Source: https://patents.google.com/patent/EP2674116B1/en
Timestamp: 2020-01-20 04:49:57
Document Index: 605246012

Matched Legal Cases: ['art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1']

EP2674116B1 - Tool holding and gripping part for a medical tool, in particular a surgical tool - Google Patents
Tool holding and gripping part for a medical tool, in particular a surgical tool Download PDF
EP2674116B1
EP2674116B1 EP20120171416 EP12171416A EP2674116B1 EP 2674116 B1 EP2674116 B1 EP 2674116B1 EP 20120171416 EP20120171416 EP 20120171416 EP 12171416 A EP12171416 A EP 12171416A EP 2674116 B1 EP2674116 B1 EP 2674116B1
EP20120171416
EP2674116A1 (en
2012-06-11 Application filed by Link Waldemar Co GmbH, Waldemar LINK GmbH and Co KG filed Critical Link Waldemar Co GmbH
2012-06-11 Priority to EP20120171416 priority Critical patent/EP2674116B1/en
2013-12-18 Publication of EP2674116A1 publication Critical patent/EP2674116A1/en
2014-08-06 Publication of EP2674116B1 publication Critical patent/EP2674116B1/en
The present invention relates to a tool holding and gripping part for detachable connection to a medical, in particular surgical, tool having the features of the preamble of claim 1.
It is known to form medical instruments, in particular surgical instruments, from releasably connectable elements of a handle and holding part and the actual tool part. This is particularly advantageous because in this way with a universal grip and holding part to form different medical instruments different, for example, different shaped or even different in effect tool parts can be connected.
The tools on the tool holding and grip part on the one hand quickly and easily interchangeable, on the other hand, but securely holding in use to be connected to the tool holding and grip part. Known examples of such instruments, in which the tools are described as Knochenraspeln are in the publications DE 195 01 882 C2 and DE 298 07 671 U1 specified. In the solution disclosed in the first-mentioned document finds a connection and locking on a star-shaped approach provided holding pin on the tool part, which is guided in relation to the normal direction twisted alignment with the star beams between corresponding projections of a receiving channel in the tool holding and gripping part of this past and then rotated by a certain angular amount in the position of use. In this position, the projections in the retaining channel engage behind the star-shaped projections at the end of the retaining mandrel. As an additional locking a spring-loaded locking bolt moves into a corresponding recess on the tool to prevent inadvertent turning back and loosening of the tool.
In the example of the second-mentioned document, the connection between the tool holding and gripping part and the tool itself takes place in a connecting section, which is offset with respect to a longitudinal direction of the tool as well as the holding and gripping part. A movable by a slider latch pin, which extends and move along the longitudinal direction of the tool holding and gripping part, is retracted at obliquely to the longitudinal direction and inserted into a correspondingly inclined receptacle on the handle part retaining pin in a corresponding locking opening in this pin and locks the tool.
Another known from the prior art example of a tool holding and gripping part, from which the invention proceeds here is in the US 6,663,636 B1 shown. There is provided a locking means in the form of an arranged on a lever element extension, which locking means via a lever arrangement between a release position and a locking position in which engages the locking means on a return of a receiving opening in the holding and gripping part connecting pin of the tool, and an opening position in which the locking means releases the pin, can be pivoted. The lever arrangement consists here of a total of three lever elements, of which a first carries the locking means, a second represents a connecting strut for transmitting the leverage and a third comprises a Betätigungshebelarm. By pivoting the Betätigungshebelarms thus a force is exerted on the locking means carrying the lever element and this pivoted or moved between the locking position and the release position.
Another tool holding and gripping part, which shows the overall features of the preamble of claim 1, is in the US 2008/0255565 A1 disclosed. There are two on each principle releasably and directly connected bearing sections coupled Hebelelerriente each set with a guided through holes in the base body and the respective lever member bearing pins pivotally attached to the base body. The bearing pins are firmly anchored in the base body, so there is no possibility for easy disassembly of the tool holding and handle part shown there.
Although all previously known solutions are equally common that they provide a secure and reliable connection of the tool to the tool holding and gripping part and thus require a reliable use or safe use of the instrument thus formed. However, the above-mentioned solutions are in need of improvement in that they impose certain obstacles and difficulties for post-use cleaning and sterilization. Because typically contaminate in a typical surgical use of a medical instrument, which is formed from the tool and the tool holding and gripping part, not only the tool itself, but also the tool holding and gripping part. These contaminants are in particular blood and tissue residues, possibly also bone abrasion or contamination with body fluids other than blood. Since these items are classically reusable instruments or parts, they must be appropriately cleaned and sterilized after use appropriately from the adhering contaminants, so as to transfer any disease or by introducing foreign tissue or bodily fluids into the body system of another Patients caused immune reactions to avoid.
In such to be undertaken cleanings in particular narrow spaces or cavities are difficult to treat, as in the case of the State of the art known designs are given. In the from the DE 195 01 882 C2 Known tool holding and gripping part, this is in particular the blind hole, in which the locking pin is arranged and the slot through which the handle part of this locking pin protrudes. In the from the DE 298 07 671 U1 known element this is the entire leadership of the locking bar. In the from the US 6,663,636 B1 Known Werkzeughalte- and handle part, these are the receiving space in which the individual lever elements are arranged and in particular the areas between the lever elements and the wall of the handle part. In the tool holding and grip part after the US 2008/0255565 A1 These are the space of the bearing connection portions of the two lever members and the adjacent surfaces of the lever members and the receptacle formed in the handle portion. In particular, it has the effect that the instruments mentioned are not designed to be further separable in their elements, which is especially true for the elements described in the US 6,663,636 and the US 2008/0255565 A1 shown Werkzeughalte- and handle parts and there applies in particular to the lever arrangements. In the US 6,663,636 the individual elements of the lever assembly are connected to each other via bearing pins or attached to the basic body of the tool holding and gripping part, which are not intended for disassembly. In the tool holding and grip part of US 2008/0255565 A1 Although the two lever elements are not coupled to each other via a pin connection. Nevertheless, the two lever elements are fixed to the basic body by way of bearing pins, these connections also not being provided for disassembly. Although one could theoretically remove these retaining pins and thus allow the respective Werkzeughalte- and handle part disassembled, but this would result in a variety of small parts that complicate disassembly and assembly by the appropriate medical support staff and can also be lost. Even with such small parts, there is always the danger that they will come loose during an operative use of the instrument and remain in a surgical wound.
