U.S. patent application number 13/483792 was filed with the patent office on 2012-12-27 for element with a shank and a holding element connected to it for connecting to a rod.
This patent application is currently assigned to Biedermann Technologies GmbH & Co. KG. Invention is credited to Lutz Biedermann, Jurgen HARMS.
Application Number | 20120328394 13/483792 |
Document ID | / |
Family ID | 7707017 |
Filed Date | 2012-12-27 |
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United States Patent
Application |
20120328394 |
Kind Code |
A1 |
Biedermann; Lutz ; et
al. |
December 27, 2012 |
ELEMENT WITH A SHANK AND A HOLDING ELEMENT CONNECTED TO IT FOR
CONNECTING TO A ROD
Abstract
An element with a shank (1) and a holding element (2) connected
to it for connecting to a rod (100) is provided, wherein the
holding element (2) has a recess (3) having a U-shaped
cross-section for receiving the rod (100) with two legs (4, 5) open
at one end (6) and an inner thread (7) on the open legs (4, 5) and
a locking element (9) with an outer thread (8) which cooperates
with the inner thread of the legs, wherein the inner thread (7) of
the legs and the outer thread (8) of the locking element are
constructed with a flat thread in which the two flanks (7a, 7b; 8a,
8b)) enclose an angle of 90.degree. in each case with the screw
axis (S, M). This prevents splaying of the open legs when the
locking element is screwed in. The flat thread is easy to
produce.
Inventors: |
Biedermann; Lutz;
(VS-Villingen, DE) ; HARMS; Jurgen; (Karlsruhe,
DE) |
Assignee: |
Biedermann Technologies GmbH &
Co. KG
|
Family ID: |
7707017 |
Appl. No.: |
13/483792 |
Filed: |
May 30, 2012 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
10306057 |
Nov 27, 2002 |
|
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13483792 |
|
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Current U.S.
Class: |
411/436 |
Current CPC
Class: |
F16B 37/125 20130101;
F16B 33/02 20130101; A61B 17/7035 20130101; F16B 7/18 20130101;
A61B 17/7037 20130101; F16B 43/02 20130101; A61B 17/7049 20130101;
F16B 35/06 20130101; A61B 17/7032 20130101 |
Class at
Publication: |
411/436 |
International
Class: |
F16B 37/00 20060101
F16B037/00 |
Foreign Application Data
Date |
Code |
Application Number |
Nov 27, 2001 |
DE |
101 57 969.1 |
Claims
1-15. (canceled)
16. A holding device comprising: a shank portion; a holding portion
connected to the shank portion for holding a rod; and a locking
element to lock the rod in the holding portion; wherein the holding
portion comprises a recess on one end having a U-shaped
cross-section and two open legs for receiving the rod, and an inner
thread on the open legs; wherein the locking element comprises an
outer thread having two flanks, the outer thread cooperating with
the inner thread, one of the two flanks of the outer thread facing
the one end of the holding portion and the other of the two flanks
of the outer thread facing away from the one end of the holding
portion; and wherein the inner thread comprises two flanks, one of
the two flanks of the inner thread facing the one end of the
holding portion and the other of the two flanks of the inner thread
facing away from the one end of the holding portion, each of the
two flanks of the inner thread enclosing an angle of 90.degree.
with a central axis (M) of the holding portion; wherein a crest of
the outer thread of the locking element is spaced from a root of
the inner thread when the locking element is tightened such that an
axial force acts on the holding device to prevent the legs from
splaying; and, wherein the inner thread of the open legs comprises
a rounded root.
Description
[0001] The invention relates to an element to be used in spinal
column surgery or accident surgery with a shank and a holding
element connected to it for connecting to a rod.
[0002] A bone screw with a shank and a holding element connected to
it for connecting to a rod according to the preamble of claim 1 is
known from EP 0 614 649. In this so-called polyaxial bone screw
described the inner thread of the open legs of the holding element
or receiving part and the outer thread of the inner screw have
substantially a rounded thread.
[0003] From U.S. Pat. No. 5,005,562 and U.S. Pat. No. 6,074,391 in
each case an element according to the preamble of claim 1 is known.
The inner thread of the open legs of the holding element or
receiving part and the outer thread of the inner screw are
constructed with a saw-tooth pitch to avoid splaying of the legs by
radially acting forces during screwing in.
[0004] An element according to the preamble of claim 1 is also
known from WO 00/27 297. In this element the flanks of the inner
thread facing away from the open ends of the legs formed by the
U-shaped recess enclose a negative angle with a plane perpendicular
to the central axis of the receiving part. This is also intended to
prevent splaying of the legs.
