CN212261499U

CN212261499U - First-collimation type femoral neck surgery central axis minimally invasive mechanical navigation system

Info

Publication number: CN212261499U
Application number: CN202021672845.2U
Authority: CN
Inventors: 邓迎生
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-12
Filing date: 2020-08-12
Publication date: 2021-01-01
Anticipated expiration: 2030-08-12

Abstract

The utility model belongs to an orthopedic surgery equipment technical field relates to a first accurate thighbone neck surgery axis wicresoft machinery navigation, including thighbone neck location hook connection component, adapter, porous location deflector, the location director, slide bar right angle adapter, axis location direction component, thighbone neck location hook connection component passes through vertical connecting rod and is connected with the adapter, and porous location deflector sets up on the adapter, slide bar right angle adapter respectively with porous location deflector, the location director is connected, axis location direction component setting is on the location director. The utility model discloses can objectively accurately match neck shaft angle, anteversion angle and preceding torsion angle completely, again through the center of thighbone neck, guaranteed the accuracy of this thighbone neck surgery axis, realize that the nail is put to first formula, the rate of accuracy is high, adopts simultaneously to dismantle the structure, and the disinfection used repeatedly after being convenient for perform the operation, simple structure, the function is various.

Description

First-collimation type femoral neck surgery central axis minimally invasive mechanical navigation system

Technical Field

The utility model belongs to the technical field of bone surgery equipment, a femoral neck fracture treatment auxiliary assembly is related to, specifically an initial formula femoral neck surgery axis wicresoft mechanical navigation.

Background

In the hip protection treatment of femoral neck fracture, the hollow nail fixing operation is still the preferred scheme, the hollow nail guide needle is embedded into the hollow nail guide needle, the core technology and the operation difficulty are difficult, no matter in the open reduction direct-vision hollow nail fixing or steel plate internal fixation operation or minimally invasive percutaneous hollow nail fixing operation, the hollow nail guide needle is safe, accurate and reasonable in spatial configuration, radiation is avoided or reduced, and the hollow nail guide needle is successfully embedded into the hollow nail guide needle once, and the hollow nail guide needle is always a research hotspot and continuous pursuit of orthopedics doctors.

At present, the mainstream technology in clinical practice is still based on visual inspection and estimation to drill 1 guide pin at the proximal end of femur, then repeatedly see through the right side position of femoral neck by a C-arm X-ray machine, and by using the position of the guide pin in the femoral neck as a reference, the nail feeding point, direction and length of the guide pin are estimated to drill 3-5 guide pins, and the position, direction and length of each guide pin are repeatedly seen through and adjusted until the 3 guide pins reach the proper position under the see-through, the 3 guide pins are respectively screwed in 1 hollow nail along the 3 guide pins, and the whole operation process is operated by the hand feeling of a master surgeon and the bare hand under the repeated see-through monitoring of the C-arm X-ray machine, so that the precision of the nail feeding point, direction and position of each hollow nail is poor, the spatial distribution of the 3 hollow nails cannot be accurately controlled, the length and the bone-cortex holding force of the screws have no objective standard, and the proximal end quality and the cartilage of the femur and the acetabulum cartilage are easily damaged, Iatrogenic fracture and other side injuries. During operation, once the guide needle cannot be successfully placed in one time (firstly, accurately, or just for short), the original needle path is easy to enter during adjustment, and the adjustment difficulty is greatly increased; repeated adjustment can greatly reduce the holding force of the hollow nail, and cause complications such as loosening, withdrawing, breaking and the like of the screw. In the face of a large number of cases of nail placing failure, the first-level nail placing needs to be solved urgently.

Currently, the mainstream academic view suggests that the ideal fixation is the orientation of the plurality of cannulated nails parallel to the central axis of the femoral neck. Therefore, the accurate finding of the femoral neck surgical central axis in the operation is the premise of ideal fixation; however, because the proximal femur has a complicated anatomical structure and an extremely irregular shape, and has individualized differences in the angle of the shaft of the neck, the angle of the anteversion and the angle of the anterior torsion, there is still a great challenge to find the central axis line in the operation, which is a straight line parallel to the three angles and located in the center of the narrow part of the femur neck.

Various guide positioning devices designed by scholars at home and abroad try to accurately place hollow nails by means of matching specific anatomical marks, cervical shaft angles, anteverted angles and the like at the proximal ends of thighbones, but due to individual anatomical differences, insufficient understanding of anterior torsion angles, limitation of precision of angle reference positioning and the like, placement errors of hollow nail guide needles are still large, and the hollow nail guide needles cannot meet surgical requirements and cannot be popularized. The infrared navigation technology combined with the C-shaped arm X-ray machine improves the accuracy of nail placement, but due to the reasons of error, high price, excessive dependence on rays, long operation time and the like of a navigation system, the popularization and the use of the infrared navigation technology in China are limited. In addition, in clinical surgery, the navigation technique cannot accurately measure the distance from the center of the guide pin or the thread of the hollow nail to the cortical bone, nor can it be determined whether the guide pin reaches the subchondral bone. The use of navigation in anatomical studies is also limited.

