CN115056474B - Traditional chinese medical science is magnetic resonance image processing device for orthopedics - Google Patents

Abstract

The invention discloses a magnetic resonance image processing device for traditional Chinese medicine orthopedics, which comprises a magnetic resonance printer, wherein an extension plate is arranged at the front end of the magnetic resonance printer, a first feeding port is formed in the top of the extension plate, a second feeding port is formed in the top of the extension plate, a collet assembly is arranged on the inner walls of the first feeding port and the second feeding port, a side slot is formed in the front end of the extension plate, a workbench is arranged on the inner wall of the extension plate, a cutting slot is formed in the outer surface of the top of the workbench, and an upper film roller is arranged on the inner wall of the first feeding port; the film roll is convenient to replace, film coating can be continuously carried out, the film coating efficiency is high, and the time of taking a film by a patient and watching the film by a doctor is not influenced; the observation of the following doctor is not affected, the magnetic resonance film is directly torn when in use, and the definition of the surface of the magnetic resonance film when in use is improved.

Description

Traditional chinese medical science is magnetic resonance image processing device for orthopedics

Technical Field

The invention relates to the technical field of medical equipment, in particular to a magnetic resonance image processing device for orthopedics department of traditional Chinese medicine.

Background

CT images and mri images can be imaged in multiple directions, and have outstanding characteristics such as high resolution to soft tissues, and are widely used for diagnosis of clinical diseases, and an essential examination method for some lesions is provided in hospitals at present.

The prior art has the following defects: after the magnetic resonance printer prints out the magnetic resonance film, some patients or family members of the patients are not put in the bag when being checked by careless or curious oneself, and the patients or family members are taken to a main doctor for watching after being rolled, the surfaces of the patients or family members are stained with dirt or scratch surfaces due to improper protection, and when the doctor watches, the magnetic resonance film is unclear, the observation effect is poor, and the judgment of the doctor is influenced;

the magnetic resonance film after the observation is not protected in time, and the surface of the film can be contaminated with dust, dirt or scratches due to improper protection when the film is reviewed later or is observed again in other hospitals, so that the judgment of the subsequent doctor is affected.

Therefore, we propose a magnetic resonance image processing device for orthopedics department of traditional Chinese medicine.

Disclosure of Invention

The invention aims to provide a magnetic resonance image processing device for orthopedics department of traditional Chinese medicine, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a traditional chinese medical science is magnetic resonance image processing apparatus for orthopedics, includes the magnetic resonance printer, the extension board is installed to the magnetic resonance printer front end, feed inlet I has been seted up at the extension board top, and still set up feed inlet II at the extension board top, the collet subassembly is all installed to feed inlet I and feed inlet II inner wall, the side fluting has been seted up to the extension board front end, the workstation is installed to the extension board inner wall, the cutting groove has been seted up to workstation top surface, feed inlet I inner wall is equipped with the upper film roller, feed inlet II inner wall is equipped with the lower film roller;

the cutting device is used for cutting the electrostatic protection film and comprises a backboard, and a rack I is arranged on the inner wall of one side of the backboard;

the inner wall of the extension plate is provided with a film pressing device for pushing and pressing the electrostatic protection film to cover the film on the magnetic resonance film, the film pressing device comprises a track plate, and the bottom of the track plate is provided with a rack II;

the inner wall of the side slot is provided with a film pulling device which is used for pulling out the electrostatic protection film from the upper film roller and the lower film roller and cutting the electrostatic protection film by matching with a cutting device; the film pulling device further comprises a rotating shaft, the outer surface of the rotating shaft is sleeved with a first duplex gear, and the rotating shaft is arranged on the inner wall of the side groove.

Preferably, the shoe assembly comprises a side plate, a pin shaft I is arranged on the inner wall of the side plate, a pin shaft I is sleeved on a roller on the outer surface of the pin shaft I, the roller is rotationally connected with the inner wall of the side plate through the pin shaft I, the number of the rollers is multiple groups, and the shape of the side plate is semicircular.

Preferably, the middle part of the workbench is convex, and the cutting groove is arranged right below the cutting assembly.