Here to remedy this situation and to further develop a tool holding and gripping part of the type mentioned at the outset so that, while the holding action on the tool remains reliable, it is significantly easier to clean and sterilize allowed after use, in particular with a few simple and simple handles in a few and easy-to-clean parts without small parts such as connecting pins or the like. Can be dismantled, is the object of the present invention.
This object is achieved by a tool holding and gripping part for detachable connection to a medical, in particular surgical, tool with the features of claim 1. Advantageous developments of such tool holding and gripping part are given in the dependent claims 2 to 13. In further aspects, the invention with claim 14, a medical, in particular surgical, instrument, which is formed from a tool holding and gripping part according to the invention and a related medical, in particular surgical, tool. Finally, another aspect of the invention is to be seen in a kit for forming a medical, in particular surgical, instrument which consists of a tool holding and gripping part according to this invention and at least two different medical, in particular surgical, tools.
For the purposes of this invention, a "medical, in particular surgical, tool" is not merely a tool in the strict sense, ie a tool for processing the body's own material, such as muscle tissue or bone, or for the care of a patient provided aids, such as implants, bone screws or the like. To understand. In particular, medical treatment agents that can be connected to such a holding and gripping part, for example implant components, which can be set or removed by means of such a tool holding and gripping part, should also be included under this term.
According to the invention, a novel tool holding and gripping part for detachable connection to a medical, in particular surgical, tool in accordance with the prior art, first a base body and a lever assembly of interconnected, each pivotally mounted on the main body lever elements. The basic body is divisible into a handle portion, the gripping and handling of Werkzeughalte- and handle portion, and a connecting portion at which the tool holding and gripping part is connected to the surgical tool and which typically has corresponding connection structures or - means. In the connecting portion to a movable from a release position into a locking position locking means is provided, which serves to lock a scheduled on the connecting portion tool. In the locking position, the locking means locks the tool accordingly, in the release position, the tool is released for releasing the tool holding and gripping part.
Of the lever elements, a first has a Betätigungshebelarm, a second moves the locking means, which is formed in a preferred embodiment of a lever arm of this second lever element. Further, in the tool holding and gripping part according to the invention, the lever arrangement is formed from exactly two lever elements, which are each arranged with formed thereon pivot bearing portions relative to the base body pivotally formed in the main body pivot bearing structures.
Furthermore, in the tool holding and gripping part according to the invention, the two lever elements each have on one of its lever arms a bearing connection portion, which bearing connection sections are detachably and directly connected together when the tool holding and gripping parts are joined together (for joining the tool holding and gripping parts, respectively) in interaction form a movable relative to the base body connecting pivot bearing for the two lever elements. With a direct connection of the two bearing connection sections here is meant those that is free of connection means, so without further elements, such as inserted into holes bearing pins or the like. Rather, the two bearing connecting portions of the two lever elements are directly connected with each other and thus form the connecting pivot bearing.
In that regard, the tool holding and gripping part according to the invention in its features is still consistent with that which from the US 2008/0255565 A1 is known. In contrast to this, the tool retaining and gripping part according to the invention is now distinguished by the fact that the two lever elements with their pivot bearing sections are arranged directly and detachably on the pivot bearing structures formed in the main body.
The immediate arrangement of the pivot bearing portions of the lever elements on the base body in turn means that this is done without a connection means, ie without further connecting parts, such as bearing pins or the like., As shown in the US 6,663,636 B1 or even the US 2008/0255565 A1 be used. Rather, the pivot bearing portions formed on the lever elements are components of the lever elements themselves and shaped so that they can be inserted into corresponding pivot bearing structures of the base body or placed on such and already form the pivot bearing connection. This is also designed so that there is a detachable connection, so that the individual lever elements can be easily removed from the foundation body and thereby the pivot bearing connections can be solved.
In particular, it is preferred that in the tool holding and gripping part according to the invention, the fixing of the two lever elements on the base body takes place in that the first individually arranged with the pivot bearing portions on the pivot bearing structures in the main body lever elements with the bearing connection sections to form the connecting pivot bearing with each other be and fix the lever assembly in this way. For a disassembly of the tool holding and gripping part according to the invention is in this solution in the reverse manner - typically overcome by overcoming a corresponding holding force - the connecting pivot bearing, the two bearing connection sections of the individual lever elements are detached from each other, and then the two lever elements can easily with their pivot bearing portions of the Swivel bearing structures of the main body are released and removed.