[0005] In the above-described devices either a device encircling
the holding element from outside is required to prevent splaying of
the legs or the thread to be used is difficult to produce.
[0006] This applies in particular to the thread known from WO 00/27
297 with the negative flank angle.
[0007] It is the object of the invention to provide an element with
a shank and a holding element connected to it for connecting to a
rod, which is easy to produce, compact in structure and easy to
handle.
[0008] The object is achieved by an element according to claim 1.
Further developments of the invention are cited in the subordinate
claims.
[0009] The element according to the invention has the advantage
that the inner thread of the legs or the outer thread of the
locking element, constructed as a flat thread, is extremely easy to
produce. This saves production costs and precision can be
increased. As with this thread no forces act outwards in the radial
direction, splaying of the open legs of the holding element is
avoided and therefore no additional element to be applied from
outside to avoid splaying is required. This enables a more compact
structure.
[0010] Further features and advantages of the invention emerge from
the description of embodiment examples using the figures.
[0011] FIG. 1 shows a sectional illustration of a first embodiment
of the element according to the invention.
[0012] FIG. 2a shows a partial view of the embodiment of FIG. 1
with the inner screw not yet tightened.
[0013] FIG. 2b shows an enlarged illustration of a detail from FIG.
2a.
[0014] FIG. 3a shows a partial view of the embodiment of FIG. 1
with the inner screw tightened.
[0015] FIG. 3b shows an enlarged illustration of a detail from FIG.
3a.
[0016] FIG. 4 shows a sectional illustration of a second
embodiment.
[0017] FIG. 5 shows a sectional illustration of a third
embodiment.
[0018] FIG. 6 shows a perspective view of the nut from FIG. 5.
[0019] FIG. 7 shows a partial view in section of a modification of
the third embodiment.
[0020] FIG. 8 shows a perspective view of the nut of the embodiment
from FIG. 7.
[0021] The element according to the invention is constructed in the
embodiment illustrated in FIG. 1 of the figures as a monoaxial bone
screw. It has a shank 1 with a bone thread section and a receiving
part 2, rigidly connected to it, for receiving a rod 100 connecting
the bone screw to further bone screws. For this purpose the
receiving part is provided with a recess 3 with a U-shaped
cross-section, which is dimensioned just large enough for the rod
100 to be placed in it and fit into the bottom of the recess. By
the U-shaped recess 3 two open legs 4, 5 are formed with in each
case one open end 6 forming the upper edge of the receiving part 2.
Adjacent to the open end 6 the legs 4, 5 have an inner thread 7,
which cooperates with a corresponding outer thread 8 of an inner
screw 9, to be screwed in between the legs 4, 5, to fix the rod
100.
[0022] As can be seen in particular in FIGS. 1 to 3b, the inner
thread 7 and, corresponding to this, the outer thread 8 is
constructed as a flat thread. This is characterised in that the
thread flanks 7a, 7b of the inner thread enclose in each case an
angle of 90.degree. with the central axis M of the receiving part.
Correspondingly, thread flanks 8a, 8b of the outer thread of the
inner screw 9 enclose an angle of 90.degree. with the screw axis S.
The thread cross-section is substantially rectangular. The edges
can further be constructed as rounded.
[0023] The thread flanks are constructed without undercuts. As
emerges in particular from the enlarged illustration according to
FIG. 2b and FIG. 3b, in this embodiment example the inner thread 7
of the legs and the outer thread 8 of the inner screw 9 are
dimensioned relative to one another as follows: radius r.sub.1 from
the screw axis S to the root of the thread 8c of the inner screw 9
is smaller than radius r.sub.2 from the central axis M of the
receiving part 2 to its crest 7d. Radius r.sub.3 from the screw
axis S to the crest 8d of the inner screw 9 is smaller than radius
r.sub.4 from the central axis M of the receiving part 2 to the root
of the thread 7c of its inner thread.
[0024] Furthermore, as shown in FIG. 2b, the dimensions of the
thread are such that on unloaded bringing into engagement of inner
screw and open legs 4, 5 of the receiving part there is a
difference between radii r.sub.1 and r.sub.2, i.e. a radial play,
of 1% to 5% of the outer diameter of the thread, preferably
approximately 1%. In the axial direction there is, for a recess of
approximately 5 mm, an axial play of approximately 10%.
[0025] In operation, after the rod has been placed into the
receiving part 2, the inner screw 9 is first loosely screwed in, so
that the rod can still be adjusted. To fix the rod 100, the inner
screw 9 is tightened. It thereby experiences a counterforce,
represented in FIGS. 3a and 3b by the arrow F. As a result flanks
8a of the outer thread facing the open end 6, and flanks 7b of the
inner thread facing away from the open end come to be on top of one
another. The force acting on the thread flanks therein acts only in
the axial direction, as illustrated by the short arrows f in FIGS.