In summary, the current research on the central axis of the first-class femoral neck surgery is not easy and crucial, but lacks both ideas and technical equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's weak point, provide one kind and look for the point of advance N through the point of advance location director, match completely behind neck shaft angle, anteversion angle and the preceding torsion angle of femoral neck, look for mid point (preceding) P of footpath about the femoral neck isthmus as the mark point, use one half of the footpath all around of femoral neck isthmus as the offset, utilize the perpendicular offset method of fixed point, once only succeed in confirming the first accurate femoral neck surgery axis minimal access mechanical navigation system of femoral neck surgery axis.

The utility model discloses the technical scheme who adopts:

a first-level femoral neck surgical central axis minimally invasive mechanical navigation system comprises a femoral neck positioning hook connecting component, an adapter, a porous positioning guide plate, a positioning guider, a slide bar right-angle adapter and a central axis positioning guide component;

the femoral neck positioning hook connecting component comprises a positioning block, a horizontal transverse positioning groove and a vertical connecting hole which penetrate through the positioning block and are staggered with each other are arranged on the positioning block, a positioning hook is movably arranged in the positioning groove, a locking component for locking the positioning hook is arranged on the positioning groove, the positioning hook can be locked and fixed by the locking component after moving left and right in the positioning groove to a proper position, the positioning hook comprises a connecting section and a functional section, the connecting section is movably arranged in the positioning groove, a right-angle hook is arranged at the front end of the functional section, a plurality of vertical guide pin holes are arranged at the position close to the front end, and a plurality of vertical calibration holes are arranged at the position close to the connecting section; the vertical connecting rod is movably arranged in the vertical connecting hole, a locking assembly used for locking the vertical connecting rod is arranged on the vertical connecting hole, and the vertical connecting rod can be locked and fixed by the locking assembly after the vertical connecting rod moves up and down in place in the vertical connecting hole; the positioning block is provided with a positioning measuring hole in the same direction as the positioning groove, the positioning measuring hole is positioned below the positioning groove, the positioning measuring hole is movably provided with a probe, and the positioning hook and the probe can be used for multi-point measurement, so that whether the hooking position of the positioning hook is accurate or not is finally determined, the upper and lower diameters of the femoral neck isthmus can be measured, and the middle point of the upper and lower diameters of the front cortex of the femoral neck isthmus is found;

the universal joint is characterized in that a horizontal transverse mounting hole and a vertical connecting hole which penetrate through the adapter and are staggered with each other are formed in the adapter, a vertical connecting rod on the femoral neck positioning hook connecting component penetrates through the vertical connecting hole in the adapter, so that the adapter is positioned above the femoral neck positioning hook connecting component, the transverse mounting hole in the adapter is in the same direction as and above a positioning groove on a positioning block of the femoral neck positioning hook connecting component, a porous positioning guide plate is movably arranged in the transverse mounting hole, and locking assemblies are arranged on the transverse mounting hole and the vertical mounting hole and are respectively used for locking the porous positioning guide plate and the vertical connecting rod;

the multi-hole positioning guide plate is composed of a connecting section and a functional section, the connecting section is movably arranged in a transverse mounting hole of the adapter, the front end of the functional section is provided with a connecting port vertical to the functional section, a plurality of vertical guide pin holes are arranged at a position close to the front end, a plurality of vertical calibration holes are arranged at a position close to the connecting section, the vertical guide pin holes and the vertical calibration holes on the multi-hole positioning guide plate are respectively in one-to-one correspondence with the vertical guide pin holes and the calibration holes on the positioning hook of the femoral neck positioning hook connecting component, the distance between any vertical guide pin hole and any vertical calibration hole on the multi-hole positioning guide plate is equal to the distance between the corresponding vertical guide pin hole and the corresponding vertical calibration hole on the positioning hook, a calibration pin is movably arranged on the vertical calibration holes, the position of the connecting section in the transverse mounting hole of the adapter is adjusted, so that the calibration pin on the vertical calibration hole is vertically downward and inserted, therefore, the vertical guide pin holes on the porous positioning guide plate are positioned right above the corresponding vertical guide pin holes on the positioning hooks of the femoral neck positioning hook connecting component (the more the number of the calibration holes is, the higher the alignment accuracy of the porous positioning guide plate and the positioning hooks is, the more accurate the upper and lower vertical guide pin holes are in correspondence), and the locking assembly is arranged on the connecting port;

the positioning guider comprises a positioning head, a plurality of horizontal guide pin holes are formed in the positioning head, the direction of the horizontal guide pin holes is vertical to the direction of a positioning hook on a femoral neck positioning hook connecting component (the extension lines of the horizontal projection of the horizontal guide pin holes and the positioning hook are perpendicular to each other), a position-adjustable vertical rod is arranged on the positioning head, the position adjusting direction is the same as the direction of the positioning hook (namely the direction perpendicular to the horizontal guide pin holes), generally speaking, the position adjusting mode in the mechanical industry is various, for example, a sliding groove is formed in the positioning head, a clamping block matched with the sliding groove is arranged at the lower part of the vertical rod, and the vertical rod is locked and fixed by a locking assembly after being moved to the right position; a slide bar right-angle adapter is arranged on the vertical rod;

