DE3119583A1 - Screwdriver and polygon socket screw for surgery - Google Patents

Abstract

The screwdriver has a ball-like terminal section which is subdivided into facets. The design is such that the screwdriver can be inserted into the hexagon socket of a hexagon socket screw and can be pivoted in all directions.

Description

Screwdriver and socket head screw

for surgery The invention relates to a drill screwdriver and a socket head screw for surgery, with one in the head of the socket head screw Endab to be introduced section of the screwdriver.

In surgery are known to be used for bone fractures in general Metal plates arranged at the break point and on both sides of the break with screwed to the bone. They are used as screws in all areas of technology known hexagon socket screws are used, using a screwdriver with an external hexagon screwdriver in the plate and the Bone to be screwed in. After the broken bone has healed, the metal plate must removed with the screws. Generally this happens after a few months. During this time, the tissue has also completely renewed itself. As it is required is, the polygon on the outside of the screwdriver is always perpendicular to the axis of the hexagon socket Inserting the screw is always a way of removing the plate and screws make relatively large tissue cut so that the screw heads in the axial direction of the screwdriver and the hexagon socket of the screw head are exposed.

A much smaller one is generally sufficient to remove the metal plate Tissue cut. It is readily understood that such tissues would cut in a postoperative treatment should be as short as possible, especially since the follow-up treatment time should also be as small as possible.

The invention is therefore based on the object of a screwdriver to create, which makes it possible to cut these screws by means of a small tissue to remove, which in the ideal case is much smaller than the incision to be made the metal plate in question was required. The invention is also the The task is to form these screws in the sense of the smallest possible tissue cuts, whereby the mutual adjustment of screwdriver and screw according to the principle key and lock must be taken into account.

This object is achieved according to the invention in that the largest Cross section of the end portion of the screwdriver complementary to the polygonal socket line of the screw head is formed by the corner points of the largest cross section Arcs of great circles of a sphere are placed, the center of which is on the axis of the screwdriver is arranged and that the circular arcs limit facet surfaces. In the simplest case, the shaft of the screwdriver goes into a hemispherical one Form above, on its plane, with the center of the hemisphere coinciding the screwdriver shaft is on. Here the shaft has a smaller one Diameter than the hemisphere. The outline of this hemispherical structure in the The hemisphere level is complementary to the hexagon socket of the screw head, which corresponds to a prismatic body with the outline of a regular hexagon. Complementary within the meaning of the invention is to be understood as meaning that a training is made on the principle of key and lock.

Through these corner points of the outline are in the plane of the hemisphere the semicircles of the hemisphere are placed, which run in planes passing through the axis of the screwdriver shaft. Instead of the hemisphere can also a spherical cap can be provided. Generally speaking, the corner points of the largest Cross-sectional arcs laid out by great circles, with the center of the sphere runs on the axis of the shaft of the screwdriver, under facet surfaces are to be understood within the meaning of the invention, the areas bounded by the arcs are and by the straight connection of the intersections of these arcs with the planes perpendicular to the axis of the screwdriver are given by These measures are achieved that through a small tissue incision through the End portion of the screwdriver in the screw head due to the elasticity of the Tissue can be introduced. This is easily possible through the fabric feel the inside edge of the screw heads through it, so one visual inspection is not required. The fact that the end section as a hemispherical Formation formed with a complementary outline in the plane defined above on the one hand, the screwdriver can be inclined to the axis of the hexagon socket of the screw head are introduced and takes due to the complementary training with a rotary movement the screw with, whereby both, screw and screwdriver to a certain extent cooperate in the manner of a cardanic joint. Is essential here that, due to the bone structure, no large torques are required are, for example, in the field of mechanical engineering when loosening screws required are. There is an entrainment of the screw at different angles of inclination of the screwdriver is possible, according to the invention over a small tissue cut all the socket head screws away, keeping the cut so placed is that optimally all screws can be easily removed. The angle of inclination between the axis of the shaft of the screwdriver and the axis of the hexagon socket the screw head is essentially related by the diameter of the shank given to the largest ruin. In a further embodiment of the invention the shaft of the screwdriver is therefore designed so.

that he has a circumferential with the largest cross section of the end portion Shoulder limited.

When turning the screwdriver, its end section and the Hexagon socket of the screw head always section or. area by area in positive or non-positive engagement.

To enlarge these areas is possible in a further embodiment the invention of the shaft of the screwdriver frusto-pyramidal in the largest Cross-section of the end portion over, with the edges of the truncated pyramid through the corner points of the largest cross-section of the screwdriver are defined.

In a further embodiment of the invention, the floor area is of the inner polygon of the screw head complementary to the facet surfaces of the Formed screwdriver. This measure ensures that when screwing in of the screws the axis of the screwdriver is aligned with the axis of the screw, as soon as the bottom area and facet surfaces are in engagement, the form-fitting Maintain connection and thus the aligned alignment when screwing in further remains while the screw is unscrewed in the manner according to the invention can.

The screwdriver according to the invention also offers the following Advantages: because of the cardan principle = the power transmission follows the Screw the pre-drilled path in the bone, even if the screw axis is from deviates from the axis of the hole. This is particularly important with soft bone tissue (Osteoporosis) and also for fracture fixation. In many cases it was through so far Tear of the bone tissue no longer possible secure fixation and the operation had to be completed unsatisfactorily. Of the according to the invention Screwdriver is also particularly advantageous in inaccessible places, such as For example, when fixing pan roof shells in osteoporosis, protrusion acetabuli or hip dysplasia. Here it has so far only been with considerable difficulty possible to fix the marginal screws, what by the invention Screwdriver is easily possible.

In principle, it is possible to use the screwdriver according to the invention With regard to the known hexagon socket screws with the inventive Features.