3a and 3b. Therefore there is no splaying of the legs 4, 5.
[0026] In a second embodiment shown in FIG. 4 the element according
to the invention is constructed as a polyaxial bone screw. The
polyaxial bone screw has a screw element with a thread shank 1 with
a bone thread which is connected to a receiving part 21 via a head
20, shaped like a segment of a sphere. The receiving part 21 has on
one of its ends a first bore 22, aligned symmetrically to the axis,
the diameter of which is larger than that of the thread section of
the shank 1 and smaller than that of the head 20. The receiving
part 21 further has a coaxial second bore 23, which is open at the
end opposite to the first bore 22 and the diameter of which is
large enough for the screw element to be inserted through the open
end with its thread section through the first bore 22 and with its
head 20 as far as the bottom of the second bore 23. Between the
first and the second bore a small coaxial section 24 is provided
which is immediately adjacent to the first bore 22 and is
constructed as spherical towards the open end, the radius being
substantially identical to the section of the head 20 shaped like a
segment of a sphere. Receiving part 21, like receiving part 2 of
the first embodiment, has a U-shaped recess 25, arranged as
symmetrical to the centre of the part, the bottom of which is
directed towards the first bore 22 and by which two open legs 26,
27 are formed, the open end 28 of which forms the upper edge of the
receiving part 21. In an area adjacent to the open end 28 the legs
26, 27 have an inner thread 29. The inner thread is constructed
according to the invention as a flat thread, as described for the
first embodiment.
[0027] Further provided is a pressure element 30, which is
constructed in such a way that it has on its side facing the head
20 a spherical indentation 31, the radius of which is substantially
identical to the radius of the section of the head 20 shaped like a
segment of a sphere. The outer diameter of the pressure element is
chosen in such a way that the pressure element can perform a
sliding movement in the receiving part 21, in other words is
displaceable towards the head 20. The pressure element further has
a coaxial bore 32 for access to a recess 33 in the screw head 20
for bringing into engagement with a screwing in tool.
[0028] To fix the rod 100 and the head in its angle position an
inner thread 34 is provided, similarly to in the first embodiment,
which has an outer thread 35 cooperating with the inner thread 29
of the legs. The outer thread is again constructed as a flat
thread, as in the first embodiment.
[0029] In operation the screw element is screwed into the bone
after being placed in the receiving part 21. The pressure element
30 and the rod 100 are then inserted in turn. At this stage the
screw head 20 is still swivellable. By screwing in the inner thread
34 the screw element and the receiving part 21 are fixed to one
another and therefore also the rod 100. As, owing to the
construction of the cooperating thread of the legs and the inner
screw as flat thread no splaying of the legs takes place, no
additional securing is required, whereby the polyaxial screw can be
configured compactly and produced at a reasonable price.
[0030] The third embodiment illustrated in FIGS. 5 and 6 also shows
a polyaxial bone screw. Parts corresponding to the second
embodiment are provided with the same reference numerals. The third
embodiment differs from the second embodiment in the construction
of the receiving part, the pressure element and the inner
screw.
[0031] The receiving part 21' has, adjacent to its open end 28, a
section 23' which has a larger diameter than the second bore and
which tapers conically towards the first bore. The construction of
the receiving part in respect of the U-shaped recess and the legs
26, 27 is as in the second embodiment. Adjacent to the open end 28
the inner thread 29 is formed in a predetermined area in section
23'. The inner thread is constructed, as in the first and second
embodiment, as a flat thread.
[0032] The pressure element 40 of this embodiment has a
substantially cylindrical first section 41, the outer diameter of
which is chosen in such a way that the pressure element can slide
in the second bore 23 of the receiving part 21'. In this first
section 41 a recess 42, shaped like the segment of a sphere and
widening towards the end, is provided, the sphere radius of which
is chosen in such a way that in a state inserted into the receiving
part it partially encircles the head 20 of the screw element. At
the opposite end the pressure element 40 is formed in a second
section 43 with an outer diameter enlarged compared with the
diameter of the first section 41, which is larger than the inner
diameter of the bore 23 of the receiving part 21' but smaller than
the inner diameter between the legs 26, 27. The second section 43,
corresponding to the construction of the receiving part, verges
conically into the first section 41. The pressure element 40
further has a central bore 44 extending therethrough. The diameter
of the central bore 44 is dimensioned as just large enough for a
screw tool to be guided through it for bringing into engagement
with the recess 33 provided in the head 20.
