CN111616788B

CN111616788B - Bone screw and perforating device with high anti-pulling capacity

Info

Publication number: CN111616788B
Application number: CN202010445125.0A
Authority: CN
Inventors: 宋仁才
Original assignee: Beijing Qingbei Medical Instrument Co ltd
Current assignee: Beijing Qingbei Medical Instrument Co ltd
Priority date: 2020-05-23
Filing date: 2020-05-23
Publication date: 2022-04-26
Anticipated expiration: 2040-05-23
Also published as: CN111616788A

Abstract

A bone screw with high anti-pulling capacity comprises a nut head and a screw rod, wherein the screw rod is of a cylindrical hollow structure, a groove is formed in the nut head at an opening at the bottom end, and a threaded through hole communicated with an inner cavity of the screw rod is formed in the bottom surface of the groove; the screw is inserted into the threaded through hole, and the top of the screw is in threaded fit with the threaded through hole; the inner screw is coaxial with the screw; the inner screw is of a hollow structure, and a conical head at the bottom end of the inner screw is composed of a plurality of metal strips which are fixedly connected end to end and separated from each other in the middle; the screw rod is provided with an inclined through hole matched with the inclined inner screw, and the inclined inner screw extends out of the screw rod; the screw is made of an absorbable organic material. The bone screw has very strong anti-pulling capacity.

Description

Bone screw and perforating device with high anti-pulling capacity

Technical Field

The invention relates to a bone screw, in particular to a bone screw for fracture surgery.

Background

The bone screw is expected to be free of dislocation during the treatment period when in use, which requires the bone screw to have high holding force and good mechanical bending resistance and tensile resistance. Usually, the mechanical properties are all satisfactory. However, the key point is the holding force, and the performance of the holding force is directly related to the structure of the screw and the characteristics of the bone in which the screw is located. Generally, dislocation of the screw mostly occurs in the cancellous bone, if the thread pitch of the screw is small, the difference between the inner diameter and the outer diameter of the thread is small, so that the cancellous bone is easily broken or extruded and deformed by the thread in the cancellous bone, and the axial movement or circumferential rotation of the screw is easily generated instead of the stable embedded thread.

In order to obtain a high holding force, the screw thread is usually large, and the diameter of the screw is also large, so that the bone is greatly damaged by the screw. Therefore, how to obtain stable holding force with less damage becomes an important point in designing the bone screw.

Disclosure of Invention

The present invention aims to provide a bone screw with less damage and high holding power.

In order to achieve the purpose, the nut comprises a nut head and a screw rod, wherein the screw rod is of a cylindrical hollow structure, the bottom end of the screw rod is provided with an opening, the nut head is provided with a groove, and the bottom surface of the groove is provided with a threaded through hole communicated with the inner cavity of the screw rod;

the screw is inserted into the threaded through hole, and the top of the screw is in threaded fit with the threaded through hole; the thread pitch of the thread matched with the thread through hole is 1/3-1/2 of the other part of the thread pitch, and the inner screw is coaxial with the screw rod;

the diameter of the inner screw is 1/2-1/3 of the inner diameter of the cavity of the screw; the inner screw is of a hollow structure, and a conical head at the bottom end of the inner screw is composed of a plurality of metal strips which are fixedly connected end to end and separated from each other in the middle;

the screw rod is provided with an inclined through hole matched with the inclined inner screw, and the inclined inner screw extends out of the screw rod;

the screw is made of absorbable organic materials;

the gasket comprises a cylindrical cavity, the bottom of the cylindrical cavity is a bottom plate, a through hole for a screw to pass through is formed in the center of the cylindrical cavity, a plurality of uniformly distributed nail holes are formed in the bottom plate, straight nails are inserted into the nail holes, an outer ring and an inner ring are fixed on the bottom plate, the outer ring is tightly attached to the side wall of the cylindrical cavity and the bottom plate, the inner diameter of the inner ring is the same as the diameter of the central through hole of the bottom plate, the bottom wall of the inner ring is tightly attached to the upper surface of the bottom plate, annular metal sheets are fixed on the upper surfaces of the outer ring and the inner ring, the heights of the outer ring and the inner ring are within the range of 0.5-1mm, a screen is fixed on the outer ring and the inner ring, the thickness of the screen is 0.5-1mm, the nail holes correspond to screen holes of the screen, a vertically arranged chute is formed in the inner side wall of the cylindrical cavity, and the bottom end of a nut head is fixed to a protrusion matched with the chute.

