CN108095864B - Integrated frame type lumbar interbody fusion cage with lateral access lock hooks - Google Patents

Abstract

The utility model provides a side way latch hook integration frame lumbar vertebrae interbody fusion cage, including supporting the test mould, hold the pole, the fluting chisel, external frame and inside bone grafting fusion cage, the support test mould is the circular arc backup pad, be equipped with the support test mould on the support test mould and hold the screw hole, hold and be equipped with the pole screw thread on the pole front end, be equipped with the external frame on the external frame and hold the screw hole, external frame bone grafting upper and lower through-hole and the inside bone grafting fusion cage mounting groove of external frame front side, be equipped with inside bone grafting fusion cage upper and lower bone grafting hole and inside bone grafting fusion cage on the inside bone grafting fusion cage and hold the screw hole, be equipped with the external frame fixed pin on the external frame, be equipped with one row of stopping latch hook on the external frame fixed pin, consequently, support test mould is not directly taken out after getting into the intervertebral space, and the external frame is directly put into along the support test mould periphery, then take out the support test mould again, with the inside bone grafting fusion cage of bone grafting along the supporting track of external frame internal track of supporting, realize the high characteristics of operation success rate.

Description

Integrated frame type lumbar interbody fusion cage with lateral access lock hooks

Technical Field

The invention relates to a side access latch hook integrated frame type lumbar intervertebral fusion device.

Background

Lumbar intervertebral disc protrusion, lumbar spinal stenosis, unstable lumbar vertebra segment, lumbar vertebra slippage and other diseases caused by lumbar vertebra degeneration are quite common clinically. However, lumbar degeneration can cause lumbago and numbness of lower limbs, intermittent claudication, and even clinical symptoms of urination and defecation and sexual dysfunction, which seriously affect the life health and quality of life of patients. Lancet journal shows according to world disease burden data analysis: lumbago is the first disease with great burden of Chinese 10, and from 1990 to 20 years of 2010, lumbago is always the primary reason for the incapacitation of Chinese, and causes great economic and social burden to individuals, families and the whole Chinese society.

Lumbar fusion is currently the most common way to treat lumbar degenerative changes, and its development has been known for centuries. The number of spinal fusion patients in the United states in 1990 reaches 46500 cases, and in 1998 to 2008, the number of cervical vertebra, thoracic vertebra and lumbar vertebra fusion cases is respectively increased by 90%,61% and 141% in every 10 ten thousands of people, and the average treatment cost of each lumbar vertebra fusion case reaches US $ 80,888.

The existing lumbar fusion device has some defects: 1 in the operation process, after the intervertebral is placed into the test mould, the intervertebral space can be restored to the original position naturally again, the compression is narrowed, the difficulty of beating the intervertebral fusion cage is often caused, the angle is sometimes changed, the end plate is damaged, the path is changed, and the intervertebral fusion cage is wrongly placed into the vertebral body; 2, because the bone blocks in the fusion device are easy to drop and lose due to the fact that the beating is needed by forceful beating, the effective bone grafting quantity cannot be achieved, the intervertebral fusion is affected, even the operation is failed, and then the operation is performed. The need for post-operative fixation of the rod system also increases trauma, surgical incision, surgical time, and surgical costs for some patients.

Disclosure of Invention

In view of the above technical problems, the present invention provides: the outer frame is provided with a retaining lock hook which can be self-locked and consists of an inner fusion device body and an outer frame, namely, after the test mould enters the intervertebral space, the outer frame is not directly taken out, but is directly put in along the periphery of the test mould to play a role in keeping the intervertebral space open, then the test mould is taken out, and the inner fusion device matched with the bone grafting is put in the fusion device along the inner track of the outer frame.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides a side implantation way latch hook integration frame lumbar vertebrae interbody fusion cage, includes support test mould, holds pole, fluting chisel, external frame and inside bone grafting fusion cage, support test mould is the circular arc backup pad, be equipped with on the support test mould and hold the screw hole, be equipped with on the outer frame and hold the pole screw thread, be equipped with external frame and hold the screw hole, external frame bone grafting up-and-down through-hole and the inside bone grafting fusion cage mounting groove of external frame front side on the outer frame, be equipped with inside bone grafting fusion cage upper and lower bone grafting hole and inside bone grafting fusion cage on the inside bone grafting fusion cage and hold the screw hole, inside bone grafting fusion cage inserts outside frame front side inside bone grafting fusion cage mounting groove back, outside frame bone grafting up-and-down through-hole communicates with each other with inside bone grafting fusion cage upper and lower bone grafting, support test mould can insert outside frame front side inside bone grafting fusion cage mounting groove, hold the pole screw thread and hold the screw hole and cooperate, hold the pole screw thread can hold the outer frame and hold the screw hole, can hold the thread and hold the outer frame and take out the screw hole and hold the thread, hold the frame pin and hold the screw hole and hold the outer frame pin, hold the screw hole and hold the outer frame pin and hold the screw hole, and hold the outer frame pin and take the round angle, and hold the outer frame pin and stop the round angle and take the round angle and set up the outside when setting.