Preferably, the bottom of the rack II is meshed with the gear II, one end of the gear II is fixedly connected with the output end of the servo motor II, the bottom of the servo motor II is provided with the electric telescopic rod I, and the bottom of the electric telescopic rod I is fixedly connected with the film pressing roller.

Preferably, one side of the rack is meshed with the first gear, one end of the first gear is fixedly connected with an output end of the servo motor, an extension rod is installed at the bottom of the first servo motor, a cutting assembly is arranged at the bottom end of the extension rod, and a heating assembly is installed at the front end of the backboard.

Preferably, the cutting assembly comprises a copper wire, a bending baffle is arranged at the top of the copper wire, the heating assembly comprises a heater, a heat conducting rod is arranged at the output end of the heater, and the bottom end of the heat conducting rod is welded with the copper wire.

Preferably, the first outer surface of the duplicate gear is meshed with the toothed belt, the inner wall of one end of the toothed belt is meshed with the second duplicate gear, the third servo motor is arranged at the bottom end of the second duplicate gear, and the clamping assembly is arranged outside the toothed belt.

Preferably, the number of the clamping assemblies is three, the distances among the three groups of the clamping assemblies are equal, and the distance is the film length when each magnetic resonance imaging film is covered.

Preferably, the clamping assembly comprises a limiting plate, a second pin shaft is arranged on the inner side of the limiting plate, clamping plates are arranged on the outer surface of the pin shaft in a sleeved mode, the number of the clamping plates is two, the two clamping plates are connected with a second electric telescopic rod through a first chain plate and a second chain plate respectively, and the limiting plate and the second electric telescopic rod are installed on the outer side of the toothed belt.

Compared with the prior art, the invention has the beneficial effects that:

1. the film coating work can be carried out when the magnetic resonance imaging is printed out, so that the magnetic resonance imaging is effectively protected in time; the film roll is convenient to replace, film coating can be continuously carried out, the film coating efficiency is high, and the time of taking a film by a patient and watching the film by a doctor is not influenced;

2. the film is directly torn when in use, the normal use of the magnetic resonance film is not influenced, the definition of the surface of a doctor when observing the magnetic resonance film is improved, the application range is wide, and the practicability is strong.

Drawings

FIG. 1 is a schematic diagram of a part of a magnetic resonance printer housing according to the present invention;

FIG. 2 is a schematic diagram of a magnetic resonance printer according to the present invention;

FIG. 3 is a schematic view of a shoe assembly according to the present invention;

FIG. 4 is a schematic diagram of a film pulling device according to the present invention;

FIG. 5 is a schematic view of a clamping assembly according to the present invention;

FIG. 6 is a schematic view of a cutting assembly according to the present invention;

FIG. 7 is a schematic diagram of a film pressing device according to the present invention;

FIG. 8 is a schematic diagram of the resonant printer of the present invention in use.

In the figure: 1. a magnetic resonance printer; 2. an extension plate; 21. a first feeding port; 22. a second feeding port; 3. a shoe assembly; 31. a side plate; 32. a pin shaft I; 33. a roller; 34. side grooving; 35. a work table; 36. cutting a groove; 23. a film feeding roller; 24. a lower film roll; 4. a cutting device; 41. a back plate; 42. a first rack; 43. gear one 43; 44. a servo motor I; 45. an extension rod; 5. a cutting assembly; 51. copper wires; 52. bending the baffle; 6. a heating assembly; 61. a heater; 62. a heat conduction rod; 7. a film pressing device; 705. a track plate; 71. a second rack; 72. a second gear; 73. a servo motor II; 74. an electric telescopic rod I; 75. film pressing rollers; 8. a film pulling device; 81. a rotating shaft; 82. a toothed belt; 83. a first duplex gear; 84. a second duplex gear; 85. a servo motor III; 9. a clamping assembly; 91. a limiting plate; 92. a second pin shaft; 93. a clamping plate; 94. a first chain plate; 95. a second chain plate; 96. and an electric telescopic rod II.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a traditional chinese medical science is magnetic resonance image processing apparatus for orthopedics department, including magnetic resonance printer 1, magnetic resonance printer 1 installs extension board 2 in the front end, the pan feeding mouth first 21 has been seted up at extension board 2 top, and the pan feeding mouth second 22 has still been seted up at extension board 2 top, collet assembly 3 is all installed to pan feeding mouth first 21 and pan feeding mouth second 22 inner wall, side fluting 34 has been seted up to extension board 2 front end, workstation 35 has been installed to extension board 2 inner wall, cutting groove 36 has been seted up to workstation 35 top surface, the inner wall of pan feeding mouth first 21 is equipped with upper film roll 23, the inner wall of pan feeding mouth second 22 is equipped with lower film roll 24;