Preferably, the wall thickness of the screw is 1/8-1/6 of the diameter of the screw, and the external diameter of the screw thread is 1/7-1/5 of the diameter of the screw;

preferably, the top thread pitch of the inner screw is 1/3-1/2 of the other part pitch.

Preferably, the inner screw is inserted into the screw at an inclination.

Preferably, the inner screw is coaxial with the screw.

Furthermore, the metal strip of the conical head is made of memory metal, and the maximum outer diameter of the conical head is larger than the diameter of the inner screw through bending deformation at 36 degrees.

A spreader comprises a conduit with the bottom end communicated with a rubber ball, wherein the conduit can be inserted into an inner screw, and the rubber ball can be inserted into a conical head.

A grinding assembly comprises a core hole punching device and a core hole bottom grinding device, wherein the core hole punching device is used for drilling a drill string hole in a skeleton; the core hole bottom grinding device comprises a fixing rod, the fixing rod is hollow, the bottom end of the fixing rod is fixedly communicated with a saccule, the saccule is in an ellipsoid shape or a fusiform shape after being expanded, and a grinding sheet is fixed on the outer surface of the saccule.

The invention has the beneficial effects that:

1. the hollow screw rod can reduce the volume of punching holes on the skeleton and reduce the damage to the skeleton;

2. the fixed connection inner screw is added in the hollow screw, so that the holding force of the screw can be effectively improved;

3. the grinding device is matched with the grinding device, a cavity with the diameter larger than the outer diameter of the inner screw can be ground at the bottom end of the inner screw, the opener is matched with the cavity to open the conical head at the bottom end of the inner screw in the cavity, a fixing anchor is formed in a skeleton, and the integral anti-pulling capacity of the screw is effectively improved.

4. When the inner screw is obliquely inserted into the bone, the pulling resistance can be effectively improved.

5. The gasket is fixed by self is accomplished by a plurality of tiny straight nails, avoids dense bone or the bone bark breakage, and can effectively guarantee that the screw can not take place to rotate.

6. The crossed inclined screws enable the whole screw to have very strong drawing resistance and the screw cannot rotate and dislocate.

Drawings

Fig. 1 is a schematic view of a bone screw in a bone.

FIG. 2 is a schematic view of the structure of the ring hole punching device.

FIG. 3 is a schematic view of the bottom end structure of the ring hole punch.

FIG. 4 is a schematic view of a core hole drilling apparatus.

Fig. 5 is a schematic structural diagram of a core hole bottom grinding device.

Fig. 6 is a partially enlarged view of fig. 5.

Fig. 7 is a schematic structural view of the inner screw.

Fig. 8 is a partially enlarged view of fig. 7.

Fig. 9 is a schematic structural view of the bottom end of the inner screw in an expanded state.

FIG. 10 is a schematic view of the inner screw bottom end spreader.

Fig. 11 is a schematic view of a gasket construction.

FIG. 12 is a schematic view of a gasket chassis configuration.

Fig. 13 is a partially enlarged view of fig. 11.

Fig. 14 is a top view of the nut head.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings. The materials used for the bone screw are all common metal materials used for producing the bone screw.