The invention provides a side access lock hook integrated frame type lumbar intervertebral fusion device, which has the beneficial effects that: the lumbar vertebra fixing device comprises a supporting test die, a holding rod, a slotting chisel, an outer frame and an inner bone grafting fusion device, wherein the supporting test die is an arc supporting plate, the supporting test die is provided with a holding threaded hole, the front end of the holding rod is provided with a holding rod thread, the outer frame is provided with an outer frame holding threaded hole, an upper through hole and a lower through hole of an outer frame bone grafting and an inner bone grafting fusion device mounting groove on the outer frame, the inner bone grafting fusion device is provided with an upper bone grafting hole, a lower bone grafting hole of the inner bone grafting fusion device and an inner bone grafting fusion device holding threaded hole, the upper through hole of the outer frame bone grafting lower through hole is communicated with the upper bone grafting hole of the inner bone grafting fusion device, the supporting test die can be inserted into the inner bone grafting fusion device mounting groove on the front side, the holding rod thread can be matched with the holding threaded hole of the outer frame, the holding rod thread can be matched with the inner bone grafting fusion device holding threaded hole, the outer frame is provided with a locking hook, and a protrusion is arranged on the outer frame and is fixed towards the outer side of the lumbar vertebra fixing device mounting groove, and the locking hook is arranged on the outer frame in a direction of the lumbar vertebra fixing device.

Therefore, when the external frame is used, the holding rod can be screwed into the holding threaded hole of the supporting test die, the supporting test die is inserted into the lumbar intervertebral space through the holding rod to prop up the lumbar intervertebral space, the external frame fixing pin slot is chiseled out on the lumbar through the slotting chisel, then the holding rod is detached and installed on the external frame, the external frame is inserted into the lumbar intervertebral space propped up by the supporting test die along the periphery of the supporting test die through the holding rod, the external frame fixing pin on the external frame is inserted into the slot chiseled out by the slotting chisel, the stop lock hook on the external frame fixing pin is tightly abutted and matched with the inner wall of the slot chiseled out by the slotting chisel, the external frame is firmly installed under the locking of the stop lock hook, the stop lock hook faces the direction of the external frame holding the threaded hole, and the first stop lock hook abutted to the lumbar vertebra is transitionally arranged when the external frame is used, the external frame fixing pins are easier to insert into the slots chiseled by the slotting chisel, namely, the installation is easy and stable, a post nail rod system is not needed to fix, the wound and the operation incision are not increased, after the lumbar intervertebral space is propped up by the supporting test mould, the external frame is easy to insert, after the external frame is installed, the holding rod is detached from the external frame and installed on the supporting test mould, the supporting test mould is taken out, finally, the holding rod is taken down from the supporting test mould and installed on the holding threaded holes of the internal bone grafting fusion device, the internal bone grafting fusion device with bone grafting blocks is installed in the mounting slots of the internal bone grafting fusion device at the front side of the external frame, the internal bone grafting fusion device can be easily and stably installed in the external frame, the intervertebral space can not be restored to the original position naturally under the support of the external frame, the bone grafting fusion device can not be extruded by the upper lumbar vertebrae and the lower lumbar vertebrae, the situation that the intervertebral bone grafting fusion device is difficult to be beaten and placed is avoided, the bone blocks in the beating force fusion device are not dropped and lost, so that the situation that the effective bone grafting quantity cannot be achieved is avoided,

that is, the device consists of an inner fusion cage body and an outer frame, namely, after a supporting test mold enters an intervertebral space, the supporting test mold is not directly taken out, but the outer frame is directly put in along the periphery of the supporting test mold, the supporting test mold plays a role in keeping the intervertebral space open, then the supporting test mold is taken out, and then the inner bone grafting fusion cage matched with bone grafting is put in along an inner track of the outer frame, so that the characteristic of high success rate of operation is realized.

