FR2902640A1 - Bending pliers for emerging end of medical broach, have support jaw including free end with part placed at specific distance from axis, and unit controlling rotation of branches, where one of branches has groove receiving broach to be bent - Google Patents

Abstract

The pliers have a screw (15) rotatably mounting oblong branches (11, 12) with respect to each other around an axis (113) such that axes (111, 112) form a variable angle (beta). A control unit (40) controls the rotation of the branches, where the branch (11) has a groove (20) receiving a medical broach (1) to be bent. The groove has an outlet (28) with a point (27) located at a distance equal to SG power 20 from the axis (113). A support jaw (30) has a free end (36) with a part (36-1) placed at a distance (LB2epower1), that is larger than SG power 20, from the axis (113).

Description

FORCEPS FOR BENDING MEDICAL SPINDLES

The present invention relates to clamps for bending medical pins when these pins are initially of generally substantially cylindrical shape, preferably of revolution. It is first of all specified that, by medical pins, it is understood, within the meaning of the present description, any rods of metallic ductile material or the like, which are suitable for being implanted in a human or animal body, more particularly in the body. minus a portion of bone, this implantation being by force, screwing, etc., emphasizing that the bending of a pin can be done before it is implanted or after its implantation to bend its emergent end . Indeed, surgeons are often required to bend the emerging end of a medical wire implanted into a bone to prevent this emerging end, which is the result of a cut generally having a bevel shape, from injuring the bone. other parts of the patient's body, or other people than the patient himself. However, surgeons currently do not have at their disposal an essentially manual tool which allows them to easily and safely bend the end of a pin, which is of a very simple structure and inexpensive to produce. , and which can also be easily sterilized. Also, the object of the present invention is to provide a clamp for bending medical pins which at least largely overcomes the drawbacks of the tools currently available to surgeons, and which attempts to achieve the goals defined above. -above. More precisely, the present invention relates to a clamp for bending medical pins when these pins are initially of generally cylindrical shape with a cross section of value Eb1, characterized by the fact that it comprises: • two first and second shaped branches. generally oblong defined longitudinally respectively along two first and second axes, 2

• means for mounting the two branches in rotation with respect to each other around a third axis so that the first and second axes are substantially concurrent on this third axis and are contained in a first plane substantially perpendicular to the said third axis, forming between them a variable angle 13, • a first groove for receiving a pin to be bent, said first groove being substantially rectilinear and produced in the first branch along a fourth axis so that this fourth axis is substantially contained in the first plane and that its cross section defined in a plane perpendicular to said fourth axis is at least equal to Eb1, the point of exit from said first groove, closest to the third axis and where the spindle must be bent, being located at a distance from said third axis equal to SG20, the length LB11 of said first branch defined between the third axis and the pole of its most free end remote from said third axis being at least equal to SG20, said first groove being further delimited by at least two opposite wall portions of non-zero length substantially perpendicular to said first plane, • a bearing spout integral with the second branch, this said support spout being produced substantially at the free end of the second branch and offset from the latter towards the first branch, the first part of the free end of the support spout facing the first groove being located at a distance LB2e1 from the third axis greater than SG20, and • means for controlling the rotation of the two branches with respect to one another. Other characteristics and advantages of the invention will become apparent from the following description given with reference to the accompanying drawings by way of illustration but in no way limiting, in which: FIG. 1 represents the block diagram of the bending pliers 30 for pins medical devices according to the invention, in its open position just before it is suitable for use in bending a spindle, - Figures 2 and 3 show two side views of a preferred industrial embodiment of 'a pliers for bending medical pins according to the invention, respectively in its open position before the bending of a pin and in its closed position after the bending of the pin, these two figures being in agreement with the schematic representation of principle according to Figure 1, and - Figure 4 shows the pliers for bending a pin according to the invention in a view orthogonal to the view according to Figures 2 and 3 taken in the direction of arrow F in fig ure 2.