the inner wall of the extension plate 2 is provided with a cutting device 4 for cutting the electrostatic protection film, the cutting device 4 comprises a back plate 41, and the inner wall of one side of the back plate 41 is provided with a rack I42;

the inner wall of the extension plate 2 is provided with a film pressing device 7 for pressing the electrostatic protection film to cover the film on the magnetic resonance film, the film pressing device 7 comprises a track plate 705, and the bottom of the track plate 705 is provided with a rack II 71;

the inner wall of the side slot 34 is provided with a film pulling device 8 for pulling out the electrostatic protection film from the upper film roller 23 and the lower film roller 24 and cutting the electrostatic protection film by matching with the cutting device 4; the film drawing device 8 further comprises a rotating shaft 81, a duplicate gear I83 is sleeved on the outer surface of the rotating shaft 81, and the rotating shaft 81 is arranged on the inner wall of the side groove 34.

Further, the bottom bracket assembly 3 comprises a side plate 31, a pin shaft 32 is arranged on the inner wall of the side plate 31, rollers 33 are sleeved on the outer surface of the pin shaft 32, the rollers 33 are rotationally connected with the inner wall of the side plate 31 through the pin shaft 32, the number of the rollers 33 is set to be multiple groups, the shape of the side plate 31 is set to be semicircular, in real-time use, firstly, an upper film roller 23 and a lower film roller 24 wound with an electrostatic protection film are respectively inserted through a first feed inlet 21 and a second feed inlet 22 of the extension plate 2, so that two ends of the upper film roller 23 and the lower film roller 24 are lapped on the bottom bracket assembly 3, and when the electrostatic protection film is pulled out, the upper film roller 23 and the lower film roller 24 rotate through the rollers 33 on the bottom bracket assembly 3, sliding friction is changed into rolling film friction, friction force is reduced, and the upper film roller 23 and the lower film roller 24 can be pulled out more easily;

and, the benefit of this design is that, conveniently dismantle, when a set of upper film roller 23 and lower film roller 24 are used up, directly lift up the last film roller 23 of using up and lower film roller 24 next, insert new upper film roller 23 and lower film roller 24 into feed inlet one 21 and feed inlet two 22, until stopping on collet assembly 3, accomplish the material loading operation.

Furthermore, the middle part of the workbench 35 is convex, so that the electrostatic protection film around the magnetic resonance imaging sheet is not tightly attached during film pressing, a doctor can directly tear the electrostatic protection film through the film edges of the periphery of the magnetic resonance imaging sheet when observing the magnetic resonance imaging sheet, the cutting groove 36 is arranged under the cutting assembly 5,

further, the outer surface of the first duplex gear 83 is meshed with the toothed belt 82, one end inner wall of the toothed belt 82 is meshed with the second duplex gear 84, the third servo motor 85 is installed at the bottom end of the second duplex gear 84, the clamping assemblies 9 are installed on the outer side of the toothed belt 82, the number of the clamping assemblies 9 is three, the distances among the three groups of the clamping assemblies 9 are equal, the distance is the film length when each magnetic resonance film is covered, the clamping assemblies 9 comprise limiting plates 91, pin shafts II 92 are arranged on the inner sides of the limiting plates 91, clamping plates 93 are sleeved on the outer surfaces of the pin shafts II 92, the number of the clamping plates 93 is two, the two groups of the clamping plates 93 are respectively connected with the second electric telescopic rods 96 through chain plates I94 and II 95, and the limiting plates 91 and the second electric telescopic rods 96 are installed on the outer sides of the toothed belt 82;