Further, the outer frame fixing pins comprise an outer frame left upper fixing pin, an outer frame left lower fixing pin, an outer frame right upper fixing pin and an outer frame right lower fixing pin, the outer frame left upper fixing pin, the outer frame left lower fixing pin, the outer frame right upper fixing pin and the outer frame right lower fixing pin are distributed on the upper side and the lower side of the outer frame in pairs, and the outer frame left upper fixing pin, the outer frame left lower fixing pin, the outer frame right upper fixing pin and the outer frame right lower fixing pin are all provided with a row of anti-back locking hooks.

Further, the slotting chisel comprises a slotting chisel bit, a slotting chisel sleeve and a slotting chisel beating boss, the slotting chisel bit comprises a bit frame beam, a bit frame left vertical beam and a bit frame right vertical beam, the bit frame beam is arranged at the front end of the slotting chisel sleeve, the slotting chisel beating boss is arranged at the tail end of the slotting chisel sleeve, the bit frame left vertical beam is arranged at the left end of the bit frame beam, the bit frame right vertical beam is arranged at the right end of the bit frame beam, the upper end of the bit frame left vertical beam is provided with an upper left bit, the lower end of the bit frame left vertical beam is provided with a lower left bit, the upper end of the bit frame right vertical beam is provided with an upper right bit, the lower end of the right vertical beam of the tool bit frame is provided with a right lower tool bit, the tool bit frame cross beam, the left vertical beam of the tool bit frame, the right vertical beam of the tool bit frame, the left upper tool bit, the left lower tool bit, the right upper tool bit and the right lower tool bit are matched to form a cutting tool bit displacement space, the support test die can enter the cutting tool bit displacement space, the tool bit frame cross beam is provided with a tool bit frame cross beam displacement hole, the cutting tool bit frame cross beam displacement hole, the hole on the cutting tool sleeve and the cutting tool tapping boss displacement Kong Yici are communicated, so that the tool bit frame cross beam, the cutting tool sleeve and the cutting tool tapping boss sleeve are sleeved on the holding rod and can move back and forth,

therefore, the utility model has the advantages that when in use, the beam of the cutter head frame, the sleeve of the slotting chisel and the knocking boss of the slotting chisel are sleeved on the holding rod, the supporting test die can enter the displacement space of the slotting chisel, which is equivalent to the claw shape of the slotting chisel, the supporting test die can be inserted into the hollow part of the claw-shaped slotting chisel, the front and back movement can be realized, thus, the external frame fixed pin installation groove can be opened by the slotting chisel only through the hammer, the supporting test die can be slotted without disassembly, the depth of the groove is deeper, the supporting test die enters the displacement space of the slotting chisel,

and tool bit frame crossbeam, fluting chisel sleeve pipe and fluting chisel beat boss cover and establish behind the grip lever, grip lever play the locate action to the fluting chisel, prevent that the fluting chisel from rocking about when fluting for it is more laborsaving accurate when fluting, prevent that the groove from opening the off tracking, have four tool bits of upper left tool bit, lower left tool bit, upper right tool bit and lower right tool bit in addition, can offer four external frame fixed pin mounting grooves simultaneously.

Further, the front ends of the left upper tool bit, the left lower tool bit, the right upper tool bit and the right lower tool bit are all obliquely arranged, the front end of the left upper tool bit is provided with a left upper tool bit slot so that the left upper tool bit is provided with a left upper tool bit positioning tip, the inner wall of the left upper tool bit is provided with a left upper tool bit bone slot, the left upper tool bit slot is communicated with the left upper tool bit bone slot, the front end of the left lower tool bit is provided with a left lower tool bit positioning tip, the inner wall of the left lower tool bit is provided with a left lower tool bit bone slot, the left upper tool bit bone slot is communicated with the left lower tool bit bone slot, the front end of the right upper tool bit is provided with a right upper tool bit slot so that the right upper tool bit is positioned on the right upper tool bit, the inner wall of the right upper tool bit is provided with a right upper tool bit bone slot, the front end of the right lower tool bit is provided with a right lower tool bit bone slot so that the left lower tool bit bone slot is communicated with the right upper tool bit bone slot, the front end of the left lower tool bit is provided with a right lower tool bit bone slot,

