Title of Invention

ENDOSCOPIC STITCHING MACHINE WITH A HOUSING TO ACCOMMODATE THE ACTUATORS FOR STITCH FORMING TOOLS

Abstract The invention relates to an endoscopic stitching machine, comprising a housing for mounting the actuators for the stitch-forming tools (needle, gripper and pressure pad), and a housing shaft to house means for transmission of the movements generated by the actuators to the stitch-forming tools, whereby the housing shaft (3) and the transmission means (9, 12, 13) are divided into two shaft parts (14,15) and lower and upper transmission means (9a, 12a, 13a and 9b 12b, 13b), in a plane perpendicular to the longitudinal direction thereof, detachably connected to each other by means of a corresponding coupling piece (26), whereby the coupling pieces (26) may be introduced into and positively housed within corresponding recesses (32,33) of the lower and upper transmission means (9, 12a, 13a and 9b, 12b, 13b), parallel to the section plane and running in the longitudinal direction of the transmission means (9, 12, 13).
Full Text EP 04 056 204.4
ENDOSCOPIC STITCHING MACHINE
The invention relates to an endoscopic stitching machine
according to the preamble of claim 1.
DE 101 16 171 Al discloses a surgical suturing machine
which is used in particular for making sutures inside the
body of humans or animals. Since suturing machines of this
type must be inserted at least partly into the human or
animal body, it is desirable for the components to be
inserted into the body to have the smallest possible
volume. For this reason, not only the actual control
elements but if possible also the drives for the stitch-
forming tools such as needles, grippers and pressure pads,
are located in a housing which remains outside the body.
The movements produced by the various drives are therefore
transmitted to the stitch-forming tools arranged at the end
of the housing shaft by means of suitable transmission
means accommodated by a housing shaft.
The resulting large overall length of the housing shaft and
also the housing accommodating the various drives therefore
make it very difficult to sterilise the parts of the
surgical suturing machine coming in contact with the body,
which is necessary after every intervention.
It is therefore the object of the invention to provide a
solution which facilitates sterilisation for a generic
stitching machine whilst retaining the functional distance
between the housing and the stitch-forming tools.
This object is achieved starting from a generic stitching
machine whereby the housing shaft and the transmission
means are divided within planes each running transversely
to their longitudinal direction and the respective (lower
and upper) sections of the transmission means are
detachably connected to each other by means of respectively

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one coupling piece, whereby the coupling pieces can be
introduced into and positively housed within corresponding
recesses of the transmission means parallel to the plane of
intersection and running in the longitudinal direction of
the transmission means.
The term "transmission means" in this case is to be
understood as those parts of the surgical suturing machine
which transmit movements generated indirectly or directly
by the respective drive for the stitch-forming tools (such
as, for example, needles, grippers, pressure pads) to said
tools. If the functional distance between the stitch-
forming tools and the housing is relatively short, these
can be the needle rod, gripper shaft and the pressure rod
for the pressure pad itself or additional transmission
means which are provided between the needle rod, the
gripper shaft and the pressure rod for the pressure pad on
the one hand and the corresponding exits of the individual
drives on the other hand.
In this way, a type of plug connection is provided between
the respective lower and upper sections of the transmission
means or the needle rods, gripper shaft and the push rod
for the pressure pad which allows the connection between
the two parts of the respective transmission means or the
needle rod, the gripper shaft or the push rod for the
pressure pad to be broken and remade without tools whilst
ensuring that the overall length of the transmission means
of the coupling pieces is always the same.
If the releasing and joining of the transmission means
which transmits the working movement for the needle to said
needle takes place in the upper dead point area of its
movement path, this position of the transmission means can
serve as a reference position for the releasing and joining
of the other transmission means whereby, in particular when
joining the transmission means, the relative position

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between the sections of the transmission means connected to
the respective drive and the sections of the transmission
means carrying the stitch-forming tools is predefined and
ensures that the respective sections of the transmission
means are joined in the correct position without the
assistance of auxiliary means.
A constructively favourable design of the coupling pieces
suitable for the transmission of longitudinal and rotary
movements of the transmission means is achieved if these
have a central section at the front ends whereof, there is
provided respectively one shaped part directed transversely
to the longitudinal direction of the transmission means,
which can be inserted into a recess of the transmission
means corresponding to its cross-sectional shape.
In order to eliminate a centre offset when joining the
transmission means and/or to be able to compensate for a
centre offset caused by manufacturing inaccuracies, the
longitudinal axes of the two shaped parts of each coupling
piece enclose an angle of 90 degrees.
In this case, it is furthermore advantageous if the shaped
parts each have a prismatic and an adjoining substantially
cylindrical region and the recesses of the transmission
means are configured as complementary hereto.
In order to secure the two halves of the housing shaft
longitudinally and transversely, its separation to form
mutual bearing surfaces is step-shaped and in the
separating region of one shaft part positioning means are
provided for the other shaft part, which project into
openings provided on the separating region of the other
shaft part. In this case, the positioning means can be
formed by dowel pins which engage in corresponding holes of
the other shaft part. This facilitates the joining of the
two shaft parts on the one hand and on the other hand, the