As a result, therefore, a simple, in the preferred case in which the locking means is directly connected to the second lever element, a total of only three-part and easily separable into these three parts Werkzeughalte- and handle part, which are not simply disassembled and assembled can, but in the disassembled state comparatively large-sized parts results that are particularly easy to clean and sterilize with a relatively simple structure. The power transmission to the locking means or the movement of the locking means for locking an attached medical, in particular surgical tool is done in a similar and almost reliable manner as in the prior art according to the US 6,663,636 B1 or the US 2008/0255565 A1 ,
In this case, a further structure for applying a corresponding counter-structure to the tool is typically and advantageously provided in the connecting portion of the tool holding and gripping part. At present, this pair of structures to be brought into contact with one another is preferably formed by an attachment pin, which is formed integrally in the connection section of the tool holding and gripping part and cooperates with a corresponding pin receptacle on the tool. In this case, this pin is preferably of a diameter deviating from the circular shape, in order to bring about an anti-twist here. In particular, this pin has a - possibly provided with rounded short sides - in the basic shape trapezoidal cross-sectional structure on. Such a structure has the advantage that a tool to be attached can only be placed in a certain direction, so that it is possible to exclude operating errors here. The tool can also have a corresponding receiving structure for receiving the locking means, with which this cooperates in the locking position for secure locking of the attached tool.
In an advantageous development of the invention, it is provided that the bearing connection section on one of the lever elements has a circular cylinder section extending with its longitudinal direction transversely to the extension direction of the lever arm on which it is arranged, fixed to this lever arm, in particular integrally formed. In this combination, the bearing connection portion comprises on the other of the lever elements formed in a fork base with a radius corresponding to a radius of the circular cylindrical portion radius, bounded by lateral legs receiving fork. It is easy to see that such an arrangement by joining the two bearing connection sections results in a corresponding connecting pivot bearing, without the need for further components for connecting or as a rotation axis. The shaping with circular cylindrical section and corresponding receiving fork also causes a defined reduction of the pivotability to such a single axis, namely the longitudinal axis of the circular cylindrical section. Pivoting movements in other directions are prevented or blocked by the receiving fork limiting legs in joined joint pivot bearing
According to a further development of this solution, the legs of the pick-up fork are unequal length, which is the longer in a closing movement of the lever assembly, so a movement that performs this when moving the locking means in the locked position, force transmitting leg. Especially in this direction of movement, a comparatively high locking force must be reliably applied to the locking element for locking the tool, which leads to a corresponding loading of the detachable connection on the connecting pivot bearing. Also, in this direction of movement must be unintentional Releasing the connecting pivot bearing reliably prevented. Accordingly, a longer, possibly also in the material thickness stronger training of the force transmitting leg of advantage.
Furthermore, according to a further advantageous development, the configuration of the bearing connection sections formed by the receiving fork and circular cylinder section can be predetermined for the connecting pivot bearing, as described in claim 4. Accordingly, the legs of the receiving fork at their free ends have an opening width which is smaller than the diameter of the circular cylindrical portion, and one of the legs is designed as a spring tongue. This is advantageous that leg which does not transmit the force in the above-defined closing movement of the lever assembly, but is relieved. In an embodiment with legs of unequal length as described above, this can thus be in particular the shorter leg. By such a configuration of the receiving fork of the free end of the legs ago introduced into the fork circular cylinder section can be pressed under Auswärtsverlagerung designed as a spring tongue leg into the fork and then when he with his diameter, the outer free end of the trained as a spring tongue leg happened and this leg springs back to its rest position, secured in the fork. In this way, the connecting pivot bearing is secured against unintentional release of the cooperating bearing connection sections, the arrangement of the lever arrangement and its pivotal connection with the base body can be secured in the base body used lever elements and mating connection pivot bearing.
In a further advantageous embodiment of the invention, it is possible that one of the lever arms of the lever elements on which the bearing connection sections are arranged, in particular provided with the bearing connection portion lever arm of the locking element moving second lever element, be designed as a spring arm with a spring elasticity in the direction transverse to its longitudinal extent. Also, a spring action formed therein can assist the connection pivot bearing releasably, in a composite connection However, the bearing connection portions to keep held against a spring force in the connecting position. Advantageously, the lever arm designed as a lever arm is curved in one of the force which acts on the latter during the closing movement of the lever arrangement in the opposite direction.
Advantageously, the pivot bearing sections and the lever elements which are detachably connected in the connecting pivot bearing are designed in such a way that, when the lever arrangement is extended, in particular during an overstretching in the course of the opening movement which the lever arrangement executes when moving the locking means into the release position, the pivot bearing sections are overcome by overcoming one Retaining force of each other are separable and detachable. In this way, results in a simple separation of this compound, after which the two lever elements can be easily solved with their pivot bearing sections of the pivot bearing structures of the main body and removed. The retention force is to be dimensioned accordingly so that in normal use accidental release of the bearing connection sections is excluded, even after repeated and repeated use. On the other hand, this retention force must not be too large, so that a simple separation of this connection is also possible from physically less robust medical personnel.
One way to pivotally and releasably and directly store one or both lever elements on the base body is to form a circular cylindrical portion as a bearing portion on the at least one lever element and as a cooperating with this pivot bearing structure a receiving throat in the base body with a radius of the circular cylindrical portion corresponding radius curved bottom of the throat. This receiving groove is open on one side with an opening width, in which the circular cylinder section can be introduced and placed so as to pivot on the bottom of the throat.
Another possibility for releasably attaching a lever element to the base body is that a bearing section in the lever element U-shaped bearing groove is formed with a curved base in a radius Kehlengrund and the pivot bearing structure is realized by a fixedly arranged on the base body bearing pin with radius corresponding to the radius of the bottom Kehlengrundes. Instead of a continuous bearing pin here also a circular cylinder section can be selected, which is formed on the base body, wherein the circumferential width of the circular cylinder must be chosen so that the pivoting of the corresponding lever element can be ensured by a run of the bottom of the throat of the U-shaped bearing groove on the lever member. The U-shaped bearing groove is in turn open on one side with an opening width, which allows a simple placement of this bearing groove on the bearing pin or a corresponding circular cylinder section having structure without further fasteners or means would be required.