the slide bar right-angle adapter is composed of a vertical connector and a fixed rod perpendicular to the connector, a moving port and a locking assembly are arranged on the connector, the moving port of the connector is sleeved on the vertical rod of the positioning guider, the fixed rod extends outwards (the extending direction is consistent with the direction of a horizontal guide pin hole on the positioning guider) and is sleeved in a connecting port at the front end of the functional section of the porous positioning guide plate, the connector is vertically moved in place on the vertical rod of the positioning guider, then the slide bar right-angle adapter is locked and fixed by the locking assembly, and meanwhile, the fixed rod is locked and fixed by the locking assembly on the connecting port;

the axis location direction component is including being the slide bar of "L" type of falling, the slide bar comprises vertical end and horizontal end, wherein vertical end sets up on the location director, the activity is provided with porous accent to slider and anteverted angle auxiliary measurement slider on the horizontal end, anteverted angle auxiliary measurement slider is located the one side that is close to vertical end, the direction of horizontal end is the same with the dead lever direction of slide bar right angle adapter, it all sets up a plurality of vertical guide pin holes to adjust to the slider and anteverted angle auxiliary measurement slider in porous, the distribution mode that porous accent was unanimous to the vertical guide pin hole that sets up on the vertical guide pin hole that sets up and the porous location deflector that sets up on the slider, when porous accent was adjusted directly over the porous location deflector promptly to the slider, each vertical guide pin hole that porous accent was adjusted on the slider all is located the vertical guide pin hole that corresponds directly over. The forward rake angle auxiliary measuring slide block is moved, and after the forward rake angle auxiliary measuring slide block is in place, the device can be objectively and accurately matched with the forward rake angle and the forward torsion angle by using the guide pin.

A further technical scheme is, the design of location hook is composite structure, including right angle hook and the porous locating plate that is down "L" shape, right angle hook and porous locating plate constitute by linkage segment and functional section, wherein vertical guide pin hole, vertical calibration hole all sets up on the functional section of porous locating plate, all set up the screw hole that the position corresponds on right angle hook and the porous locating plate (the position that sets up of screw hole generally all is on the linkage segment), be provided with fixing bolt on the screw hole, the screw hole on screwing in right angle hook and the porous locating plate with fixing bolt can make right angle hook and porous locating plate fix side by side and make up into the location hook together.

The further technical scheme is that the positioning hooks, the porous positioning guide plate and the vertical guide pin holes in the porous direction-adjusting slider are linearly arranged, and the rows are arranged in a staggered manner from left to right or from right to left. Because the vertical guide pin hole has certain aperture, can't correspond a certain specific size accurately, only be with vertical guide pin hole be the linear range, and arrange with arranging from left to right or from right to left dislocation set between the row, just can make a certain vertical guide pin hole correspond a certain size as far as possible within the scope that the error allows.

The further technical scheme is that the locking assembly is a bolt fixing assembly, if the locking assembly is arranged on the adapter, the locking assembly comprises a locking bolt and a bolt hole which is arranged in any direction of the adapter, communicated with the transverse mounting hole or the vertical connecting hole and vertical to the transverse mounting hole or the vertical connecting hole, and the locking bolt penetrates through the bolt hole to abut against a porous positioning guide plate or a vertical connecting rod which is tightly pressed in the transverse mounting hole or the vertical connecting hole, so that the porous positioning guide plate or the vertical connecting rod is prevented from shifting, and the locking fixing effect is achieved.

The technical scheme is that fastening fixture blocks are arranged on two sides of the porous direction-adjusting sliding block, the fastening fixture blocks are movably arranged at the horizontal end of the sliding rod and can slide along the horizontal end, locking assemblies are arranged on the fastening fixture blocks, and when the porous direction-adjusting sliding block moves in place on the horizontal end of the sliding rod, the fastening fixture blocks are moved from two sides and clamp the porous direction-adjusting sliding block and are locked and fixed by the locking assemblies, so that the effect of fixing the porous direction-adjusting sliding block is achieved.

The utility model discloses still including the regulation stabilizing support that is used for adjusting and stablizes first accurate formula thighbone neck surgery axis minimal access mechanical navigation system's height and position, adjust stabilizing support and include the adjustment base, it hangs the pole to be provided with dismantlement formula (the spacing distance that hangs the pole should be for minimum spacing distance settlement with the transverse distance of thighbone neck location hook connecting component in the system with the location director) side by side on the adjustment base, left side hangs the pole and is connected with steering connector, switching connecting rod, utilize steering connector, switching connecting rod can make left side hang the pole and be connected with vertical connecting rod, and similarly, right side hangs the pole and is connected with steering connector, switching connecting rod, utilize steering connector, switching connecting rod can make right side hang the pole and be connected with the dead lever of slide bar right angle adapter and/or the vertical pole on the location director, thereby reach many tie points, the, The effect of multi-azimuth suspension support and fixation. The steering connecting head is provided with vertical holes and horizontal holes which are vertical to each other and staggered with each other, locking assemblies are arranged on the vertical holes and the horizontal holes, different switching connecting rods are sleeved into the vertical holes and the horizontal holes and are used for locking the locking assemblies, and therefore the suspension height of the vertical adjusting system and the position of the horizontal (horizontal) adjusting system can be adjusted.