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positioning means together with the holes at the same time
form a longitudinal securing of the two shaft parts.
In order to secure the position of the two shaft parts and
also the relative position of the coupling pieces to the
sections of the transmission means in the radial direction,
the housing shaft is enclosed by a centring tube which is
arranged concentrically to said shaft, which can be
detachably connected to the upper shaft part by means of a
locking device in the area of its end on the housing side.
In this case, it is advantageous if the locking device has
a spring-loaded locking bolt which can be moved radially in
the housing shaft which engages in a recess formed at the
end of the centring tube on the housing side.
In order to facilitate the location of the correct relative
position of the same when joining the sections of the
transmission means and also to secure said position, in the
circumferential area of the lower shaft part, two holes
directed transversely to said part and parallel to one
another are provided to receive a positioning aid, which
holes simultaneously engage in cut-outs of the transmission
means.
Further advantages and details of the invention are
obtained with reference to the following description of an
exemplary embodiment of the same which is shown in the
appended drawing.
In the figures:
Fig. 1: is a schematic overall view of an endoscopic
stitching machine;
Fig. 1a: is an enlarged view of the lower region of the
shaft which holds the stitch-forming tools;

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Fig. 1b: is an enlarged view of the upper shaft region
with the centring tube;
Fig. 2: is an illustrative diagram of the upper shaft
part together with the upper and lower
transmission means;
Fig. 3: is an illustrative diagram of the lower shaft
part with the lower transmission means and the
positioning aid;
Fig. 4: is a detailed view of a transmission means with a
coupling piece;
Fig. 4a: is an enlarged view of the detail "A" in Fig. 4;
The endoscopic stitching machine shown schematically in
Fig. 1 has the same basic structure as the suturing machine
described in DE 101 16 171 Al. Accordingly, the stitching
machine according to the invention has a substantially L-
shaped housing 1 which is formed by a gripping portion 2
embodied as a hollow body, a housing shaft 3 directed
substantially perpendicular thereto and central housing
portion 4 which joins said shaft to the gripping portion 2.
Located inside the gripping portion 2 is an electric motor
which is not shown, which is preferably embodied as a DC
motor. The drive shaft, not shown, of the DC motor drives a
main shaft via a clutch and a reducing gear, from which the
movements for a needle 5 and a gripper 6 as well as for a
pressure pad 8 are derived. The formation of the gearing
used for this purpose is described in detail in the
aforesaid DE 101 16 171 Al so that its description is to be
regarded as a component of the description of the present
invention insofar as this is of interest for the
understanding of the present invention.
Accordingly, the gearing has a needle drive which is
drivingly connected via a transmission means 9 to the
needle rod 11 carrying the needle 5 and imparts an upward
and downward movement to the needle 5.

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The gearing further has a swinging drive for the gripper 8
which executes a lifting movement and a swinging movement.
The swinging drive is kinematically connected to the
gripper shaft 10 via a transmission means 12 and imparts to
said shaft both a lifting movement and a swinging movement.
This transmission means 12 thus executes a lifting/swinging
movement composed of a lifting and a swinging component and
thus transmits both an alternating torque and also tensile
and compressive forces.
Finally, a lifting movement of the pressure pad 8 is
derived from the needle drive during the pushed-out phase
of the needle 5 so that at least during a part of the
pushed-out phase of the needle 5 the pressure pad 8 can
hereby be periodically lifted by a certain amount to
facilitate the advancing movement of the stitching
material. For this purpose, a transmission means 13 is
drivingly connected to the corresponding (not shown) driven
member of the needle drive, whose movements are transmitted
to a push rod 7 which is rigidly connected to the pressure
pad 8.
As can be seen from Figs. 2 and 3, the tubular housing
shaft 3 is divided into an upper shaft part 14 and a lower
shaft part 15 by a dividing plane running substantially
transversely to its longitudinal direction. The dividing
plane which is advantageously provided as close as possible
to the end of the housing shaft on the housing side, runs
in a step shape in this case so that bearing surfaces 16,
17 are formed on both shaft parts 14, 15. Both a radial and
an axial alignment are hereby predefined when joining the
two shaft parts 14, 15. In the area of the bearing surfaces
16 of the upper shaft part 14, positioning means formed by
dowel pins 18 are fixed thereon, said means projecting into
holes 19 formed in the area of the bearing surfaces 17 in
the lower shaft part 15 when the housing shaft 3 is joined.
The two shaft parts 14, 15 are thus secured in position in