Advantageously, in a portion of the base body, an at least partially continuous, i. this basic body formed on both sides through the receiving slot, in which the lever elements are each received at least with parts of their structures and wherein the pivot bearing structures are arranged for pivotally supporting the lever elements in the receiving slot. Thus, the lever assembly is arranged with wide areas in the interior of the tool holding and gripping part. Typically, however, at least the Betätigungshebelarm protrude from the receiving slot, since this is to be operated by an operator, typically a doctor or a medical assistant (surgical assistant).
In order to prevent over pivoting in the closing direction of the lever arrangement, stop means for limiting a lever travel of the actuating lever arm in the closing direction can advantageously be provided on the confirmation lever arm and / or on the base body.
For the generation of a sufficiently high locking force, which acts on the locking means, by means of the lever arrangement, it is advantageous if the lever elements are formed as specified in claim 12. Accordingly, in this preferred Embodiment variant, the lever elements in each case two-armed lever elements, wherein the first lever element as a first lever arm Betätigungshebelarm and the second lever arm has a compared with the Hebelhebelarm shorter lever arm, which carries the bearing connection portion of this lever element. The second lever member carries its bearing connection portion on a first, long lever arm, which is longer than the bearing connecting portion of the first lever member supporting lever arm and further has a shorter compared to its first lever arm second lever arm, which moves the locking element on which this be advantageously formed directly can.
The lever arrangement can advantageously be designed such that it forms a toggle lever, which is movable beyond a dead center during an operation for moving the locking means in the locking position and locked there.
For the different application forms, attachment structures or impact structures for further tools or aids can be formed on the base body of the tool holding and gripping part according to the invention. Thus, e.g. be provided in the region of the handle portion a plate-shaped thickened end as impact surface for an impact tool such as a hammer. Also, recesses or depressions may be provided for applying a chisel-like impact aid.
The elements basic body and lever elements can each individually, but in particular be made entirely of a biocompatible metal, such as stainless steel, wherein the base body in the region of the handle part be provided with an applied to improve the grip and feel plastic coating or a cover made of a different material can, which with particular advantage firmly connected to the base material of the base body, eg is injected.
As already mentioned, a component of the invention is also a medical instrument, in particular a surgical instrument, which consists of a tool holding and gripping part according to the invention as described above and a medical, in particular surgical, tool connected thereto. The In particular, the tool may be a medullary canal rasp for the proximal end of a human femur.
Finally, as already stated, a component of the invention also comprises a set for forming a medical, in particular a surgical instrument as mentioned above, which set comprises a tool holding and gripping part as described above and at least two different medical, in particular surgical, tools. Under different medical tools are on the one hand tools the same function (for example, bone rasps for the proximal end of a human femur) to understand that are shaped differently or dimensioned. But also meant tools of different functionality, such as rasps and gauges. Among the different medical tools can also be implant parts, which can be detected and set with a tool holding and gripping part according to the invention.
a partially sectioned schematic side view of an embodiment of a tool holding and gripping part according to the invention without attached medical tool and in mated, state with the locking means in the release position;
a view of the tool holding and gripping part according to Fig. 1 in a disassembled state with a partially sectioned view of a portion of the main body;
an illustration of the tool holding and gripping part according to Fig. 1 with lever elements inserted into the base body before joining these lever elements together or after releasing them from each other; and
in two views a and b partial and partial sectional views of the tool holding and gripping part according to Fig. 1 with attached medical tool in a release position ( Fig. 4a ) and in a locking position ( Fig. 4b ).
In the figures, a possible embodiment of a tool holding and gripping part according to the invention for a medical, in particular surgical, tool shown in different views and states in schematic sketches. The figures are by no means to scale and do not represent the complete and detailed construction of a corresponding embodiment. They are rather to be understood as sketches that illustrate the basic principles and the essential structure of the embodiment, reproduce there in more detail where features of the invention shown and to explain are.
The invention will now be explained in more detail with reference to the figures with reference to the embodiment shown there and described in a possible embodiment variant.
First, for the description of the embodiment Fig. 1 Referenced. There is an inventively designed tool holding and gripping part for a medical, in particular surgical, tool generally designated by the reference numeral 1. This is formed from a basic body 2 and two lever elements 3 and 4, which are pivotally attached to the base body 2 and are hinged together to form a lever assembly.
The base body 2 has a handle portion 5 and a connecting portion 6. Handle portion 5 and connecting portion 6 are integrally connected to each other, wherein the base body 2 as well as the lever members 3, 4 in particular of a metallic material, preferably made of stainless steel, is formed. In a bearing section 7 located between the grip section 5 and the connecting section 6, a receiving slot 8 is formed in the base body 2 which is at least partially in a direction transverse to the longitudinal direction the basic body 2 is formed continuously. In the presentation of the Fig. 1 the basic body 2 is shown partially cut, wherein the section extends through the receiving portion 6, the bearing portion 7 to a receiving portion 6 facing the end of the handle portion 5. The further handle portion 5 is shown without a longitudinal section.
At a opposite end of the receiving portion 6 of the handle portion 5 is a plate-like enlargement 9, on the one hand constitutes a boundary of the handle portion 5 and slipping a grip portion 2 grasping hand in the direction of the plate-like magnification 9 provided end prevented, on the other hand as impact surface for the application of abrupt shocks, for example, with a hammer-like tool on the tool holding and handle part 1 is used. The grip portion 5 of the tool holding and gripping part 1 is provided in a manner not shown here preferably with a grip and feel improving coating or sheath, in particular made of a plastic or rubber, in particular cast or overmoulded.