The utility model discloses in, in order to guarantee the smooth and easy of connecting between the precision of device and the part, the appearance of various connection member should match in the shape in corresponding groove, hole, and the size is less than the size in corresponding groove, hole slightly.

The beneficial effects of the utility model reside in that:

1. the utility model makes the porous positioning guide plate below the guide pin and the guide pin hole on the positioning hook at the lowest part correspond by adjusting the guide pin of the porous direction-adjusting slide block, makes the guide pin and the positioning hook completely match with the neck trunk angle, the anteversion angle and the front torsion angle of the femoral neck, then uses the positioning hook in the femoral neck positioning hook connecting component and the guide pin inserted into the positioning measuring hole of the positioning block to measure the upper and lower diameters of the isthmus of the femoral neck, then searches the upper and lower diameter midpoint P in front of the cortical bone of the femoral neck isthmus as a mark point to determine the accurate offset direction, determines the front and back diameter midpoint M of the femoral neck as the coordinate origin by using the fixed point vertical offset method, then uses the positioning guide to search the nail feeding point N, determines the central axis of the femoral neck surgery by connecting the M point and the N point, finally drills the hollow nail from the proper position of the proximal femoral neck along the central axis of the parallel femoral neck surgery by using, the screw channel opener is combined to be used, the nail is successfully placed at one time, iatrogenic accidents caused by the fact that the nail is placed for many times in the operation are avoided, the iatrogenic accident rate is reduced, and the operation success rate is effectively improved.

2. Through the regulation stabilizing support of design, adjust the position and the height of whole device, have support and stabilizing effect, be convenient for use in the operation, design a plurality of parts simultaneously and connect convenient to detach, the disinfection used repeatedly after being convenient for operate, simple structure, the function is various.

3. The forward rake angle is used for assisting in measuring the sliding block, and the forward rake angle and the forward torsion angle can be objectively and accurately matched by a mechanical navigation system.

4. The use of the positioning guide can ensure the accuracy of the upper and lower positions and the front and back positions of the nail feeding point at the proximal end of the femur. The connection line of the nail feeding point and the middle point of the upper and lower diameters of the narrow part of the femoral neck ensures the accuracy of the angle of the shaft neck.

5. The virtual offset points are the middle points of the upper and lower diameters and the front and rear diameters of the narrow part of the femoral neck, and the connecting line of the virtual offset points and the nail feeding point completely matches the shaft angle, the anteversion angle and the anterior torsion angle and passes through the center of the femoral neck, so that the accuracy of the surgical central axis of the femoral neck is ensured.

Drawings

Fig. 1 is a schematic front perspective view of the present invention;

FIG. 2 is a schematic side view of the structure of the present invention;

FIG. 3 is an exploded view of the femoral neck positioning hook attachment member of the present invention;

fig. 4 is an exploded view of the positioning hook of the present invention;

figure 5 is a schematic structural view of the adapter of the present invention;

FIG. 6 is a schematic structural view of the multi-hole positioning guide plate of the present invention;

fig. 7 is a schematic structural view of the positioning guide of the present invention;

fig. 8 is a schematic structural view of the slide rod right-angle adapter of the present invention;

fig. 9 is a schematic structural view of the central axis positioning guide member of the present invention;

FIG. 10 is a schematic diagram of the arrangement of vertical guide pin holes of the present invention;

fig. 11 is a schematic structural view of the adjusting and stabilizing bracket of the present invention;

fig. 12 is an effect diagram of the usage state of the present invention.

In the figure: 1. a femoral neck positioning hook connecting component; 2. a vertical connecting rod; 3. an adapter; 4. calibrating the needle; 5. a porous positioning guide plate; 6. a central axis positioning guide member; 7. a slide bar right angle adapter; 8. a positioning guide; 9. a probe; 10. a positioning hook; 11. calibrating the hole; 12. a vertical guide pin hole; 13. fixing the bolt; 14. positioning blocks; 15. a vertical connecting hole; 16. positioning a groove; 17. positioning the measuring hole; 18. locking the bolt; 19. a right-angle hook; 20. a porous positioning plate; 21. a screw hole; 22. a transverse mounting hole; 23. a connecting port; 24. positioning the head; 25. a horizontal guide pin hole; 26. a vertical rod; 27. a vertical connector; 28. moving the port; 29. fixing the rod; 30. a horizontal end; 31. a porous direction-adjusting slide block; 32. fastening the fixture block; 33. a forward rake angle auxiliary measuring slide block; 34. a vertical through groove; 35. a vertical end; 36. adjusting the stable seat; 37. a connecting seat; 38. a suspension rod; 39. a steering connector; 40. the connecting rod is connected in a switching way; 41. a vertical guide pin; 42. and (4) horizontally guiding the needle.