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their longitudinal and transverse direction. When joined,
the two shaft parts 14, 15 are surrounded by a centring
tube 21 whose upper end can be detachably connected to the
upper shaft portion 14 of the housing shaft 3 by means of a
locking device 22. The locking device 22 has a locking bolt
23 which is arranged so that it can be displaced radially
in the upper shaft part 14 and is pressed outwards under
the action of a spring (not shown) , said bolt engaging,
when the centring tube 21 is pushed onto the housing shaft
3, in a recess provided thereon. This recess is formed by a
transverse hole 25 substantially corresponding to the
diameter of the locking bolt 23, which is slitted towards
the end of the centring tube 21.
The transmission means 9, 12, 13 connected to their
relevant drive and guided in the housing shaft 3 are
divided in their region corresponding to the separating
position of the housing shaft within a plane running
transversely to their longitudinal direction, into
respectively two sections, namely into the respectively
upper sections 9a, 12a and 13a and the respectively lower
sections 9b, 12b and 13b and are detachably connected to
one another by means of respectively one coupling piece 26
(Fig. 4, 4a). All the coupling pieces 26 have a standard
design and are therefore provided with the reference
numeral 26. Each of the coupling pieces 26 has a central
portion 27 whose cross-sectional shape corresponds to the
cross-section of the respective transmission means 9, 12
and 13. In the exemplary embodiment of the invention shown
in the drawing, all the transmission means 9, 12, 13
uniformly have a circular cross-section so that all the
central portions 27 of the coupling pieces 26 are embodied
as cylindrical, their diameter being somewhat smaller than
that of the transmission means. In the area of its two
front ends, each coupling piece 28 is provided with a total
of two shaped parts 28, 29 which are configured as
substantially cylindrical in the exemplary embodiment shown

- 8 -
and which are connected to the central portion 27 by means
of respectively one web 31. As can be seen in particular
from Fig. 4a of the drawing, the two shaped parts 28, 29 of
each coupling piece 26 enclose an angle of preferably 90
degrees so that any centre offset of the two sections of
the transmission means can thus be compensated.
The sections of the transmission means to be joined
together using the coupling pieces 26 have recesses 32, 33
at their ends to be joined to one another, the shape of
these recesses corresponding to the shape of the shaped
parts 28, 29 and the webs 31. Accordingly, in the
respectively lower regions of the respectively upper
sections 9a, 12a and 13a of the transmission means 9, 12
and 13, there is provided respectively one transverse hole
34 which opens into a slot 35 which is open towards the
front of the respective transmission means, its width being
adapted to the width of the web 31. The shape of the
recesses 32 is therefore determined by the transverse hole
34 and the slit 35.
Similarly, in the respectively upper regions of the
respectively lower sections 9b, 12b and 13b of the
transmission means 9, 12 and 13, there is provided
respectively one transverse hole 36 running at an angle of
90 degrees to the transverse hole 34 which opens into a
slot 37 which is open towards the front of the respective
transmission means, its width being adapted to the width of
the web 31. The shape of the recesses 33 is therefore
determined by the corresponding transverse hole 36 and the
slit 37.
Thus, the coupling pieces 26 can be displaced radially in
the recesses 32, 33 to compensate for production
inaccuracies or a centre offset but are held positively in
the axial direction as a result of the shaping of the
recesses 32, 33 and the shaped parts 28, 29. Since the