The two lever elements 3, 4 are each two-armed and without further connection or fastening means directly and detachably mounted on corresponding bearing structures of the base body 2 and pivotally connected to form a connecting pivot bearing also without further connecting means directly and releasably, as further described below.
A first lever element, the lever element 3, comprises an actuating lever arm 10 as the first lever arm. This actuating lever arm 10 serves to actuate the lever arrangement by a user of the tool holding and gripping part 1 in a manner to be described later. This Betätigungshebelarm 10 is the longer lever arm of the lever element 3. It extends to a pivot point of the lever member 3, which is defined by serving as a bearing structure U-shaped bearing groove 11. This U-shaped bearing groove 11 has a circular section-shaped throat bottom 12 (see. Fig. 2 ). Starting from the Fulcrum of the lever defining the bearing groove 11 on the opposite side of the Betätigungshebelarms 10, the second lever arm 13 of the first lever element 3 is formed. This lever arm 13 is compared to the Betätigungshebelarm 10 a shorter. At its end remote from the bearing throat 11, the lever arm 13 has a bearing connection section in the form of a receiving fork 14. This receiving fork 14 is as well as the bearing groove 11 provided with a circular cross-section at the base of the fork. In the direction perpendicular to the plane of the drawing, the bearing groove 11 and the receiving fork 14 extend with a uniform cross section, so that the respective circular cross-sectional base in three-dimensional view forms a circular cylinder section.
The receiving fork 14 is bounded by a longer guided fixed first leg 15 and a second, shorter leg 16. This second leg 16 is formed on the basis of the remaining material of the lever member 3 free slot 17 as a spring tongue with a spring elasticity in the direction transverse to his Longitudinal extension and in the plane of the FIG. 1 ,
With the bearing groove 11, the first lever member 3 is mounted on a fixed in the bearing portion 7, a solid part of the base body 2 forming in cross-section circular bearing pin 18 is placed. This bearing pin 18 in cooperation with the bearing groove 11, in particular of the bottom Kehlengrundes 12 (see. Fig. 2 ) forms the pivot bearing of the first lever element third
The second lever element 4 is also a two-armed. A first lever arm 19 of this lever element 4 is the longer lever arm of this lever element 4 and also dimensioned longer than the second lever arm 13 of the first lever element 3. This lever arm 19 has at its outer end an integrally formed on this circular cylindrical portion 20 of a bearing connection portion of the lever element. 4 forms. The lever arm 19 is dimensioned smaller in its thickness than the radius of the circular cylindrical portion 20 and is curved. Material thickness, further dimensions and choice of material of the lever element 4 in its lever arm 19 are dimensioned such that this lever arm 19 is elastically deformable transversely to its longitudinal extension direction and in the drawing plane of Figure 1, thus can develop a spring effect.
The lever element 4 has a bearing portion 21 in the form of an integrally formed on this lever element 4 further circular cylindrical portion. With this bearing portion 21, the lever member 4 is pivotally mounted in a kreiszylinderabschnittförmig, in cross section so circular in radius correspondingly formed receiving throat 22, which is formed in a connecting portion 6 nearby portion of the base body 2. The receiving groove 22 extends over a smaller peripheral portion than 180 °, so that the lever member 4 can be used with its bearing portion 21 in the receiving groove 22 and removed therefrom. Together, bearing portion 21 and receiving groove 22 define the pivot point of the lever element 4.
A second lever arm 23 of the lever element 4 extends in the direction of a side opposite the first lever arm 19 side of the bearing portion 21 and is shorter in length than the first lever arm 19. At its outer end this lever arm 23 carries a circular cross-section locking pin 24 which in later still to be described way the locking of a connecting portion 6 on the tool holding and handle part 1 patch tool is used.
The two lever members 3 and 4 are connected to each other by a connection of the inserted into the receiving fork 14 on the second arm 13 of the first lever member 3, arranged at the outer end of the first lever arm 19 of the second lever member 4 circular cylindrical portion 20 with this receiving fork 14 with each other. In this case, an opening width of the receiving fork 14, which is determined by a distance between the free ends of the legs 15 and 16, dimensioned smaller than the diameter of the circular cylindrical portion 20. Thus, this connection is secured. Due to the spring elasticity of the second leg 16 designed as a spring tongue, the circular cylinder section can 20 are pressed into the receiving fork 14 and led out of this, wherein a spring force of the spring tongue 16 is spread, which is splayed in a corresponding process, when inserting the circular cylindrical portion 20 in the receiving fork 14 this latching at the end by springing back to their starting position secures there ,
In the how in Fig. 1 shown assembled lever assembly formed by the hinged together lever elements 3 and 4, these form a working on the toggle lever arrangement. Because the sum of the route length calculated from the circle center of the formed in the receiving fork 14 circular Kehlengrundes to the center of the circle with the radius of the circular section Kehlengrundes 12 in the bearing groove 11 and the distance from the center of the circular cylinder section 20 to the center of the circular cylindrical section on the bearing portion 21 is larger as the distance of the center of the circular cross section of the bearing pin 18 to the center of a circle, which determines the radius of the circular cross-sectional receiving groove 22. To compensate for this path difference of the lever arm 19 is formed as described above resilient. In a closing movement, in which the Betätigungshebelarm 10 from the in Fig. 1 shown position in the direction of the handle portion 5 of the base body 2 is moved, the lever assembly moves such that the lever arm 23 moves the locking pin 24 in the direction of a formed in the connecting portion 6 Auftszapfens 25. In this case, in this closing movement, the lever assembly initially overstretched by the resilient deformation of the first lever arm 19 of the second lever member 4 is stretched, and it is then exceeded a dead center, so that when pivoted in the locking position latch pin 24, the lever assembly locked and against accidental movement back is blocked in the open position due to the spring force of the resilient lever arm 19. Only a conscious, the spring force of the lever arm 19 overcoming opening movement is able to move the locking pin 24 back from the latch position in the open position.