therefore, the effect is, when using, upper left tool bit location point portion, lower left tool bit location point portion, upper right tool bit location point portion and lower right tool bit location point portion can insert the lumbar vertebrae more easily, play the positioning action, the piece that the fluting produced can follow upper left tool bit slotting, upper left tool bit play bone groove, lower left tool bit slotting, upper right tool bit play bone groove, lower right tool bit slotting and lower right tool bit play bone groove and fall out for the fluting tool bit is smooth when advancing, and the resistance is littleer, prevents to beat excessively and produces the injury to the patient.

Further, the anti-rotation positioning pin is arranged on the slotting chisel beating boss, the front end of the anti-rotation positioning pin enters the slotting chisel beating boss displacement hole, the holding rod is provided with an anti-rotation positioning groove, when the slotting chisel beating boss is sleeved on the holding rod, the anti-rotation positioning pin on the slotting chisel beating boss enters the anti-rotation positioning groove to be in butt fit,

therefore, the anti-rotation positioning pin on the knocking boss of the slotting chisel enters the anti-rotation positioning groove to be in butt fit when the slotting chisel is used, the slotting chisel can be prevented from rotating, the slotting chisel can only move forwards and backwards, and slotting is more accurate.

The invention is further described below with reference to the drawings and detailed description.

Drawings

Fig. 1 is a schematic structural view of a supporting test mold, a holding rod and a slotting chisel of a side access latch hook integrated frame type lumbar intervertebral cage according to the present invention;

fig. 2 is a second schematic structural view of a supporting test mold, a holding rod and a slotting chisel of the side access latch hook integrated frame type lumbar intervertebral cage according to the present invention;

fig. 3 is a schematic structural view of a supporting test mold, a holding rod and an external frame of the side access latch hook integrated frame type lumbar intervertebral cage;

fig. 4 is a schematic structural view of an external frame and an internal bone grafting fusion device of a side access latch hook integrated frame type lumbar intervertebral fusion device according to the present invention;

fig. 5 is a second schematic structural view of an external frame and an internal bone grafting fusion device of a side access latch hook integrated frame type lumbar intervertebral fusion device according to the present invention;

fig. 6 is a schematic structural view of an external frame of a side access latch hook integrated frame lumbar interbody fusion cage provided by the present invention;

fig. 7 is a schematic structural view of an internal bone grafting fusion device of a side access latch hook integrated frame type lumbar intervertebral fusion device provided by the invention;

fig. 8 is a schematic structural view of a supporting test mold of a side access latch hook integrated frame lumbar interbody fusion cage provided by the invention;

fig. 9 is a schematic structural view of a holding rod and an external frame of a side access latch hook integrated frame type lumbar intervertebral cage according to the present invention;

fig. 10 is a schematic structural view of a holding rod and an internal bone grafting fusion device of a side access latch hook integrated frame type lumbar intervertebral fusion device provided by the invention;

fig. 11 is a schematic structural view of a slotting chisel of a side access latch hook integrated frame lumbar interbody fusion cage according to the present invention;

fig. 12 is a second schematic structural view of a slotting cutter of a side access latch hook integrated frame lumbar interbody fusion cage according to the present invention;

figure 13 is a schematic diagram of a side access shackle integrated frame type lumbar interbody fusion cage;

fig. 14 is a schematic structural view of a slotting chisel of a side access latch hook integrated frame lumbar interbody fusion cage according to the present invention.