in real-time use, firstly, a worker manually pulls out the electrostatic protection films on the upper film roller 23 and the lower film roller 24, pulls two layers of electrostatic protection films into the clamping assemblies 9 in the film pulling device 8 at the inner side of the extension plate 2 respectively, and then the clamping assemblies 9 retract backwards by starting the electric telescopic rod II 96, and as the chain plate I94 and the chain plate II 95 are hinged with the end parts of the electric telescopic rod II 96 and are respectively connected with the end parts of the electric telescopic rod II 96 and the two groups of clamping plates 93 in a rotating way, at the moment, the two groups of clamping plates 93 rotate towards the middle to clamp the electrostatic protection films, and after preparation work is completed;

further, the rotating shaft 81 is arranged on the inner wall of the side slot 34, the number of the clamping assemblies 9 is three, the distances between the three groups of clamping assemblies 9 are equal, the distance is the film length when each magnetic resonance film is coated, in real-time use, a worker puts the negative film into the magnetic resonance printer 1 from the inlet, after the magnetic resonance film is printed out by the magnetic resonance printer 1, the magnetic resonance film can directly slide out from the magnetic resonance printer 1 film outlet due to self gravity until the magnetic resonance film slides to the middle of the upper layer and the lower layer of electrostatic protection film, the magnetic resonance film falls on the upper surface of the lower layer of electrostatic protection film, then the servo motor three 85 in the film pulling device 8 is started, the two groups of clamping assemblies 84 are driven to rotate, the two groups of clamping assemblies 84 drive the toothed belt 82 and the two groups of the first gear 83 to rotate simultaneously, the rotating shaft 81 limits, the clamping assemblies 9 outside the toothed belt 82 clamp the two layers of electrostatic protection film outwards, and drive the magnetic resonance film to move outwards until the two layers of electrostatic protection film cover the top and the bottom of the magnetic resonance film to cover the top and bottom of the magnetic resonance film, and then the three groups of the servo motor are stopped, and simultaneously the tail end of the two groups of the clamping assemblies 9 of the toothed belt 82 are stopped, and the other end of the electrostatic protection assembly is just clamped by the second groups 9, and the other end of the clamping assembly is also clamped by the end of the electrostatic protection assembly 9, and the end of the clamping assembly is still in the position of the second clamping assembly 9;

furthermore, one side of the first rack 42 is meshed with the first gear 43, one end of the first gear 43 is fixedly connected with the output end of the first servo motor 44, the bottom of the first servo motor 44 is provided with the extension rod 45, the bottom end of the extension rod 45 is provided with the cutting assembly 5, the front end of the back plate 41 is provided with the heating assembly 6, the cutting assembly 5 comprises a copper wire 51, the top of the copper wire 51 is provided with the bending baffle 52, the heating assembly 6 comprises a heater 61, the output end of the heater 61 is provided with a heat conducting rod 62, the bottom end of the heat conducting rod 62 is welded with the copper wire 51, in real-time use, the cutting assembly 5 is started, the heater 61 in the heating assembly 6 is started, the heat conducting rod 62 is heated, heat is transferred to the copper wire 51, then the first servo motor 44 drives the first gear 43 to rotate, the extension rod 45 is driven to move downwards on the first rack 42 meshed with the first servo motor, and the extension rod 45 is driven to press the copper wire 51 downwards, until the copper wire 51 reaches two layers of electrostatic protection films, the films are fused by self heat to achieve a cutting effect, finally, the copper wire 51 enters the cutting groove 36, after cutting is finished, one end of the upper layer of protection film is no longer connected with the films and falls on the surface of the magnetic resonance film forming sheet, meanwhile, the cutting device 4 is arranged between the clamping component 9 clamping the electrostatic protection film at the tail part of the magnetic resonance film forming sheet and the film pressing device 7, the end which is just cut and left on the upper film roller 23 and the lower film roller 24 is still clamped by the clamping component 9 at the moment, preparation is made for the next film pasting, the effect of continuously pasting the films is achieved, two sides of the bending baffle plate 52 at the top of the copper wire 51 are fixed on the extension rod 45, the effect of preventing the copper wire 51 from scraping the film surface and scalding the electrostatic protection film when the cut film is retracted upwards is achieved, the material is a ceramic sheet with poor heat conductivity;