As shown in fig. 1 to 14, a bone screw 10 with high resistance to pulling-out comprises a nut head 11 and a screw 12, wherein the screw 12 is a cylindrical hollow structure with an open bottom end, and the wall thickness is preferably 1/8-1/6 of the diameter after test, and the external diameter of the screw 12 is 1/7-1/5 of the diameter of the screw 12;

a groove 13 is formed in the nut head 11, and a threaded through hole communicated with an inner cavity of the screw 12 is formed in the bottom surface of the groove 13;

the screw rod further comprises an inner screw 60, the inner screw 60 penetrates through the threaded through hole, the top of the inner screw 60 is in threaded fit with the threaded through hole, the thread pitch of the thread matched with the threaded through hole is 1/3-1/2 of the other part of the thread pitch, and the inner screw 60 is coaxial with the screw rod 12;

the diameter of the inner screw 60 is 1/2-1/3 of the inner diameter of the cavity of the screw 12;

the screw rod structure further comprises two inclined inner screws 80 which are symmetrical along the axis of the screw rod 12, inclined threaded holes are formed in the bottom surface of the groove 13 and matched with the inclined inner screws 80, inclined through holes matched with the inclined inner screws 80 are formed in the screw rod 12, and the inclined inner screws 80 extend out of the screw rod 12.

The screw 12 is made of an absorbable organic material. Thus, the purpose of the screw 12 is to provide initial overall stability, and as the screw 12 is gradually absorbed, the screw 12 becomes a bone growth promoting drug, or the screw 12 entraps growth factors, which are released as the screw 12 is absorbed, thereby promoting bone healing.

Meanwhile, the crossed inclined inner screw 80 enables the overall stability of the screw to be stronger, has high anti-pulling capacity and cannot rotate and dislocate.

As shown in fig. 9 and 10, in order to further improve the pulling resistance of the inner screw, the inner screw 60 is also provided with a hollow structure, and a conical head 61 at the bottom end of the hollow structure is composed of a plurality of metal strips which are fixedly connected end to end and separated from each other in the middle. After the internal screw is screwed into a bone, the internal screw is inserted by using the spreader 70, the spreader 70 is a conduit with the bottom end communicated with a rubber ball, the rubber ball of the spreader 70 extends into the conical head of the internal screw 60 and then liquid is injected into the rubber ball or the rubber ball is blown up to spread the conical head 61, and the maximum diameter of the spread conical head is larger than the diameter of the internal screw 60.

The diameter of the conical head needs to be enlarged to clamp the column bone, so that the holding force is improved, therefore, the metal strip of the conical head can be made of memory metal and is bent and deformed at 36 degrees, and the maximum outer diameter of the conical head is larger than the diameter of the inner screw. In order to avoid the memory metal from deforming too early when being screwed into the bone, the spreader 70 can also be used as a cooling metal, the rubber ball of which is filled with cooling liquid, so that the temperature of the conical head 61 is always lower than 36 ℃, and when the inner screw is screwed to a preset position, the spreader is pulled out. When the conical head is heated by the temperature of the human body, the memory metal is naturally bent.

In order to avoid the cracking or damage of the cancellous bone caused by the expansion of the conical head 61, a core hole punching device 40 is needed for punching the mounting hole of the inner screw 60, and a core hole bottom grinding device 50 is added, and comprises a fixing rod, the fixing rod 50 is hollow, the bottom end of the fixing rod is fixedly communicated with the balloon 51, the balloon 51 is in an ellipsoid shape or a fusiform shape after being expanded, and the grinding sheet 52 is fixed on the outer surface of the balloon 51, as shown in fig. 6, the grinding sheet 52 is a metal grinding sheet, and preferably, the length direction of the grinding sheet is parallel to the axis of the balloon 51.