Detailed Description

The invention will be further described by way of example with reference to the accompanying drawings, which are not intended as a limitation on the invention.

In the structure shown in fig. 1 and 2, the first-level femoral neck surgery central axis minimally invasive mechanical navigation system designed by the utility model comprises a femoral neck positioning hook connecting component 1, an adapter 3, a porous positioning guide plate 5, a positioning guide 8, a slide bar right-angle adapter 7 and a central axis positioning guide component 9; femoral neck location hook connecting elements 1 is connected with adapter 3 through vertical connecting rod 2, and porous location deflector 5 sets up on adapter 3, and slide bar right angle adapter 7 is connected with porous location deflector 5, location director 8 respectively, and axis location guide elements 9 sets up on location director 8.

The femoral neck positioning hook connecting component 1 designed by the utility model, as shown in fig. 3 and 4, comprises a positioning block 14, wherein the positioning block 14 is designed into a cuboid or cube structure, which is convenient for disassembly and assembly, the positioning block is provided with a horizontal transverse positioning slot 16 and a vertical connecting hole 15 which run through the positioning block and are mutually staggered, and the cross section of the positioning block is a rectangular structure; the positioning hook 10 is movably arranged in the positioning groove 16, the positioning hook 10 is composed of a connecting section and a functional section, the connecting section is movably arranged in the positioning groove 16, a bolt hole which is communicated with the positioning groove and is vertical to the positioning groove is formed above the positioning block, a locking bolt 18 is arranged on the bolt hole, and the positioning hook 10 can be locked and fixed by screwing the locking bolt 18 after the connecting section of the positioning hook 10 moves in place in the positioning groove 16. Location hook 7 designs to modular structure, including being right angle hook 19 and the porous locating plate 20 of "L" shape of falling, right angle hook 19 and porous locating plate 20 constitute by linkage segment (all designing into the rectangle structure) and functional segment, the position that the functional segment of porous locating plate 20 is close to the front end sets up a plurality of guide pin holes 12, the position that is close to the linkage segment sets up a plurality of calibration holes 11, all set up the screw hole 21 that the position corresponds on the linkage segment of right angle hook 19 and porous locating plate 20, be provided with on the screw hole and can fix right angle hook and porous locating plate 13 together side by side, its appearance size slightly is less than the corresponding size of constant head tank 13 after the linkage segment of right angle hook 19 and porous locating plate 20 is fixed together side by side. The vertical connecting rod 2 is movably arranged in the vertical connecting hole 15, the vertical connecting rod 2 is designed to be of a rectangular structure, the appearance is matched with the shape of the vertical connecting hole 15, the corresponding size is slightly smaller than that of the vertical connecting hole 15, bolt holes which are communicated with the vertical connecting hole 15 and are perpendicular to the vertical connecting hole are formed in the side face of the positioning block 14, locking bolts 18 are arranged on the bolt holes, and the vertical connecting rod 2 can be locked and fixed by screwing the locking bolts 18 after the vertical connecting rod 2 is moved in place in the vertical connecting hole 15. The positioning block 14 is provided with a positioning measuring hole 17 in the same direction as the positioning groove, the positioning measuring hole 17 is positioned below the positioning groove 16, and the positioning measuring hole is movably provided with a probe 9. Utilize location hook and probe not only can the multiple spot position measure to whether the hook position of final location hook is accurate, can also measure the upper and lower footpath of thighbone neck isthmus, thereby find out the upper and lower footpath mid point in thighbone neck isthmus cortex lycii ahead.

The utility model relates to an adapter 3, as shown in fig. 5, which is designed into a square right-angle structure, a horizontal transverse mounting hole 22 which runs through the adapter is arranged on one right-angle side, the other right-angle side is provided with a vertical connecting hole which corresponds to the vertical connecting hole 12 on the positioning block 11 of the femoral neck positioning hook connecting component 1, the transverse mounting hole 22 and the vertical connecting hole on the adapter 3 are staggered with each other, and the cross section is a rectangular structure; vertical connecting rod 2 on the thighbone neck location hook connecting component runs through the vertical connecting hole on the adapter, make the adapter be located the top of thighbone neck location hook connecting component, horizontal mounting hole 22 on the adapter just is located its top with the constant head tank 16 syntropy on the locating piece of thighbone neck location hook connecting component, horizontal mounting hole 22 internalization sets up porous location deflector, all set up on horizontal mounting hole and vertical mounting hole with the thighbone neck location hook connecting component on locking Assembly similar locking Assembly (bolt fastening subassembly, all utilize locking bolt 18 to screw and support and compress tightly, thereby reach the fixed effect of locking, work as vertical connecting rod 2, porous location deflector removes to target in place after can with locking Assembly with the two locking.