further, the bottom of the second rack 71 is meshed with the second gear 72, one end of the second gear 72 is fixedly connected with the output end of the second servo motor 73, the bottom of the second servo motor 73 is provided with the first electric telescopic rod 74, the bottom end of the first electric telescopic rod 74 is fixedly connected with the film pressing roller 75, in real-time use, after the cutting device 4 cuts off two layers of electrostatic protection films on the upper and lower parts of the magnetic resonance film forming piece, firstly the film pressing device 7 starts to start the first electric telescopic rod 74 to push the film pressing roller 75 downwards until the film pressing roller 75 is tightly pressed on the layer of electrostatic protection film on the top of the magnetic resonance film forming piece, at this time, the film pressing device 7 starts the second servo motor 73 to drive the second gear 72 to rotate, the second gear 72 moves to one side on the second rack 71 meshed with the second gear to drive the film pressing roller 75 to perform film covering work on the two layers of electrostatic protection films and the magnetic resonance film forming piece, and at this time, under the film covering film pressing of the film pressing roller 75 is directly adhered by static electricity carried by the self, so that the upper and lower layers of electrostatic protection films are adhered on the surface of the magnetic resonance film forming piece at this time, and the magnetic resonance film forming piece is protected, and the doctor is prevented from damaging the magnetic resonance film forming piece before the doctor.

Working principle:

the electrostatic protection film installation process comprises the following steps: firstly, an upper film roller 23 and a lower film roller 24 wound with an electrostatic protection film are respectively inserted through a first feed inlet 21 and a second feed inlet 22 of an extension plate 2, so that two ends of the upper film roller 23 and the lower film roller 24 are lapped on a collet assembly 3, when the electrostatic protection film is pulled out, the upper film roller 23 and the lower film roller 24 rotate through a roller 33 on the collet assembly 3, sliding friction is changed into rolling film friction, friction force is reduced, and the upper film roller 23 and the lower film roller 24 can be pulled out more easily;

film changing operation: when one group of upper film roller 23 and lower film roller 24 are used up, the used up upper film roller 23 and lower film roller 24 are directly lifted up, and new upper film roller 23 and lower film roller 24 are inserted into the first feed inlet 21 and the second feed inlet 22 until staying on the bottom bracket component 3, so as to complete the feeding operation;

the middle part of the workbench 35 is in a convex shape, so that the electrostatic protection film around the magnetic resonance imaging sheet is not tightly attached during film pressing, and a doctor can directly tear the electrostatic protection film through the film edges of the periphery of the magnetic resonance imaging sheet when observing the magnetic resonance imaging sheet.

Preparation: firstly, a worker manually pulls out the electrostatic protection films on the upper film roller 23 and the lower film roller 24, pulls two layers of electrostatic protection films into the clamping assemblies 9 in the film pulling device 8 at the inner side of the extension plate 2 respectively, and the clamping assemblies 9 shrink backwards by starting the electric telescopic rods II 96, and as the chain plate I94 and the chain plate II 95 are hinged with the end parts of the electric telescopic rods II 96 and are respectively connected with the end parts of the electric telescopic rods II 96 and the two groups of clamping plates 93 in a rotating way, the two groups of clamping plates 93 rotate towards the middle to clamp the electrostatic protection films, and after preparation work is completed;

