30 is completely exposed, at the moment, the CT image is placed on the CT image placing groove 31 and the static charge temporary storage groove 30 from bottom to top, so that the CT image is directly attached to the CT image placing groove 31 and the static charge temporary storage groove 30, and at the moment, the CT image is not completely shielded, and due to the adsorption effect of the static charges, the taking and the placing of the CT image are very easy, the CT image can be taken down by slightly pulling the CT image from the transparent observation panel 3 after the reading is finished, the CT image can be directly observed by starting the built-in LED light source 4 through the control panel 6, the invention solves the problem that the CT image is positioned when the CT image is read, the technical problem that the traditional positioning modes such as clamping or plugging cannot be utilized for positioning (the clamped objects are prevented from blocking the image of the CT image and influencing the reading process) is more convenient for doctors, after the reading is finished, two sets of temporary storage processing brackets 7 are turned over, when the sliding operation column 17 slides along the horizontal part 29, the driving roller bracket 22 and the dynamic driving roller 20 enter the driving roller accommodating groove 36 together, and the fixing clamping pin 23 also enters the top positioning auxiliary hole 34 and the bottom positioning auxiliary hole 35 in sequence at the moment, the dynamic switching driving motor 24 can be controlled to stop running, because the bottom positioning auxiliary hole 35 is positioned on the side reading accommodating plate 32, and when the fixing clamping pin 23 extends into the bottom positioning auxiliary hole 35, the whole temporary storage processing bracket 7 cannot be turned over, so that dust can be prevented from being accumulated on the static charge temporary storage groove 30 and the CT image accommodating groove 31, and the static charge can be accumulated on the static charge temporary storage groove 30 again by continuously starting the dynamic switching driving motor 24 before the next use, and the two groups of temporary storage processing brackets 7 can be turned over and opened again when the piece reading is used next time, so that the convenience is realized.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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 appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a piece ware is read to dynamic switching type does not have sheltering from observation formula medical image which characterized in that: temporary storage processing assembly (1), upset are read piece and are held mechanism (2), printing opacity observation panel (3), built-in LED light source (4), read piece shell (5) and control panel (6) including the dynamic switching, built-in LED light source (4) are located and are read in piece shell (5), printing opacity observation panel (3) are set in and are read on piece shell (5), control panel (6) are located and are read on the lateral wall of piece shell (5), the upset is read piece and is held mechanism (2) and locate and read the both sides of piece shell (5), dynamic switching temporary storage processing assembly (1) is located the upset and is read on piece holds mechanism (2).

2. The dynamically switched non-occlusion observation type medical image viewer according to claim 1, wherein: the dynamic switching temporary storage processing assembly (1) comprises a temporary storage processing support (7), a temporary storage motion accommodating shell (8), a dynamic switching generation roller (9), a roller body accommodating groove (10), a temporary storage generation layer (11), a side supporting plate (12), a sliding guide frame (13), a dynamic switching sliding plate (14), an L-shaped groove (15), an auxiliary chute (16), a sliding operation column (17), a secondary moving connecting rod (18), an L-shaped bending connecting rod (19), a dynamic driving roller (20), a driving roller shaft (21), a driving roller support (22), a fixed clamping pin (23), a dynamic switching driving motor (24), a motor support (25), an output rocker (26) and a driven connecting rod (27), wherein the temporary storage processing support (7) is connected in an overturning manner and arranged on an overturning film reading accommodating mechanism (2), and the temporary storage motion accommodating shell (8) is fixedly connected to the temporary storage processing support (7), the roller body accommodating groove (10) is arranged on the temporary storage motion accommodating shell (8) in a penetrating mode, the dynamic switching generation roller (9) is arranged between the inner walls of the roller body accommodating groove (10) in a rotating mode through a shaft, the temporary storage generation layer (11) is wrapped on the outer wall of the dynamic switching generation roller (9), the side supporting plate (12) is fixedly connected to one side of the temporary storage processing support (7), the sliding guide frame (13) is fixedly connected to the side supporting plate (12), the dynamic switching sliding plate (14) is arranged on the sliding guide frame (13) in a sliding mode in an embedded mode, the L-shaped groove (15) is arranged on the sliding guide frame (13) in a penetrating mode, the L-shaped groove (15) comprises a vertical portion (28) and a horizontal portion (29), the vertical portion (28) is communicated with the horizontal portion (29), and the auxiliary chute (16) is arranged on the dynamic switching sliding plate (14) in a penetrating mode, motor support (25) rigid coupling is on keeping in and handling support (7), the fuselage of dynamic switch driving motor (24) is located on motor support (25), output rocker (26) rigid coupling is on the output of dynamic switch driving motor (24), the one end of driven connecting rod (27) articulates on output rocker (26), the other end of driven connecting rod (27) articulates on dynamic switch slide (14), the slip operation post (17) gomphosis slides and locates in L shape groove (15) and supplementary chute (16), second grade removal connecting rod (18) rigid coupling is on slip operation post (17), the crooked connecting rod of L shape (19) rigid coupling is on second grade removal connecting rod (18), drive roller support (22) rigid coupling is on L shape crooked connecting rod (19), drive roller axle (21) runs through the rotation and locates on drive roller support (22), the dynamic driving roller (20) is arranged on a driving roller shaft (21), and the fixed bayonet lock (23) penetrates and is fixedly connected to the secondary moving connecting rod (18).