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centring tube 21 is guided over the housing shaft at the
upper and lower sections of the transmission means which
are interconnected by the coupling pieces 26 and the joined
lower and upper shaft part, and is connected to said shaft
by means of the locking device 22, the coupling pieces 26
are also positively secured in the radial direction. This
means that the housing shaft 3 and the parts located in its
interior form a structural unit which is held together
without screw connections and can be dismantled for
sterilisation purposes into its components and joined
together again without the assistance of tools.
In a preferred embodiment of the invention, the two shaped
parts 28, 29 can be moved within the respective recess 32,
33 with a slight sliding fit. This is particularly
important for compensating for centre offset and/or
unavoidable production tolerances.
Since after their first joining, the shaped parts 28 of the
coupling pieces 26 pertaining to the respectively upper
sections 9a, 12a and 13a of the transmission means always
adopt this angular position even in the case of subsequent
multiple separation and respective re-joining of the
transmission means, the position of the shaped parts 29 of
the coupling pieces 26 assigned to the respectively lower
sections 9b, 12b and 13b of the transmission means is thus
predefined.
This means that when joining the respectively lower
sections 9b, 12b and 13b of the transmission means, their
relative position to the upper sections 9a, 12a and 13a is
predetermined, i.e. the lower sections 9b, 12b and 13b are
to be brought into a position in which they can be slid
over the shaped parts 29 whereby their cylindrical region
dips into the respective transverse hole 36 and the webs 31
slide into the respective slot 37.

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In order to facilitate the location and securing of the
joining position of the lower transmission means 9b, 12b
and 13b, two holes 38, 39 directed transversely to its
longitudinal axis and parallel to one another are provided
in the circumferential region of the lower shaft part 15,
forming recesses which are open on one side and preferably
have a semicircular cross-section in the lower shaft part
15. Corresponding cut-outs 42 are provided on the lower
transmission means 9b, 12b and 13b, forming cylindrical
openings with the recesses formed by the holes 38, 39 in
the lower shaft part 15 in the joining position of the
lower transmission means 9b, 12b and 13b. The position of
the cut-outs 42 on the lower transmission means 9b, 12b and
13b on the one hand and the position of the holes 38, 39 in
the lower shaft part 15 on the other hand is selected so
that when the cut-outs 42 are aligned with the holes 38,
39, the respective lower shaped parts 29 and the webs 31 of
the coupling pieces 26 are directed parallel to the
relevant hole 36 or to the corresponding slot 37 and can be
inserted therein.
The respective cut-outs 42 and the holes 38, 39 are used to
receive two legs 43, 44 of a positioning aid 41 which are
located parallel to one another at a distance, whereby the
joining position of the lower transmission means 9b, 12b
and 13b is guided until the centring tube 21 slides over
the area of the separating position of the shaft.

-11-
EP 04 056 204.4
CLAIMS
1. An endoscopic stitching machine comprising a housing
for mounting drives for the stitch-forming tools such
as needles, grippers and pressure pads, an adjoining
housing shaft for accommodating means for transmitting
the movements generated by the drives to the stitch-
forming tools, which at least comprise at least one
upward- and downward-moving thread-carrying needle and
at least one gripper which cooperates therewith and
executes at least one swinging movement per stitch-
forming cycle, characterised in that the housing shaft
(3) and the transmission means (9, 12, 13) are divided
within a plane each running transversely to their
longitudinal direction into an upper and a lower shaft
part (14, 15) and into lower and upper transmission
means (9a, 12a, 13a or 9b, 12b, 13b) and the lower and
upper transmission means (9a, 12a, 13a and 9b, 12b,
13b) are detachably connected to each other by means
of respectively one coupling piece (26), wherein the
coupling pieces (26) can be introduced into and
positively housed within corresponding recesses (32,
33) of the lower and upper transmission means (9a,
12a, 13a or 9b, 12b, 13b) parallel to the plane of
intersection and running in the longitudinal direction
of the transmission means (9, 12, 13).
2. The endoscopic stitching machine according to claim 1,
characterised in that the coupling pieces (26) each
have two shaped parts (28, 29) directed transversely
to the longitudinal direction of the transmission
means (9, 12, 13) and both shaped parts (28, 29) can
be inserted into recesses (32, 33) of the transmission
means (9, 12, 13) corresponding to their cross-
sectional shape.

-12 -
3. The endoscopic stitching machine according to claim 1
or 2, characterised in that the longitudinal axes of
the two shaped parts (28, 29) of each coupling piece
(26) encloses an angle of 90 degrees.
4. The endoscopic stitching machine according to claim 2,
characterised in that the shaped parts (28, 29) each
have a prismatic and an adjoining substantially
cylindrical region and the recesses (32, 33) of the
transmission means (9, 12, 13) are configured as
complementary hereto.
5. The endoscopic stitching machine according to claim 1,
characterised in that the separation of the housing
shaft (3) to form mutual bearing surfaces (16, 17) is
step-shaped-and in the separating region of one shaft
part (14) positioning means (18) are provided for the
other shaft part (15), which project into openings
(19) provided on the separating region of the other
shaft part (15).
6. The endoscopic stitching machine according to claim 1,
characterised in that the housing shaft (3) is
enclosed by a centring tube (21) which is arranged
concentrically to said shaft.
7. The endoscopic stitching machine according to claim 6,
characterised in that in the area of its end on the
housing side, the centring tube (21) is detachably
connected to the housing shaft (39) by means of a
locking device (22).
8. The endoscopic stitching machine according to claim 7,
characterised in that the locking device (22) has a
spring-loaded locking bolt (23) which can be moved
radially in the housing shaft (3) which engages in a