film drawing work: after the magnetic resonance printer 1 prints out the magnetic resonance film, the magnetic resonance film can slide out of the film outlet of the magnetic resonance printer 1 directly due to self gravity until the magnetic resonance film slides to the middle of the upper layer of electrostatic protection film and the lower layer of electrostatic protection film, the magnetic resonance film falls on the upper layer of electrostatic protection film, then a servo motor III 85 in a film pulling device 8 is started to drive a duplex gear II 84 to rotate, the duplex gear II 84 drives a toothed belt 82 and a duplex gear I83 to rotate simultaneously, a rotating shaft 81 is limited, a clamping assembly 9 outside the toothed belt 82 clamps the two layers of electrostatic protection films to pull out outwards, and drives the magnetic resonance film to move outwards together until the two layers of electrostatic protection films cover the top and the bottom of the magnetic resonance film, a servo motor III 85 stops running, and simultaneously during the rotation of the toothed belt 82, the clamping assembly 9 on the other side of the toothed belt 82 just stays at the position of the clamping assembly 9, and simultaneously a motor telescopic rod II 96 on the clamping assembly 9 is started to clamp the electrostatic protection film on the tail end part of the magnetic resonance film;

cutting: then the cutting assembly 5 is started, the heater 61 in the heating assembly 6 is started, the heat conducting rod 62 is heated, heat is transferred to the copper wire 51, then the first servo motor 44 drives the first gear 43 to rotate, the first gear 42 which is meshed with the first servo motor moves downwards, the extension rod 45 is driven to press the copper wire 51 downwards until the copper wire 51 reaches two layers of electrostatic protection films, the films are fused to achieve a cutting effect through self heat, finally the copper wire 51 enters the cutting groove 36, after cutting is finished, one end of the upper layer of protection films is not connected with the films and falls on the surface of the magnetic resonance film forming piece, meanwhile, the cutting device 4 is arranged between the clamping assembly 9 which clamps the electrostatic protection films at the tail part of the magnetic resonance film forming piece and the film pressing device 7, so that the end of the upper film roller 23 and the lower film roller 24 which are just cut is still clamped by the clamping assembly 9 at the moment, preparation is made for the next film pasting, the effect of continuous film pasting is achieved, two sides of the upper part of the copper wire 51 are fixed on the extension rod 45, the effect of preventing the copper wire 51 from being broken is achieved, and the film is cut up to the surface of the ceramic film is cut, and the ceramic film is cut up and the ceramic film is poor in heat conductivity;

film pressing work: after the cutting device 4 cuts off two layers of electrostatic protection films on the upper and lower parts of the magnetic resonance imaging sheet, firstly, the film pressing device 7 starts to start the electric telescopic rod 74 to push the film pressing roller 75 downwards until the film pressing roller 75 is tightly pressed on the layer of electrostatic protection film on the top of the magnetic resonance imaging sheet, at this time, the film pressing device 7 starts the servo motor II 73 to drive the gear II 72 to rotate, the gear II 72 moves to one side on the rack II 71 which is in meshed connection with the servo motor II, the film pressing roller 75 is driven to carry out film laminating work on the two layers of electrostatic protection films and the magnetic resonance imaging sheet, and because the electrostatic protection films are directly adhered by static electricity carried by the electrostatic protection films, at this time, the upper and lower layers of electrostatic protection films are adhered on the surface of the magnetic resonance imaging sheet, so that the magnetic resonance imaging sheet is protected, and damage to the magnetic resonance imaging sheet is prevented before a main doctor is seen;

finally, after the doctor is finished, the magnetic resonance printer 1 can be directly adjusted to be in a film coating mode, namely the printing system does not work any more, the doctor directly enters from the inlet and exits from the outlet of the magnetic resonance printer 1 in the same mode again, and film coating work is performed in the same mode, so that the loss prevention effect of later-stage patient preservation is achieved.

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.

Claims (7)

1. The utility model provides a traditional chinese medical science orthopedics is with magnetic resonance image processing device, includes magnetic resonance printer (1), extension board (2) are installed to magnetic resonance printer (1) front end, pan feeding mouth one (21) have been seted up at extension board (2) top, and pan feeding mouth two (22) have still been seted up at extension board (2) top, its characterized in that: the automatic feeding device is characterized in that the inner walls of the first feeding port (21) and the second feeding port (22) are respectively provided with a bottom bracket component (3), the front end of the extension plate (2) is provided with a side slot (34), the inner wall of the extension plate (2) is provided with a workbench (35), the outer surface of the top of the workbench (35) is provided with a cutting slot (36), the inner wall of the first feeding port (21) is provided with an upper film roller (23), and the inner wall of the second feeding port (22) is provided with a lower film roller (24);