However, it was found that it is advantageous instead of the hexagon socket an inside octagon etc. for the screw and accordingly an outside octagon etc. to be selected for the largest cross-section of the screwdriver, as this results in a more uniform one Turning and also a more constant power transmission to the screw results. In A still further embodiment of the invention are therefore the Nehrkantlinie des Screw head and the complementary polygonal line of the screwdriver an N-corner, whose number of corners is greater than six.

According to the invention, the n-corner can be a regular or an irregular one N-gon, where the number of corners can be even or odd.

The invention is shown in the drawing using exemplary embodiments explained.

They show: Fig.la a first embodiment of the invention Screwdriver, Fig. 1 a known hexagon socket screw used in surgery, FIG. 2 shows a second longitudinal example of the screwdriver according to the invention. FIG. 3 a third embodiment and FIG. 4 an axial section through an inventive Embodiment of a polygon socket screw Fig.5 the use of the invention Screwdriver when fixing a pan roof shell.

In Fig.ia, 1 is a screwdriver according to the invention and in Fig.ib with 2 a well-known hexagon socket screw, as used in surgery for Use is shown. The screwdriver 1 has a handle 3, a Shank 4 and at its end remote from the handle a spherical end section on, which is denoted by 5. The shaft 4 goes in the area of the end face 6 of the spherical end portion in this over. This spherical end section has in this end face its largest cross-section and also a larger cross-section than the shaft 4 itself. The end face 6 thus defines the largest cross section of the end portion of the screwdriver O The outline of the end face 6 is through a regular one Given hexagon. The intersection point of the center line respectively.

The axis of the shaft of the screwdriver is defined by the end face 6 the center of a hemisphere through which standing vertically on the face Semicircles are laid, which are laid through the corner points of the hexagon. These Arcs of the semicircles form the closed ones with the corresponding straight sections Edges of facet surfaces 7, which are created by the fact that the material of the hemisphere in planes parallel to the end face 6 with a straight connection of the semicircular arcs is removed.

The hexagon socket screw 2 of Fig.1b has a hexagon socket that complementary to the external hexagon, i.e. to that of a regular hexagon given outline of the end face 6 is formed. For this reason, the Screwdrivers on the one hand can be inserted vertically like a screwdriver with an external hex is possible. It can also be in this position of the screwdriver the screw 2 can be tightened or loosened, since the screwdriver with an edge zone (seen in the axial direction) form and force fit the hexagon socket of the screw engages. When tilting the screwdriver, individual sections of this edge zone are always in Engagement with the hexagon socket of the screw so that the axis is in an inclined position the screwdriver to the axis of the screw. a loosening of the screw is possible. This inclination is limited by the ratio of the diameter of the Shaft 4 to the diagonals # through connecting the opposite corner points of the shoulder 6 the different inclination required to loosen the various screws on a metal plate is possible, can cut through a small tissue through the loosening of all Screws are done.

Fig. 2 shows another embodiment of the invention Screwdriver. Its spherical end section shows a shoulder that goes through a regular octagon is given. The inside edge of the screw head must then accordingly be trained.

3 shows a third embodiment. The shaft 4 of the screwdriver goes in the shape of a truncated pyramid into the largest cross-section of the end portion, i.e. in the shoulder of the hemispherical end section (see. Number 6 in Fig.1a) over. The edges 8 of the truncated pyramid are through the corner points 9 of the outer polygonal line of the screwdriver, which in the present case has a regular octagon given is. This measure ensures that the end section of the screwdriver after its introduction into the inner edge of the screw head at its maximum possible Inclination in the area of the truncated pyramid additionally to the inner edge of the Screw creates, so that thereby a better power or torque transmission 4 shows an embodiment of a screw according to the invention in Longitudinal section. The polygon ii of the Screw head 10 is through a prismatic section 12 and a spherical section 13 are given.

The outline of the prismatic section is regular Given an octagon, the lower face of which is the corner points of the spherical section defines, through which semicircles are laid, their center on the puncture point the axis of the prismatic section lies. This section is complementary formed into the hemispherical section of the screwdriver in FIG. 3.

5 shows the fixation of a pan roof shell by means of the inventive Screwdriver, which is denoted by 4. From this figure it can be seen that the surgeon finds the most comfortable angle between the axis of the screwdriver and the axis of the respective screw can be selected to ensure the optimal fit of the screw bring about.

Claims (5)

Screwdriver and hexagon socket head screw for surgery patent claims 1. Surgery, with an end section to be inserted into the head of the socket head screw of the screwdriver, characterized in that the largest cross section of the end portion (5) of the screwdriver (1) complementary to the polygonal inner line (-) of the Screw head (2) is formed through the corner points of the largest cross section Arcs (-) of great circles of a sphere are placed, the center of which is on the axis of the screwdriver is arranged and that the circular arcs are facet surfaces (7) limit 2 ~) screwdriver according to claim 1, characterized in that the shaft (4) of the screwdriver with the largest cross-section of the end section bounded by a circumferential shoulder. 3.) Screwdriver according to claim 1, characterized in that the Shank of the screwdriver in the shape of a truncated pyramid in the largest cross section of the End portion passes and that the edges (8) of the truncated pyramid (-) through the corner points of the largest cross-section run. 4.) Allen screw for a screwdriver according to one of the Claims 1 to 3, characterized in that the bottom area of the inner polygon (11) of the screw head complementary to the facet surfaces of the screwdriver is trained. 5.) Screwdriver and socket head screw according to one of the claims 1 to 4, characterized in that the polygonal line of the screwdriver and the complementary polygonal line of the screw head is an N-gon and that the number the corners of the N-gon is larger or smaller than six.