Detailed Description

As shown in fig. 1 to 14, the embodiment of a side approach lock hook integrated frame type lumbar intervertebral fusion device provided by the invention comprises a support test mold 1, a holding rod 2, a slotting chisel 3, an outer frame 4 and an inner bone implant fusion device 5, wherein the support test mold 1 is an arc support plate, the support test mold 1 is provided with a holding threaded hole 6 of the support test mold, the front end of the holding rod 2 is provided with a holding rod thread 7, the outer frame 4 is provided with an outer frame holding threaded hole 8, an outer frame bone implant upper and lower through hole 10 and an outer frame front inner bone implant fusion device mounting groove 11, the inner bone implant fusion device 5 is provided with an inner bone implant fusion device upper and lower bone implant hole 12 and an inner bone implant fusion device holding threaded hole 13, after the inner bone implant fusion device 5 is inserted into the outer frame front inner bone implant fusion device mounting groove 11, the upper and lower through holes 10 of the outer frame bone grafting are communicated with the upper and lower bone grafting holes 12 of the inner bone grafting fusion device, the supporting test die 1 can be inserted into the inner bone grafting fusion device mounting groove 11 at the front side of the outer frame, the holding rod threads 7 can be matched with the holding threaded holes 6 of the supporting test die, the holding rod threads 7 can be matched with the holding threaded holes 8 of the outer frame, the holding rod threads 7 can be matched with the holding threaded holes 13 of the inner bone grafting fusion device, the outer frame 4 is provided with an upward protruding outer frame fixing pin 9, the outer frame fixing pin 9 is provided with a row of back-off lock hooks d1, the back-off lock hooks d1 face the direction of the holding threaded holes 8 of the outer frame, and when in use, the back-off lock hooks d1 which are abutted to lumbar vertebrae are arranged in a round corner transition mode.

The outer frame fixing pins 9 comprise an outer frame left upper fixing pin 18, an outer frame left lower fixing pin 19, an outer frame right upper fixing pin 20 and an outer frame right lower fixing pin 21, wherein the outer frame left upper fixing pin 18, the outer frame left lower fixing pin 19, the outer frame right upper fixing pin 20 and the outer frame right lower fixing pin 21 are distributed on the upper side and the lower side of the outer frame 4 in pairs, and a row of anti-back locking hooks d1 are respectively arranged on the outer frame left upper fixing pin 18, the outer frame left lower fixing pin 19, the outer frame right upper fixing pin 20 and the outer frame right lower fixing pin 21.

The slotting chisel 3 comprises a slotting chisel bit a1, a slotting chisel sleeve a2 and a slotting chisel beating boss a3, the slotting chisel bit a1 comprises a bit frame beam a4, a bit frame left vertical beam a5 and a bit frame right vertical beam a6, the bit frame beam a4 is arranged at the front end of the slotting chisel sleeve a2, the slotting chisel beating boss a3 is arranged at the tail end of the slotting chisel sleeve a2, the bit frame left vertical beam a5 is arranged at the left end of the bit frame beam a4, the bit frame right vertical beam a6 is arranged at the right end of the bit frame beam a4, the upper end of the bit frame left vertical beam a5 is provided with an upper left bit a7, the lower end of the bit frame left vertical beam a5 is provided with a lower left bit a8, the upper end of the bit frame right vertical beam a6 is provided with an upper right bit a9, the lower end of the bit frame right vertical beam a6 is provided with a lower right bit a10, the tool bit frame beam a4, the tool bit frame left vertical beam a5, the tool bit frame right vertical beam a6, the left upper tool bit a7, the left lower tool bit a8, the right upper tool bit a9 and the right lower tool bit a10 are matched to form a slotting cutter bit displacement space a11, the support test die 1 can enter the slotting cutter bit displacement space a11, the tool bit frame beam a4 is provided with a tool bit frame beam displacement hole a12, a slotting cutter beating boss displacement hole a13 is formed in a slotting cutter beating boss a3, and the tool bit frame beam displacement hole a12, a hole in a slotting cutter sleeve a2 and the slotting cutter beating boss displacement hole a13 are sequentially communicated, so that the tool bit frame beam a4, the slotting cutter sleeve a2 and the slotting cutter beating boss a3 are sleeved on the holding rod 2 and can move back and forth.