In order to avoid the rotation of the screw, a gasket 30 is sleeved at the bottom of the nut head 11, the gasket 30 comprises a cylindrical cavity, the bottom of the cylindrical cavity is a bottom plate 31, a through hole for the screw 12 to pass through is formed in the center of the cylindrical cavity, a plurality of uniformly distributed nail holes 32 are formed in the bottom plate 31, straight nails are inserted into the nail holes 32, an outer ring 311 and an inner ring 312 are fixed on the bottom plate 31, the outer ring is tightly attached to the side wall of the cylindrical cavity and the bottom plate 31, the inner diameter of the inner ring is the same as the diameter of the through hole in the center of the bottom plate 31, the bottom wall of the inner ring is tightly attached to the upper surface of the bottom plate 31, annular metal sheets 33 are fixed on the upper surfaces of the outer ring and the inner ring, the height of the outer ring and the height of the inner ring are within the range of 0.5-1mm, and the thickness of the metal sheets 33 is within the range of 0.01-0.1mm by taking stainless steel as an example. A screen 34 is fixed on the outer ring and the inner ring, the thickness of the screen 34 is 0.5-1mm, the nail holes 32 correspond to screen holes of the screen 34, a vertically arranged sliding groove is formed in the inner side wall of the cylindrical cavity, and the bottom end of the nut head 11 is fixed on a protrusion matched with the sliding groove. When the nut head 11 is screwed into the skeleton, the protrusion of the nut head is in the sliding groove to drive the gasket to rotate. The straight nail has not yet contacted the bone, and when the straight nail is screwed to the last circle, the straight nail starts to contact the bone, and because the surface of the bone is not flat, the straight nail close to the bone can be subjected to more pressure, and the pressure far from the bone is small. Because the metal sheet is very thin, the straight nail close to the skeleton can jack up the metal sheet, so that certain pressure can be buffered, and a fixing effect can be achieved.

The design is that the common gasket only has a circle of fixing nails at the outermost side, so that in order to ensure that the gasket has enough fixing force, the fixing nails of the gasket are relatively large, and the distance between the fixing nails and the screw fixing holes is relatively short, so that bones at the fixing positions of the fixing nails are easy to break, damage is caused, and meanwhile, the fixing force is weakened. Therefore, the central connecting line of the nail holes on the bottom plate 31 is vertical to the axis of the bottom plate to form a group, 2-4 nail holes are arranged in each group, 4-8 groups are arranged, and the nail holes in each group are uniformly distributed at intervals along the axis of the bottom plate 31.

In order to form a ring suitable for the screw 12, a ring punching device 20 is required, which has an outer diameter slightly smaller than the outer diameter of the screw, an inner diameter slightly larger than the inner diameter of the ring 12, and a crushing tooth at the bottom end.

When the internal screw 60 is to be screwed out after the bone is healed, the bottom end of the conical head 61 of the internal screw can be pressed downwards by using a metal rod, so that the maximum diameter of the conical head is reduced, and the internal screw can be pulled out from the mounting hole of the internal screw 60. Of course, if the cone head is made of memory metal and is made of two-way memory metal, that is, there is one stable form above a certain temperature and another stable form below the certain temperature, the rubber ball of the spreader can be used to cool the cone head again to shrink the cone head.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A bone screw with high anti-pulling capacity comprises a nut head and a screw rod, and is characterized in that the screw rod is of a cylindrical hollow structure, the bottom end of the screw rod is provided with an opening, the nut head is provided with a groove, and the bottom surface of the groove is provided with a threaded through hole communicated with the inner cavity of the screw rod;

the screw is made of absorbable organic materials;

2. The bone screw with high resistance to pullout of claim 1, wherein the wall thickness of the shank is 1/8-1/6 of its diameter, and the outside diameter of the thread of the shank is 1/7-1/5 of the shank diameter.

3. The bone screw having high pullout resistance of claim 1, wherein the top thread pitch of the inner screw is 1/3-1/2 of the other part pitch.

4. The bone screw with high pullout resistance according to claim 1, wherein the inner screw is inserted obliquely into the threaded rod.

5. The bone screw with high resistance to pull-out of claim 1, wherein the metal strip of the bit is a memory metal, and the maximum outer diameter of the bit is larger than the diameter of the inner screw by bending deformation at 36 degrees.

6. A distractor for fitting a bone screw according to any one of claims 1 to 5, comprising a conduit having a lower end communicating with a rubber ball, the conduit being insertable into the inner screw and the rubber ball being insertable into the head.

7. A milling assembly for use with a bone screw according to any one of claims 1 to 5, comprising a core hole drilling means for drilling a drill string hole in the bone and a core hole bottom milling means; the core hole bottom grinding device comprises a fixing rod, the fixing rod is hollow, the bottom end of the fixing rod is fixedly communicated with a saccule, the saccule is in an ellipsoid shape or a fusiform shape after being expanded, and a grinding sheet is fixed on the outer wall of the saccule.