-13 -
recess (24) formed at the end of the centring tube
(21) on the housing side.
9. The endoscopic stitching machine according to claim 1,
characterised in that in the circumferential area of
the lower shaft part (15), two holes (38, 39) directed
transversely to said part and parallel to one another
are provided to receive a positioning aid (41), which
holes simultaneously engage in cut-outs (42) of the
transmission means (9, 12, 13).

The invention relates to an endoscopic stitching machine, comprising a housing for
mounting the actuators for the stitch-forming tools (needle, gripper and pressure pad),
and a housing shaft to house means for transmission of the movements generated by
the actuators to the stitch-forming tools, whereby the housing shaft (3) and the
transmission means (9, 12, 13) are divided into two shaft parts (14,15) and lower and
upper transmission means (9a, 12a, 13a and 9b 12b, 13b), in a plane perpendicular to
the longitudinal direction thereof, detachably connected to each other by means of a
corresponding coupling piece (26), whereby the coupling pieces (26) may be introduced
into and positively housed within corresponding recesses (32,33) of the lower and upper
transmission means (9, 12a, 13a and 9b, 12b, 13b), parallel to the section plane and
running in the longitudinal direction of the transmission means (9, 12, 13).

Documents:

01437-kolnp-2007-abstract.pdf

01437-kolnp-2007-claims.pdf

01437-kolnp-2007-correspondence others 1.1.pdf

01437-kolnp-2007-correspondence others 1.2.pdf

01437-kolnp-2007-correspondence others.pdf

01437-kolnp-2007-description complete.pdf

01437-kolnp-2007-drawings.pdf

01437-kolnp-2007-form 1.pdf

01437-kolnp-2007-form 2.pdf

01437-kolnp-2007-form 3.pdf

01437-kolnp-2007-form 5.pdf

01437-kolnp-2007-gpa.pdf

01437-kolnp-2007-international publication.pdf

01437-kolnp-2007-international search report.pdf

01437-kolnp-2007-pct request.pdf

01437-kolnp-2007-priority document 1.1.pdf

01437-kolnp-2007-priority document.pdf

1435-KOLNP-2007-CORRESPONDENCE OTHERS 1.3.pdf

1435-KOLNP-2007-FORM 18.pdf

1437-KOLNP-2007-(23-02-2012)-CORRESPONDENCE.pdf

1437-KOLNP-2007-ABSTRACT.pdf

1437-KOLNP-2007-AMANDED CLAIMS.pdf

1437-KOLNP-2007-AMANDED PAGES OF SPECIFICATION.pdf

1437-KOLNP-2007-DESCRIPTION (COMPLETE).pdf

1437-KOLNP-2007-DRAWINGS.pdf

1437-KOLNP-2007-EXAMINATION REPORT REPLY RECIEVED.pdf

1437-KOLNP-2007-FORM 1.pdf

1437-KOLNP-2007-FORM 2.pdf

1437-KOLNP-2007-FORM 3.pdf

1437-KOLNP-2007-FORM 5.pdf

1437-KOLNP-2007-OTHERS.pdf

1437-KOLNP-2007-PETITON UNDER RULE 137.pdf

abstract-01437-kolnp-2007.jpg


Patent Number 254804
Indian Patent Application Number 1437/KOLNP/2007
PG Journal Number 51/2012
Publication Date 21-Dec-2012
Grant Date 19-Dec-2012
Date of Filing 23-Apr-2007
Name of Patentee KARL STORZ GMBH & CO. KG.
Applicant Address MITTELSTRASSE 8, 78532 TUTTLINGEN
Inventors:
# Inventor's Name Inventor's Address
1 KLUNDT, KURT MUHLWEG 5, 67732 HIRSCHHORN
2 MOLL, PHILIPP KONIGSBERGERSTRASSE 72 52076 AACHEN
PCT International Classification Number A61B 17/04
PCT International Application Number PCT/EP2005/012224
PCT International Filing date 2005-11-15
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 10 2004 056 204.4 2004-11-18 Germany