The multi-hole positioning guide plate 5 designed by the utility model is composed of a connecting section and a functional section, as shown in figure 6, the connecting section is rectangular structure and is movably arranged in the transverse mounting hole 22 of the adapter (the connecting section adopts the rectangular structure not only matching with the transverse mounting hole 22, but also being beneficial to locking and fixing), the front end of the functional section is provided with a rectangular connecting port 23 vertical to the functional section, the part near the front end is provided with a plurality of vertical guide pin holes 12, the part near the connecting section is provided with a plurality of vertical calibration holes 11, the vertical guide pin holes and the vertical calibration holes on the multi-hole positioning guide plate 5 are all in one-to-one correspondence with the vertical guide pin holes and the calibration holes on the positioning hook 10 of the femoral neck positioning hook connecting component 1, and the distance between any vertical guide pin hole and any vertical calibration hole on the multi-hole and the distance between the corresponding vertical guide pin hole and the corresponding vertical calibration hole on, a calibration needle 4 is movably arranged on the vertical calibration hole, the position of the connecting section in the transverse mounting hole 22 of the adapter is adjusted, the calibration needle on the vertical calibration hole is vertically downward and inserted into the corresponding vertical calibration hole on the positioning hook of the femoral neck positioning hook connecting component, so that the vertical guide pin hole on the porous positioning guide plate is positioned right above the corresponding vertical guide pin hole on the positioning hook of the femoral neck positioning hook connecting component (the more the number of the calibration holes is, the higher the alignment accuracy of the porous positioning guide plate and the positioning hook is, the more accurate the upper and lower vertical guide pin holes are in correspondence), and a locking assembly is arranged on the connecting port 23;

the positioning guide 8 designed by the utility model comprises a positioning head 24, as shown in fig. 7, a plurality of horizontal guide pin holes 25 are horizontally arranged on the positioning head, the direction of the horizontal guide pin holes is vertical to the direction of the positioning hook on the connecting component of the femoral neck positioning hook (the extension lines of the horizontal projection of the horizontal guide pin holes and the positioning hook are mutually vertical), a position-adjustable vertical rod 26 is arranged on the positioning head, the adjusting direction of the position is the same as the direction of the positioning hook (namely, the direction vertical to the horizontal guide pin holes), and the section of the vertical rod 26 is in a rectangular structure; a slide bar right angle adapter is provided on the vertical bar 26.

The utility model discloses a slide bar right angle adapter 7 comprises dead lever 29 (the cross-section is the rectangle form) of vertical connector 27 and perpendicular to connector, as shown in FIG. 8, it moves mouth 28 and sets up locking Assembly to set up the rectangle form on the connector 27, the removal mouth 28 cover of connector is established on the vertical pole 26 of location director, dead lever 29 outwards extends, the level on extending direction and the location director is unanimous to the direction in guide pin hole, and the cover is established in the connector 23 of the functional section front end of porous location deflector, when dead lever 29 water translation move the back that targets in place in connector 23, connector 27 is fixed with locking Assembly with slide bar right angle adapter locking after vertical removal targets in place on the vertical pole 27 of location director, locking Assembly on the while is fixed with the dead lever locking.

The utility model relates to a central axis positioning guide member 6, which comprises an inverted L-shaped slide bar, as shown in figure 9, the slide bar is composed of a vertical end 35 and a horizontal end 30, wherein the vertical end 35 is arranged on the positioning guide 8, the horizontal end is movably provided with a porous direction-adjusting slide block 31 and a front rake angle auxiliary measuring slide block 33, two sides of the porous direction-adjusting slide block 31 are provided with fastening fixture blocks 32, the fastening fixture blocks 32 are provided with bolt fixing components, and the front rake angle auxiliary measuring slide block is positioned at one side close to the vertical end; the horizontal end 30 is designed into a square rod-shaped structure, a vertical through groove 34 is formed in the middle of the horizontal end, and the direction of the horizontal end is the same as that of a fixing rod of the slide rod right-angle adapter; the multi-hole direction-adjusting slider 31, the forward inclination angle auxiliary measuring slider 33 and the fastening fixture block 32 are all provided with a through hole in a shape like a Chinese character 'hui', so that the multi-hole direction-adjusting slider, the forward inclination angle auxiliary measuring slider and the fastening fixture block 32 can be sleeved on the horizontal end 30 and can slide back and forth, when the multi-hole direction-adjusting slider 31 moves to the right on the horizontal end 30, the fastening fixture block 32 moves from two sides of the multi-hole direction-adjusting slider and clamps the multi-hole direction-adjusting slider and is locked and fixed by a locking assembly, thereby the multi-hole direction-adjusting slider is fixed, a plurality of vertical guide pin holes are arranged at the middle part of the forward inclination angle auxiliary measuring slider, a plurality of vertical guide pin holes are arranged at the left, middle and right parts of the multi-hole direction-adjusting slider, the vertical guide pin holes arranged on the multi-hole direction-adjusting slider are consistent with the distribution mode of the vertical guide pin holes arranged on the multi-hole positioning guide plate, namely, when . The forward rake angle auxiliary measuring slide block 33 is moved, and after the forward rake angle auxiliary measuring slide block is in place, the device can be objectively and accurately matched with the forward rake angle and the forward torsion angle by using the guide pin.