The front ends of the left upper cutter head a7, the left lower cutter head a8, the right upper cutter head a9 and the right lower cutter head a10 are all obliquely arranged, the front end of the left upper cutter head a7 is provided with a left upper cutter head slotting a14, the left upper cutter head a7 is provided with a left upper cutter head locating tip a15, the inner wall of the left upper cutter head a7 is provided with a left upper cutter head slotting a16, the left upper cutter head slotting a14 is communicated with the left upper cutter head slotting a16, the front end of the left lower cutter head a8 is provided with a left lower cutter head slotting a17, the left lower cutter head slotting a19 is arranged on the inner wall of the left lower cutter head a8, the left upper cutter head slotting a16 is communicated with the left lower cutter head slotting a19, the front end of the right upper cutter head slotting a9 is provided with a right upper cutter head slotting a20, the right upper cutter head slotting a21 is communicated with the right lower cutter head slotting a22, the right cutter head slotting a25 is arranged on the inner wall of the right lower cutter head slotting a10, the left lower cutter head slotting a9 is communicated with the right lower cutter head slotting a10, and the lower cutter head slotting a25 is arranged on the inner wall of the right lower cutter head slotting a 10.

The anti-rotation positioning pin a26 is arranged on the slotting chisel beating boss a3, the front end of the anti-rotation positioning pin a26 enters the slotting chisel beating boss displacement hole a13, the holding rod 2 is provided with an anti-rotation positioning groove a27, and when the slotting chisel beating boss a3 is sleeved on the holding rod 2, the anti-rotation positioning pin a26 on the slotting chisel beating boss a3 enters the anti-rotation positioning groove a27 to be in butt fit.

The external frame 4 and the internal bone grafting fusion device 5 are fixed through screw bolts screwed into the external frame holding threaded holes 8, the tail parts of the screw bolts on the external frame holding threaded holes 8 are pressed on the external frame 4 and the internal bone grafting fusion device 5, and the structure enables the external frame holding threaded holes to be dual-purpose, one is holding, the other is fixing the external frame 4 and the internal bone grafting fusion device, and the structure is simple and convenient to install.

As required, detailed embodiments of the present invention are disclosed herein, but it is to be understood that the disclosed embodiments are merely exemplary of the invention that may be embodied in various and alternative forms. The figures are not necessarily drawn to scale. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Claims (2)