3. The dynamically switched non-occlusion observation type medical image viewer according to claim 2, wherein: the overturning slide reading accommodating mechanism (2) comprises an electrostatic charge temporary holding groove (30), a CT image accommodating groove (31), a side slide reading accommodating plate (32), an overturning hinge (33), a top positioning auxiliary hole (34) and a bottom positioning auxiliary hole (35), wherein the side slide reading accommodating plate (32) is divided into two groups and fixedly connected to two sides of a slide reading shell (5), the overturning hinge (33) is arranged on the side slide reading accommodating plate (32), the temporary storage processing support (7) is arranged on the side slide reading accommodating plate (32) in an overturning way through the overturning hinge (33), the electrostatic charge temporary holding groove (30) is arranged on the side slide reading accommodating plate (32), the CT image accommodating groove (31) is arranged on the side slide reading accommodating plate (32), the electrostatic charge temporary holding groove (30) is communicated with the CT image accommodating groove (31), the top positioning auxiliary hole (34) is arranged on the temporary storage processing support (7) in a penetrating way, the bottom positioning auxiliary hole (35) penetrates through the side reading sheet accommodating plate (32), and the top positioning auxiliary hole (34) is communicated with the bottom positioning auxiliary hole (35).

4. The dynamically switched non-occlusion observation type medical image viewer according to claim 3, wherein: the end of the driving roll shaft (21) is provided with an auxiliary gear (37), an auxiliary rack (38) is fixedly arranged on the side supporting plate (12), and the auxiliary gear (37) is meshed with the auxiliary rack (38).

5. The dynamically switched non-occlusion observation type medical image viewer according to claim 4, wherein: the temporary storage motion accommodating shell (8) is provided with a driving roller accommodating groove (36).

6. The dynamically switched non-occlusion observation type medical image viewer according to claim 5, wherein: the fixed clamping pin (23) enters the top positioning auxiliary hole (34) and the bottom positioning auxiliary hole (35) when moving.

7. The dynamically switched non-occlusion observation type medical image viewer according to claim 6, wherein: the roller body accommodating groove (10) is communicated with the static charge temporary storage groove (30).

8. The dynamically switched non-occlusion observation type medical image viewer according to claim 7, wherein: the control board (6) is electrically connected with the built-in LED light source (4).

9. The dynamically switched non-occlusion observation type medical image viewer according to claim 8, wherein: the turnover film reading and accommodating mechanism (2) is provided with two groups, and the dynamic switching temporary storage processing assembly (1) is provided with two groups.

10. The dynamically switched non-occlusion observation type medical image viewer according to claim 9, wherein: the temporary storage generation layer (11) is made of chemical fiber materials, the static charge temporary storage groove (30) is made of plastic materials, the dynamic switching generation roller (9) is in direct friction contact with the dynamic driving roller (20), and the temporary storage generation layer (11) is in friction contact with the static charge temporary storage groove (30).

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