[0033] A substantial difference from the pressure element of the
second embodiment is that the pressure element of the third
embodiment is lengthened in the direction of the open end 28 of the
legs. For this purpose it has at its end opposite the recess 42
shaped like the segment of a sphere a U-shaped recess 45, wherein
the dimensions of the U-shaped recess of the pressure element are
such that the rod 100 can be placed in the channel formed thereby.
The depth of the U-shaped recess 45, seen in the direction of the
cylindrical axis of the receiving part 21', is larger than the
diameter of the rod 100 to be received such that the pressure
element 40 projects upwards above the rod 100 with lateral legs
46.
[0034] The pressure element 40 further has on its outer casing two
countersunk bores 47, arranged opposite and offset by 90.degree.
from the centre of the U-shaped recess and extending in the radial
direction, which cooperate with corresponding crimped bores 48 in
the outer casing of the receiving part 21'.
[0035] Instead of the inner screw 9 of the first and second
embodiment, in the third embodiment a nut 50, which can be screwed
in between the legs 26, 27 of the receiving part, is provided with
an outer thread 51, which cooperates with the inner thread 29 of
the legs. The outer thread 51 of the nut is constructed as a flat
thread, like that of the inner thread of the previous embodiments.
The inner thread 52 of the nut 50 is a metric thread. As can be
seen from FIG. 6, the nut has on one of its ends slits 53 for
bringing into engagement with a screw tool.
[0036] Further provided is an inner screw or clamping or set screw
60 for screwing into the nut 50, which has a metric outer thread 61
which cooperates with the inner thread 52 of the nut 50. The inner
screw 60 has a recess 62 for bringing into engagement with a screw
tool.
[0037] In operation, as in the second embodiment, first the screw
element is put into the receiving part. Then, differently from the
second embodiment, the pressure element 40 is inserted and is first
held loosely over the countersunk and crimped bores 47, 48.
Following this the bone screw is screwed into the bone and the rod
100 then placed in. Thereupon the nut 50 is screwed in, with inner
screw 60 at first loosely screwed into it, until the nut impacts on
the upper end of the legs 46 and therefore the pressure element 40
presses on the screw head 20, so that it is locked in its position
in the receiving part. Owing to the construction of the inner
thread 29 of the legs and the outer thread of the nut 50 as flat
threads, the nut 50 does not experience any radial force component,
but only an axially directed force, which is why no splaying of the
legs takes place. The screw head is thus securely locked. Because
the legs 46 of the pressure element project above the placed in rod
100, the rod is still displaceable and yet prevented by the nut 50
from falling out or tilting. Finally, the inner screw 60 is
tightened until it presses on the rod 100 and fixes it. Fixing the
rod thus takes place independently of fixing the head.
[0038] In the third embodiment shown in FIGS. 5 and 6 the nut 50
and the inner screw 60 are fully screwed into the receiving part
21'. In the modified embodiment shown in FIGS. 7 and 8 the nut 50'
has at the end containing the slits 53 a ring-shaped projection 54,
the outer diameter of which corresponds to the outer diameter of
the receiving part 21'. The open end of the ring-shaped projection
54 is further constructed like a cap and has an inclined face 55
which, in the state screwed into the receiving part 21', cooperates
with a corresponding bevelled face 56 at the open end 28 of the
receiving part 21'. The length of the nut 50' in the axial
direction is chosen in such a way that in the state fully screwed
into the receiving part 21' the nut 50' presses on the pressure
element 40 with a predetermined force, the ring-shaped projection
54 acting as a stop to limit this force.
[0039] Operation takes place as in the third embodiment with the
single difference that the nut 50' can be screwed in only until it
rests against the ring-shaped projection 54 and thus the force
acting on the pressure element is set to a predetermined value.
[0040] To prevent deformation of the legs 26, 27 of the receiving
part 21' by axial wringing caused by torsion forces at the moment
of tightening, the cap-like projection 54 with its bevelled face 55
grips on to the corresponding bevelled face on the outer face of
the receiving part. After final tightening there is no longer any
torsional loading of this kind and the legs 26, 27 do not
experience any force acting outwards, which could occasion
loosening of the nut 50'.
[0041] Alternatively to the cap-like construction of the projection
54, a ring provided on the screwing in tool can be used.
[0042] In a modification of the above-described embodiments a hook
is provided instead of the thread shank 1. In a further
modification of the polyaxial embodiments, instead of the thread
shank 1 or the hook, a bar or a rod-shaped element is provided,
which has a head shaped like a segment of a sphere on both ends and
is connected to a receiving part of the kind described. In this way
an element of this kind can be used as connecting element between
two rods 100.
* * * * *