1. A side access latch hook integrated frame lumbar interbody fusion cage is characterized in that: the device comprises a supporting test die (1), a holding rod (2), a slotting chisel (3), an outer frame (4) and an inner bone grafting fusion device (5), wherein the supporting test die (1) is an arc supporting plate, a supporting test die holding threaded hole (6) is formed in the supporting test die (1), holding rod threads (7) are formed in the front end of the holding rod (2), an outer frame holding threaded hole (8), an outer frame bone grafting upper and lower through hole (10) and an outer frame front side inner bone grafting fusion device mounting groove (11) are formed in the outer frame (4), an inner bone grafting fusion device upper and lower bone grafting hole (12) and an inner bone grafting fusion device holding threaded hole (13) are formed in the inner bone grafting fusion device (5), after the inner bone grafting fusion device (5) is inserted into the outer frame front side inner bone grafting fusion device mounting groove (11), the outer frame bone upper and lower through hole (10) are communicated with the inner bone grafting fusion device upper and lower bone grafting hole (12), the supporting test die (1) can be inserted into the outer frame front side inner bone grafting fusion device mounting groove (11) and the supporting test die (7) can be matched with the holding threaded hole (7) through the holding threaded hole (11), an outer frame fixing pin (9) protruding vertically upwards is arranged on the outer frame (4), the outer frame fixing pin (9) is used for being inserted into a slot of the slotting chisel (3) which is chiseled on the lumbar vertebra, a row of anti-back locking hooks (d 1) are arranged on the outer frame fixing pin (9), the anti-back locking hooks (d 1) face the direction of the outer frame holding threaded holes (8), and when in use, the first anti-back locking hooks (d 1) abutted to the lumbar vertebra are in transition arrangement; the outer frame fixing pins (9) comprise outer frame left upper fixing pins (18), outer frame left lower fixing pins (19), outer frame right upper fixing pins (20) and outer frame right lower fixing pins (21), the outer frame left upper fixing pins (18), the outer frame left lower fixing pins (19), the outer frame right upper fixing pins (20) and the outer frame right lower fixing pins (21) are distributed on the upper side and the lower side of the outer frame (4) in pairs, and a row of anti-back lock hooks (d 1) are arranged on the outer frame left upper fixing pins (18), the outer frame left lower fixing pins (19), the outer frame right upper fixing pins (20) and the outer frame right lower fixing pins (21); the slotting chisel (3) comprises a slotting chisel bit (a 1), a slotting chisel sleeve (a 2) and a slotting chisel beating boss (a 3), the slotting chisel bit (a 1) comprises a bit frame cross beam (a 4), a bit frame left vertical beam (a 5) and a bit frame right vertical beam (a 6), the bit frame cross beam (a 4) is arranged at the front end of the slotting chisel sleeve (a 2), the slotting chisel beating boss (a 3) is arranged at the tail end of the slotting chisel sleeve (a 2), the bit frame left vertical beam (a 5) is arranged at the left end of the bit frame cross beam (a 4), the bit frame right vertical beam (a 6) is arranged at the right end of the bit frame cross beam (a 4), the upper end of the bit frame left vertical beam (a 5) is provided with an upper left bit (a 7), the lower end of the bit frame left vertical beam (a 5) is provided with a lower left bit (a 8), the upper end of the bit frame right vertical beam (a 6) is provided with an upper bit 9, the lower bit frame (a) is formed with the lower bit frame (a) and the lower bit frame (a) is matched with the upper bit frame (a 5), the bit frame lower bit (a) is formed with the lower bit frame (a 5), the bit frame (a 5) is matched with the bit frame lower bit (a 5) and the bit frame lower bit (a 5) is formed with the bit frame lower bit (a 5), the support test die (1) can enter a slotting chisel head displacement space (a 11), a cutter head frame beam (a 4) is provided with a cutter head frame beam displacement hole (a 12), a slotting chisel beating boss (a 3) is provided with a slotting chisel beating boss displacement hole (a 13), the cutter head frame beam displacement hole (a 12), a hole on a slotting chisel sleeve (a 2) and the slotting chisel beating boss displacement hole (a 13) are communicated in sequence, so that the cutter head frame beam (a 4), the slotting chisel sleeve (a 2) and the slotting chisel beating boss (a 3) are sleeved on the holding rod (2) and can move back and forth; the front ends of the left upper cutter (a 7), the left lower cutter (a 8), the right upper cutter (a 9) and the right lower cutter (a 10) are all obliquely arranged, the front end of the left upper cutter (a 7) is provided with a left upper cutter slotting (a 14) so that the left upper cutter (a 7) is provided with a left upper cutter positioning tip part (a 15), the inner wall of the left upper cutter (a 7) is provided with a left upper cutter slotting (a 16), the left upper cutter slotting (a 14) is communicated with the left upper cutter slotting (a 16), the front end of the left lower cutter (a 8) is provided with a left lower cutter slotting (a 17) so that the left lower cutter (a 8) is provided with a left lower cutter positioning tip part (a 18), the inner wall of the left lower cutter (a 8) is provided with a left lower cutter slotting (a 19), the left upper cutter slotting (a 16) is communicated with the left lower cutter positioning tip part (a 19), the left upper cutter slotting (a 16) is communicated with the left upper cutter slotting (a 20), the front end of the right upper cutter (a 20) is provided with the front end of the right upper cutter (a 9) and the front end of the right upper cutter (a 20), the lower right cutter head (a 10) is provided with a lower right cutter head positioning tip (a 24), a lower right cutter head bone outlet groove (a 25) is formed in the inner wall of the lower right cutter head (a 10), the lower right cutter head slotting (a 23) is communicated with the lower right cutter head bone outlet groove (a 25), and the upper right cutter head bone outlet groove (a 22) and the lower right cutter head bone outlet groove (a 25) are oppositely arranged; the anti-rotation positioning pin (a 26) is arranged on the grooving chisel beating boss (a 3), the front end of the anti-rotation positioning pin (a 26) enters the grooving chisel beating boss displacement hole (a 13), the holding rod (2) is provided with an anti-rotation positioning groove (a 27), and when the grooving chisel beating boss (a 3) is sleeved on the holding rod (2), the anti-rotation positioning pin (a 26) on the grooving chisel beating boss (a 3) enters the anti-rotation positioning groove (a 27) to be in butt fit.

2. The lateral access shackle integrated frame lumbar interbody cage of claim 1, wherein: the external frame (4) and the internal bone grafting fusion device (5) are fixed through screw bolts screwed into the external frame holding threaded holes (8), and the tail parts of the screw bolts on the external frame holding threaded holes (8) are tightly pressed on the external frame (4) and the internal bone grafting fusion device (5).