the cutting device (4) is arranged on the inner wall of the extension plate (2) and used for cutting the electrostatic protection film, the cutting device (4) comprises a back plate (41), and a rack I (42) is arranged on the inner wall of one side of the back plate (41);

a film pressing device (7) is arranged on the inner wall of the extension plate (2) and used for pushing and pressing the electrostatic protection film to cover the film on the magnetic resonance film, the film pressing device (7) comprises a track plate (705), and a rack II (71) is arranged at the bottom of the track plate (705);

the inner wall of the side slot (34) is provided with a film pulling device (8) which is used for pulling out the electrostatic protection film from the upper film roller (23) and the lower film roller (24) and cutting by matching with the cutting device (4); the film drawing device (8) further comprises a rotating shaft (81), a duplicate gear I (83) is sleeved on the outer surface of the rotating shaft (81), and the rotating shaft (81) is arranged on the inner wall of the side groove (34);

the bottom bracket assembly (3) comprises a side plate (31), a pin shaft I (32) is arranged on the inner wall of the side plate (31), rollers (33) are sleeved on the outer surface of the pin shaft I (32), the rollers (33) are rotationally connected with the inner wall of the side plate (31) through the pin shaft I (32), the number of the rollers (33) is multiple, and the shape of the side plate (31) is semicircular;

one side of the rack I (42) is meshed with the gear I (43), one end of the gear I (43) is fixedly connected with the output end of the servo motor I (44), an extension rod (45) is installed at the bottom of the servo motor I (44), a cutting assembly (5) is arranged at the bottom end of the extension rod (45), and a heating assembly (6) is installed at the front end of the backboard (41).

2. The magnetic resonance image processing device for orthopedics department of traditional Chinese medicine according to claim 1, wherein: the middle part of the workbench (35) is in a convex shape, and the cutting groove (36) is arranged right below the cutting assembly (5).

3. A magnetic resonance image processing apparatus for orthopedics department of traditional Chinese medicine according to claim 2, wherein: the bottom of the rack II (71) is meshed with the gear II (72), one end of the gear II (72) is fixedly connected with the output end of the servo motor II (73), the bottom of the servo motor II (73) is provided with the electric telescopic rod I (74), and the bottom end of the electric telescopic rod I (74) is fixedly connected with the film pressing roller (75).

4. A magnetic resonance image processing apparatus for orthopedics department of traditional Chinese medicine according to claim 3, wherein: cutting assembly (5) include copper wire (51), buckling baffle (52) are installed at copper wire (51) top, heating assembly (6) are including heater (61), heat conduction stick (62) are installed to heater (61) output, heat conduction stick (62) bottom and copper wire (51) welding.

5. The magnetic resonance image processing device for orthopedics department of traditional Chinese medicine according to claim 1, wherein: the outer surface of the first duplex gear (83) is meshed with the toothed belt (82), one end inner wall of the toothed belt (82) is meshed with the second duplex gear (84), a third servo motor (85) is arranged at the bottom end of the second duplex gear (84), and a clamping assembly (9) is arranged on the outer side of the toothed belt (82).

6. The magnetic resonance image processing device for orthopedics department of traditional Chinese medicine according to claim 5, wherein: the number of the clamping assemblies (9) is three, the distances among the three groups of the clamping assemblies (9) are equal, and the distance is the film length when each magnetic resonance film is formed.

7. The magnetic resonance image processing device for orthopedics department of traditional Chinese medicine according to claim 6, wherein: clamping component (9) are including limiting plate (91), limiting plate (91) inboard is equipped with round pin axle two (92), round pin axle two (92) surface external member splint (93), the quantity of splint (93) sets up to two sets of, two sets of splint (93) are respectively through link joint one (94) and link joint two (95) connect electric telescopic handle two (96), limiting plate (91) and electric telescopic handle two (96) are installed in the toothed belt (82) outside.

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