In Fig. 1 are also two Ansatzkhlen 26 and a blind hole 27 can be seen, which are formed on the base body 2 and serve the attachment of a chisel-like impact transmission element to transmit by means of appropriate shock forces on the tool holding and handle part 1 and thus on a tool attached thereto can For example, to drive this in the case of a medullary canal as a tool in the medullary cavity of a bone or to be able to solve this again.
Finally, in the region of the outer end of the actuating lever 10, a pointing in the direction of the handle portion 5 extension 28 can be seen, which abuts a stop surface of the handle portion 5 in a closing movement of the actuating lever 10 and thus a stop to limit a further closing movement of the lever member 3 and thus the lever arrangement forms. Thus, in particular, it can be prevented that in a "locking" the lever assembly is released on the connecting pivot bearing.
In Fig. 2 is the tool holding and gripping part 1 according to the invention Fig. 1 shown in a decomposed into its three parts, namely basic body 2, first lever member 3 and second lever member 4 state. These three parts are the only parts that are obtained when disassembling the tool holding and gripping part 1, in particular there are no other connecting elements or other small parts. Regarding the individual, in Fig. 2 also provided with reference numerals parts and elements of the three items is with regard to a corresponding description with reference to the explanations to FIG. 1 that apply here in the same way. In particular, after a use of the tool holding and gripping part 1, for example. In the context of an orthopedic and / or surgical operation, this can easily disassembled and the three parts (basic body 2, lifting element 3, lever member 4) can be easily, quickly and reliably cleaned and sterilized. Also, the tool holding and gripping part 1 can subsequently (as will be apparent from the explanations below) again be ready for a next use by assembling the three parts.
In Fig. 3 is now one - as well Fig. 1 and Fig. 2 shown with a partial view of the basic body 2 reproduced view of the tool holding and gripping part 1 in a partially assembled or partially disassembled state. It can be seen here that the two lever elements 3, 4 - in the case of an assembly already, in the case of disassembly still - hinged to the formation of the respective pivot bearing to the base body 2 and inserted into this. For this purpose, the first lever element 3 is placed with its bearing groove 11 on the bearing pin 18. The second lever element 4 is inserted with its bearing portion 21 in the receiving groove 22 on the base body 2. Since the dimensions and opening widths of the bearing grooves 11 and the receiving groove 22 are designed such that the lever elements 3 and 4 with the bearing groove 11 and the bearing portion 21 can be easily guided over the bearing pin 18 and inserted into the receiving groove 22, the in Fig. 3 shown state in the assembly simply by matching bringing together and inserting the lever elements 3 and 4 with the base body 2 and in these are achieved. When disassembling can from the in Fig. 3 shown situation, the lever elements 3 and 4 are easily detached from the base body 2 and removed.
To obtain the ready assembled state in assembly from the situation according to Fig. 3 out is now still the connecting pivot bearing, with which the two lever elements 3 and 4 are connected to form or close. For this purpose, the first lever element 3 and the second lever element 4 can be pivoted such that the circular cylindrical portion 20 between the ends of the legs 15 and 16, which limit the receiving fork 14 on the first lever element 3, is positioned. By applying a connecting force of the circular cylindrical portion 20 is then pressed into the receiving fork 14, wherein the second leg formed as a spring tongue 16 is first pressed outwardly and then springs back to its original position. In this way is - held latching - the in Fig. 1 obtained situation shown.
When disassembling the tool holding and grip part, the in Fig. 3 achieved position shown by the circular cylindrical portion 20 while applying a release force, which presses the spring 16 formed as a leg 16 outward, released from the receiving fork 14 and so the connection of the lever members 3 and 4 is released in the connecting pivot bearing. A corresponding release is done by continuing the opening movement of the lever member 3, that is, a further spreading of the Betätigungshebelarms 10 from the main body 2. Here, the front, free end 29 of the trained as a spring tongue leg 16 abuts a transition edge 30, between the circular cylindrical portion 20th and the further course of the lever arm 19 is formed in the region of the transition. In a further pivotal movement of the Betätigungshebelarms 10 in the opening direction of the leg 16 is then pressed against the applied by its spring force restoring force to the outside, so that the opening width of the receiving fork 14 is increased and the circular cylindrical portion 20 can slide out of the receiving fork 14 and the connecting pivot bearing is separated.
In Fig. 4 is in two cutouts with different position of the locking pin 24, once in the release position ( Fig. 4a ), once in the locked position ( Fig. 4b ) a partial section of the tool holding and gripping part 1 shown with a portion of a medical tool 31 arranged thereon, which is shown in a partially sectioned illustration. It can be seen that the medical tool 31 is mounted with a pin receptacle 32 on the attachment pin 25. For this purpose, for a clear and correct orientation of the tool 31, the attachment pin 25 is formed in particular with a cross-sectional contour deviating from the circular shape. This is in particular trapezoidal with mutually extending longitudinal edges and rounded and shorter transverse edges.
Furthermore, a blind-hole-like locking pin receptacle 33 can be seen on the medical tool 31, into which the locking pin 24 in the locked position (FIG. Fig. 4b ) einfahr and sits and the tool 31 is locked, from which the locking pin 34 in the release position ( Fig. 4a ) is completely removed and allows removal of the tool 31 of the attachment pin 25.