In the implementation the utility model discloses the time, because vertical guide pin hole 12 has certain aperture, can't the accuracy correspond to a certain specific size, in order to make a certain guide pin hole correspond to a certain size as far as possible in the within range that the error allows, the utility model discloses to set up and be linear the range at vertical guide pin hole on location hook, porous location deflector, porous accent to the slider, and arrange between from left to right or from right side to left dislocation set, as shown in fig. 10.

In application the utility model discloses the time, need progressively install and unsettled fixed with each part in the whole device, should adopt the support, fix from many tie points, diversely to guarantee entire system's stability. Generally, either a conventional stent or a dedicated stent may be used. The utility model discloses still designed one kind and be exclusively used in and adjust and stabilize the regulation stabilizing support in height and the position of first accurate formula thighbone neck surgery axis wicresoft mechanical navigation system, as shown in fig. 11. It includes adjusting base 36 to adjust stable support, adjusting base 36's structural style can have a variety, as long as can guarantee its stability, guarantee the stability of the system that hangs, all accord with the utility model discloses a requirement, the interval is provided with connecting seat 37 side by side on the adjusting base (the interval distance should be with in the system transverse distance of thighbone neck location hook connecting component and location director for minimum interval distance settlement), set up through-hole and locking Assembly on the connecting seat 37, dismantlement formula suspension rod 38 cover is established and is fixed with locking Assembly in connecting seat 37's through-hole, left side suspension rod 38 is connected with and turns to connector 39, switching connecting rod 40, utilize to turn to connector 30, switching connecting rod 40 can make left side suspension rod 38 be connected with vertical connecting rod 2, and similarly, right side suspension rod is connected with and turns to connector 39, switching connecting rod 40, utilize to turn to connector 30, switching connecting rod 40 can make right side suspension rod 38 and slide bar right angle adapter's dead lever Vertical pole on the ware is connected, can also utilize universal clamp, switching connecting rod etc. to connect to reach many tie points, diversified effect of hanging support, fixed. The utility model discloses a turn to connector 39 is the same with adapter 3 in principle, all be provided with vertical hole and the horizontal hole of mutually perpendicular and dislocation, and all be equipped with locking Assembly on vertical hole and the horizontal hole of level, the shape in vertical hole and the horizontal hole of level should be according to the shape of cross section of switching connecting rod 40 and set up, if switching connecting rod 40 adopts the round bar, then the shape in vertical hole and the horizontal hole of level is the round hole, embolia vertical hole and the horizontal hole of level with the switching connecting rod of difference and lock fixedly with locking Assembly, thereby can follow vertical adjustment system's hang height, horizontal (level to) adjustment system's position, reach the support, the purpose of fixed entire system.

The working principle of the utility model is as follows:

when the hollow nail guide needle for femoral neck fracture is put into operation, the whole device is installed firstly, as shown in figure 12.

Hooking the inner lower part and the functional section of the femoral neck at the front end of a positioning hook 10 to be tightly attached to the front cortex of the femoral neck, firstly, correspondingly matching the positions of the shaft angle, the anteversion angle and the front torsion angle of the femoral neck by using a plurality of vertical guide pins 40 through adjusting a vertical guide pin 41 inserted on a porous direction-adjusting slider 31, then measuring the upper and lower diameters of the isthmus of the femoral neck by using the positioning hook 10 in a femoral neck positioning hook connecting component 1 and a probe 9 on a positioning measuring hole 17 of a positioning block 14, then searching the upper and lower diameter midpoint P in front of the cortical bone of the isthmus of the femoral neck as a mark point to determine the accurate offset direction, determining the front and rear diameter midpoint M of the femoral neck as the origin of coordinates by using a fixed-point vertical offset method, then searching a nail feeding point N (which can also be determined by using the existing femoral neck nail feeding point positioner) by using a horizontal guide pin 42 through a horizontal guide pin hole 25 by using a positioning guider 8, and determining the surgical, finally, the hollow nail is drilled into the position, which is suitable for the proximal end of the femoral neck, of the femoral neck along the direction parallel to the central axis MN of the femoral neck surgery, the drilling process can be adjusted by means of perspective and combined with the use of a limiting pressure limiting channel screw channel opener, the nail is successfully placed at one time, iatrogenic accidents caused by the fact that the nail is placed for many times in the surgery are avoided, the iatrogenic accident occurrence rate is reduced, and the surgery success rate is effectively improved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a first accurate formula femoral neck surgery axis wicresoft mechanical navigation which characterized in that: the femoral neck positioning device comprises a femoral neck positioning hook connecting component, an adapter, a porous positioning guide plate, a positioning guider, a slide bar right-angle adapter and a central axis positioning guide component;

the femoral neck positioning hook connecting component comprises a positioning block, a horizontal transverse positioning groove and a vertical connecting hole which penetrate through the positioning block and are staggered with each other are arranged on the positioning block, a positioning hook is movably arranged in the positioning groove, and a locking assembly for locking the positioning hook is arranged on the positioning groove; the positioning hook is composed of a connecting section and a functional section, the connecting section is movably arranged in the positioning groove, the front end of the functional section is provided with a right-angle hook, the part close to the front end is provided with a plurality of vertical guide pin holes, and the part close to the connecting section is provided with a plurality of vertical calibration holes; the vertical connecting holes are internally and movably provided with vertical connecting rods, and the vertical connecting holes are provided with locking assemblies for locking the vertical connecting rods; a positioning measuring hole in the same direction as the positioning groove is formed in the positioning block, the positioning measuring hole is located below the positioning groove, and a probe is movably arranged on the positioning measuring hole;