It is first of all specified that, in the figures, the same references designate the same elements, whatever the figure in which they appear and whatever the form of representation of these elements. Likewise, if elements are not specifically referenced in one of the figures, their references can be easily found by referring to another figure. It is also specified that the figures essentially represent an industrial embodiment of the object according to the invention, but that there may be other embodiments which meet the definition of this invention.

It is further specified that, when, according to the definition of the invention, the subject of the invention comprises "at least one" element having a given function, the embodiment described may include several of these elements. Conversely, if the embodiment of the object according to the invention as illustrated comprises several elements of identical function and if, in the description, it is not specified that the object according to this invention must necessarily include a number particular of these elements, the object of the invention may be defined as comprising "at least one" of these elements. It is finally specified that when, in the present description, an expression defines by itself, without specific specific mention concerning it, a set of structural characteristics, these characteristics can be taken, for the definition of the object of the requested protection, when technically possible, either separately or in total and / or partial combination. The clamp according to the invention makes it possible to bend medical pins 1, as defined in the preamble of the present description. These pins are initially of generally cylindrical shape with a cross section of value Eb1, specifying that they can be of any longitudinal, rectilinear, pre-curved shape, etc., with sections which may have any shape, circular, polygonal, etc. ., although in general they are initially rectilinear and of circular section, that is to say cylindrical of revolution. This having been specified, the bending clamp comprises two first and second branches 11, 12 of generally oblong shape defined longitudinally respectively along two first 111 and second 112 axes, and means 15 for mounting these two branches 11, 12 in rotation. one with respect to the other around a third axis 113 so that the first and second axes 111, 112 are substantially always concurrent on this third axis 113 and are contained in a first plane substantially perpendicular to the third axis 113, forming between them an angle 13 which varies as a function of the rotation of the two branches relative to each other, FIG. 1. These means 15 defined above are for example of the same type as those which are used for the grippers, for example. example, to be cut from the prior art, and consist for example of a screw shouldered on one of the branches and screwed into the other.

The clamp further comprises a first groove 20 to receive a pin 1 to be bent, the point 27 of the outlet 28 of this first groove 20, the closest to the third axis 113 and which is the place where the pin 1 must be bent. as will be explained below, being located at a distance from this third axis equal to SG20.

This first groove 20 is substantially rectilinear and produced in the first branch 11 along a fourth axis 114, so that this fourth axis 114 is substantially contained in the first plane and tangent to a virtual circle 21 of radius Rc centered on the third axis 113 , and so that it has a cross section defined in a plane perpendicular to the fourth axis 114 at least equal to Eb1. In fact, the shape and the section of this groove are determined so that the pin 1 to be bent can slide therein longitudinally without significant play. The first groove 20 is further made so that it is delimited by at least two opposing wall portions 25, 26 of non-zero length substantially perpendicular to the foreground, so that when the pin is bent at a point like it will be explained below, the part of this pin contained in the groove 20 is well held by the two opposite wall portions 25, 26 and does not tend to pivot in the foreground when its other part located outside the groove pivots in this foreground during the curvature. It further specifies that by "portion of wall of non-zero length substantially perpendicular to the foreground", it is understood within the meaning of the present description, either a single wall, or for example a combination of a finite or infinite plurality of walls. which is equivalent to a single wall portion. Thus, for example, a "V 'or" U "-shaped concave wall portion in which the pin would be housed must be considered physically as equivalent to a single wall which would be substantially parallel to a straight line passing through them. vertices on both sides of the "V 'or the" U ". The length LB11 of the first branch 11 defined between the third axis 113 and the pole 23 of its free end 24 furthest from this third axis is at least equal to SG20. In the example illustrated in Figures 2 to 4 which is the preferred embodiment for the bending clamp according to the invention, the fourth axis 114 is perpendicular to the first axis 111 of the first branch 11. It is however specified that this fourth axis 114 may have any other possible orientation relative to the first axis 111. It is for example conceivable that it intersects the third axis 113. In this case, the value of the radius Rc of the virtual circle defined above is zero and the first groove 20 opens out substantially at the pole 23 of the first branch 11, that is to say at its end furthest from the third axis 113. In this case, its axis 114 is substantially parallel or coincident with the axis 111 of the first branch 11. This possible embodiment has not been illustrated because it can be deduced without any difficulty from the description given with reference to the four figures. It is also specified that this groove 20 can be a through or blind opening at its end opposite to that containing its outlet 28 defined above. But it can also be opened longitudinally on one side in order to be able to place the spindle by lateral insertion.