It can be seen here again, as in the position of the release position, ie in the maximum open state, the front end 29 of the leg 16 formed as a spring tongue abuts against the transition edge 30. In the case of a further opening movement of the first lever element 3 is guided by the receiving fork 14 and the legs 15 of the circular cylindrical portion 20 is pushed out of the receiving fork 14, wherein the leg formed as a spring tongue 16 is spread. In this way, a separation of the connecting pivot bearing take place for releasing the connected lever arrangement and for a subsequent simple disassembly of the tool holding and gripping part 1 by simply removing the two lever elements 3, 4th
It is also clear here that the leg 15 which is stronger in the material thickness compared to the leg 16 in the receiving fork 14, which is formed without elastic spring properties, is the one which reduces the force when closing or when the locking pin 24 is moved into the in Fig. 4b shown locking position transmits to the second lever element 4. Furthermore, it can be seen that the curvature of the first lever arm 19 of the second lever element 4 is opposite to the direction in which the closing force is transmitted from the first lever element 3 to the lever arm 19 of the second lever element 4.
In the in Fig. 4b shown position in which the medical tool 31 is fixedly connected to the tool holding and gripping part 1, a medical instrument according to the invention is formed. In this case, the tool 31 may be, for example, a bone rasp, in particular such for the medullary cavity of the proximal end of the femur. But it can also be another tool, wherein the term tool also implant parts or the like. To understand. An inventive set for forming a medical instrument is obtained when at least two different medical tools 31 are combined with a tool holding and gripping part 1.
Tool holding and grip part
plate-like enlargement
receiving fork
recording throat
approach throat
Tool holding and gripping part for releasable connection to a medical, in particular surgical, tool (31), having a main body (2) with a grip portion (5) and a connection portion (6) for connecting to the medical tool (31), wherein a latch mechanism (24), which is movable from a release position to a latching position and which is used for latching a medical tool (31) to be applied to the connection portion (6), is provided in the connection portion (6), wherein the tool holding and gripping part (1) also has a lever arrangement composed of interconnected lever elements (3, 4) which are each mounted pivotably on the main body (2), of which a first (3) has an actuation lever arm (10), and a second (4) moves the latch mechanism (24), which is in particular formed integrally on a lever arm (23) of this lever element (4), wherein the lever arrangement is formed by two lever elements (3, 4) which, with pivot bearing portions (11, 12, 21) formed thereon, are each arranged pivotably in relation to the main body (2) on pivot bearing structures (18, 22) formed in the main body (2) and each have a bearing connection portion (14, 20) on one of their lever arms (13, 19), which bearing connection portions (14, 20) are connected releasably and directly to each other and, in cooperation, form a connection pivot bearing for the two lever elements (3, 4) that is displaceable relative to the main body (2), characterized in that the two lever elements (3, 4) with their pivot bearing portions (11, 12, 21) are arranged directly and removably on the pivot bearing structures (18, 22) formed in the main body (2).
Tool holding and gripping part according to Claim 1, characterized in that the bearing connection portion (20) on one of the lever elements (4) has a circular cylinder portion which has its longitudinal direction extending transversely with respect to the direction of extent of the lever arm (19) on which it is arranged, and which is secured, in particular formed integrally, on this lever arm (19), and in that the bearing connection portion (14) on the other of the lever elements (3) comprises a receiving fork which is limited by lateral branches (15, 16) and is formed in a fork bottom with a radius corresponding to a radius of the circular cylinder portion.
Tool holding and gripping part according to Claim 2, characterized in that the branches (15, 16) of the receiving fork (14) are of different lengths, wherein the branch (15) transmitting force during a closing movement of the lever arrangement, which the latter executes during the movement of the latch mechanism (24) to the latching position, is the longer one.
Tool holding and gripping part according to either of Claims 2 and 3, characterized in that the branches (15, 16) of the receiving fork (14) have, at their free ends, an opening width that is smaller than the diameter of the circular cylinder portion (20), and in that one of the branches (16), in the case of back-reference of this claim to Claim 3 in particular the shorter branch (16), is designed as a resilient tongue.
Tool holding and gripping part according to one of the preceding claims, characterized in that one of the lever arms (13, 19) of the lever elements (3, 4) on which the bearing connection portions (14, 20) are arranged, in particular the lever arm (19) provided with the bearing connection portion (20) and forming part of the second lever element (4) that moves the latch element (24), is designed as a resilient arm with a spring elasticity in a direction transverse to its longitudinal extent.
Tool holding and gripping part according to Claim 5, characterized in that the lever arm (19) designed as a resilient arm extends in a curve in a direction counter to the force which is exerted on the latter during a closing movement of the lever arrangement which said lever arrangement executes during the movement of the latch mechanism (24) to the latching position.
Tool holding and gripping part according to one of the preceding claims, characterized in that the pivot bearing portions (14, 20), connected releasably in the connection pivot bearing, and the lever elements (3, 4) are designed in such a way that, upon a hyperextension of the lever arrangement, in particular during an opening movement that this executes during the movement of the latch mechanism (24) to the release position, the pivot bearing portions (14, 20) are separable and releasable from each other by overcoming a retaining force.
Tool holding and gripping part according to one of the preceding claims, characterized by a circular cylinder portion formed on at least one lever element (4) as bearing portion (21) for pivotable bearing of the lever element (4) in a receiving throat of the main body (2) forming the pivot bearing structure (22), having a throat bottom curved in a radius corresponding to the radius of the circular cylinder portion (21).