the universal joint is provided with a horizontal transverse mounting hole and a vertical connecting hole which penetrate through the adapter and are staggered with each other, a vertical connecting rod on the femoral neck positioning hook connecting component penetrates through the vertical connecting hole on the adapter, the transverse mounting hole on the adapter is in the same direction as and above the positioning groove on the positioning block of the femoral neck positioning hook connecting component, a multi-hole positioning guide plate is movably arranged in the transverse mounting hole, and locking assemblies are arranged on the transverse mounting hole and the vertical mounting hole;

the multi-hole positioning guide plate is composed of a connecting section and a functional section, the connecting section is movably arranged in a transverse mounting hole of the adapter, the front end of the functional section is provided with a connecting port perpendicular to the functional section, a plurality of vertical guide pin holes are arranged at a position close to the front end, a plurality of vertical calibration holes are arranged at a position close to the connecting section, vertical guide pin holes and vertical calibration holes on the multi-hole positioning guide plate are respectively in one-to-one correspondence with vertical guide pin holes and calibration holes on a positioning hook of a femoral neck positioning hook connecting component, the distance between any vertical guide pin hole and any vertical calibration hole on the multi-hole positioning guide plate is equal to the distance between the corresponding vertical guide pin hole and the corresponding vertical calibration hole on the positioning hook, a calibration pin is movably arranged on the vertical calibration hole, and a locking assembly is;

the positioning guider comprises a positioning head, a plurality of horizontal guide pin holes are formed in the positioning head, the direction of the horizontal guide pin holes is perpendicular to the direction of a positioning hook on the femoral neck positioning hook connecting component, a position-adjustable vertical rod is arranged on the positioning head, and the position adjusting direction is the same as the direction of the positioning hook; a slide bar right-angle adapter is arranged on the vertical rod;

the slide bar right-angle adapter comprises a vertical connector and a fixed rod perpendicular to the connector, a moving port and a locking assembly are arranged on the connector, the moving port of the connector is sleeved on the vertical rod of the positioning guider, and the fixed rod extends outwards and is sleeved in a connecting port at the front end of the functional section of the porous positioning guide plate;

the axis location direction component is including being the slide bar of "L" type, the slide bar comprises vertical end and horizontal end, wherein vertical end setting is on the location director, the activity is provided with porous accent to slider and anteversion angle auxiliary measurement slider on the horizontal end, anteversion angle auxiliary measurement slider is located the one side that is close to vertical end, the direction of horizontal end is the same with the dead lever direction of slide bar right angle adapter, it all sets up a plurality of vertical guide pin holes to adjust to slider and anteversion angle auxiliary measurement slider in porous, the vertical guide pin hole that sets up on the slider and the vertical guide pin hole's that sets up on the porous location deflector distribution mode unanimous to porous accent.

2. The central axis minimally invasive mechanical navigation system for surgical operation of the femoral neck as claimed in claim 1, wherein: the location hook design is modular structure, including being right angle hook and the porous locating plate of "L" shape of falling, right angle hook and porous locating plate constitute by linkage segment and functional section, and wherein vertical guide pin hole, vertical calibration hole all set up on the functional section of porous locating plate, all set up the screw hole that the position corresponds on right angle hook and the porous locating plate, are provided with fixing bolt on the screw hole.

3. The central axis minimally invasive mechanical navigation system for surgical operation of the femoral neck as claimed in claim 1, wherein: the positioning hooks, the porous positioning guide plate and the vertical guide pin holes in the porous direction-adjusting slider are linearly arranged, and the rows are arranged from left to right or from right to left in a staggered manner.

4. The central axis minimally invasive mechanical navigation system for surgical operation of the femoral neck as claimed in claim 1, wherein: the locking assembly is a bolt fixing assembly.

5. The central axis minimally invasive mechanical navigation system for surgical operation of the femoral neck as claimed in claim 1, wherein: fastening fixture blocks are arranged on two sides of the porous direction-adjusting sliding block, the fastening fixture blocks are movably arranged at the horizontal end of the sliding rod, and locking assemblies are arranged on the fastening fixture blocks.

6. The central axis minimally invasive mechanical navigation system for surgical operation of the femoral neck as claimed in claim 1, wherein: the adjusting and stabilizing support comprises an adjusting base, detachable suspension rods are arranged on the adjusting base side by side at intervals, a left suspension rod is connected with a steering connector and a switching connecting rod, and a right suspension rod is connected with a steering connector and a switching connecting rod; the steering connecting head is provided with a vertical hole and a horizontal hole which are vertical to each other and staggered with each other, and the vertical hole and the horizontal hole are provided with locking components.