Tool holding and gripping part according to one of the preceding claims, characterized by a U-shaped bearing throat formed in at least one of the lever elements (3) as bearing portion (11), with a throat bottom (12) curved in a radius for the pivotable bearing of the lever element (3) on a bearing pin forming the pivot bearing structure (18), arranged fixedly on the main body, with a radius corresponding to the radius of the throat bottom (12).
Tool holding and gripping part according to one of the preceding claims, characterized by a receiving slit (8), formed at least partially continuously in a portion of the main body (2), for at least partially receiving the lever elements (3, 4), wherein the pivot bearing structures (18, 22) for the pivotable bearing of the lever elements (3, 4) are arranged in the receiving slit (8).
Tool holding and gripping part according to one of the preceding claims, characterized by abutment means (28) which are arranged on the actuation lever arm (10) and/or on the main body (2) and for limiting a lever path of the actuation lever arm (10) in a closing direction in which the latch mechanism (24) is moved to the latching position.
Tool holding and gripping part according to one of the preceding claims, characterized in that the lever elements (3, 4) are each two-armed lever elements (3, 4), wherein the first lever element (3) has, as first lever arm, the one actuation lever arm (10) and, as second lever arm, a lever arm (13) which is shorter compared to the actuation lever arm (10) and which carries the bearing connection portion (14) of this lever element (3), and wherein the second lever element (4) has a long first lever arm (19), which carries the bearing connection portion (20) of this lever element (4) and is longer than the lever arm (13) carrying the bearing connection portion (14) of the first lever element (3), and has a second lever arm (23) which is shorter in relation to its first lever arm (19) and which moves the latch mechanism (24).
Tool holding and gripping part according to one of the preceding claims, characterized in that the lever arrangement forms a toggle mechanism which, upon an actuation for moving the latch mechanism (24) to the latching position, is movable beyond a dead point and locks there.
Medical, in particular surgical, instrument, composed of a tool holding and gripping part (1) according to one of the preceding claims and of a medical, in particular surgical, tool (31) connected thereto, in particular a medullary rasp for the proximal end of a human femur.
Kit for forming a medical, in particular surgical, instrument according to Claim 14, composed of a tool holding and gripping part (1) according to one of Claims 1 to 13 and of at least two different medical, in particular surgical, tools (31).
EP20120171416 2012-06-11 2012-06-11 Tool holding and gripping part for a medical tool, in particular a surgical tool Active EP2674116B1 (en)
EP20120171416 EP2674116B1 (en) 2012-06-11 2012-06-11 Tool holding and gripping part for a medical tool, in particular a surgical tool
ES12171416.6T ES2512466T3 (en) 2012-06-11 2012-06-11 Retaining and gripping part for a medical tool, in particular a surgical tool
AU2013276763A AU2013276763B2 (en) 2012-06-11 2013-05-24 Instrument holder and grip for a medical, particularly a surgical, instrument
US14/406,104 US9814529B2 (en) 2012-06-11 2013-05-24 Instrument holder and grip for a medical, particularly a surgical, instrument
CN201380030207.7A CN104349730B (en) 2012-06-11 2013-05-24 For medical treatment, the particularly tool holder and handle of surgical operating instrument
RU2014147703A RU2638455C2 (en) 2012-06-11 2013-05-24 Part for holding and capture of medical, namely surgical, instrument
PCT/EP2013/060730 WO2013186027A1 (en) 2012-06-11 2013-05-24 Instrument holder and grip for a medical, particularly a surgical, instrument
EP2674116A1 EP2674116A1 (en) 2013-12-18
EP2674116B1 true EP2674116B1 (en) 2014-08-06
ID=48483089
EP20120171416 Active EP2674116B1 (en) 2012-06-11 2012-06-11 Tool holding and gripping part for a medical tool, in particular a surgical tool
US (1) US9814529B2 (en)
EP (1) EP2674116B1 (en)
CN (1) CN104349730B (en)
AU (1) AU2013276763B2 (en)
ES (1) ES2512466T3 (en)
RU (1) RU2638455C2 (en)
WO (1) WO2013186027A1 (en)
RU2211674C2 (en) * 2001-07-27 2003-09-10 Афанасьев Вениамин Витальевич Device for carrying out cervical vertebra resection
KR100417425B1 (en) 2001-08-27 2004-02-05 엘지전자 주식회사 Structure for reducing pin stress of scroll compressor
2012-06-11 ES ES12171416.6T patent/ES2512466T3/en active Active
2012-06-11 EP EP20120171416 patent/EP2674116B1/en active Active
2013-05-24 RU RU2014147703A patent/RU2638455C2/en active
2013-05-24 CN CN201380030207.7A patent/CN104349730B/en active IP Right Grant
2013-05-24 US US14/406,104 patent/US9814529B2/en active Active
2013-05-24 WO PCT/EP2013/060730 patent/WO2013186027A1/en active Application Filing
2013-05-24 AU AU2013276763A patent/AU2013276763B2/en active Active
RU2014147703A (en) 2016-07-27
CN104349730B (en) 2017-09-22
ES2512466T3 (en) 2014-10-24
EP2674116A1 (en) 2013-12-18
AU2013276763A1 (en) 2014-12-18
US9814529B2 (en) 2017-11-14
CN104349730A (en) 2015-02-11
US20150127007A1 (en) 2015-05-07
WO2013186027A1 (en) 2013-12-19
RU2638455C2 (en) 2017-12-13
AU2013276763B2 (en) 2017-02-16
AU2012296698B2 (en) 2016-09-08 Attachment mechanism
JP6181117B2 (en) 2017-08-16 Arrangement of instruments for installing or removing spinal implants
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