It is this embodiment of the groove which is illustrated in the figures. In this case however, so that the wall of the groove can react during the curvature of the spindle as explained below and so that it actually comprises the two opposite wall portions 25, 26 defined previously, it is not necessary to that the longitudinal opening is located in the foreground.

The clamp further comprises a bearing beak 30 integral with the second branch 12, this bearing beak being produced substantially at the free end 31 of the second branch 12 and offset from the latter towards the first branch 11, the first part 36-1 of the free end 36 of the bearing spout 30 facing the first groove 20 located at a distance LB2e1 from the third axis 113 greater than SG20 and advantageously at least equal to the SG20 + Eb1. Means 40 are further provided for controlling the rotation of the two branches 11, 12 with respect to one another. These means 40 are advantageously constituted by two gripping handles 41, 42 in the form of lever arms secured respectively to the two branches 11, 12, for example of the same shape as those for the cutting pliers of the prior art. It is obvious that the rotation with respect to one another of the two branches of the bending pliers according to the invention can be compared to the rotation of the two branches of the cutting pliers of the prior art, and that it advantageously has a limited maximum amplitude. For this purpose, the means of rotation 15 of the bending clamp according to the invention are arranged so that the maximum value that the variable angle 7 can reach

[3 that between them the first and second axes 111, 112 is greater than a given value a determined so that the second branch 12 and the bearing spout 30 are entirely contained in the half-space containing the third axis 113 and delimited by a second plane perpendicular to the first plane and passing through the fourth axis 114. The purpose of this characteristic will be explained below in the description of the use and operation of the bending clamp according to the invention. For certain applications, the bending clamp according to the invention may further comprise means for limiting the value of 13 to a minimum value, with the aim of limiting, for example, the amplitude of the curvature of the spindle 1. These means n 'have not been specifically illustrated. They have simply been mentioned schematically at 100 in FIG. 3. They can for example consist of an adjustable finger in length integral with one 11 of the two branches and able to come into abutment against the other branch 12 in order to limit the length of the finger. rotation of the two branches relative to each other. The length-adjustable finger consists for example of a screw mounted screwed into the thickness of one of the two branches by passing through it and the penetrating tip of which is able to emerge in the angular space defined between the two branches.

According to a preferred embodiment of the clamp, the portion of the foot 33 of the bearing spout 30 located on the second branch 12 and closest to the third axis 113 is located at a distance LB2p1 from the third axis 113 at least equal to SG20. The embodiment described above is that of a clamp making it possible to bend a spindle whose cross section has a value between two limits, the highest of which is equal to Eb1, the lower limit value depending on the precision desired for the spindle curvature. Also, the bending pliers can very advantageously be presented in an improved embodiment like the one illustrated and which makes it possible, with the same pliers, to bend two types of spindle 1, one 8.

spindle which has a cross section Eb1 and another of a different cross section, for example Eb2. In this embodiment, the first branch 11 being delimited by two side faces 51, 52 substantially perpendicular to the third axis 113 and the first groove 20 being made on one 51 of these two side faces, the clamp further comprises a second groove 200 made in the other side face 52 of the same first branch 11, this second groove having the same structural characteristics as the first groove 20, except that its cross section is of a value Eb2 generally different from Eb1. This second groove is defined along a fifth axis 115 substantially parallel to the fourth axis 114, the point of the exit from the second groove 200, the closest to the third axis 113 and where the pin 1 of section Eb2 must be bent, being located at a distance from the third axis equal to SG200 which may be equal to the value SG20. SG200 has not been represented in the figures, because it does not constitute a reference but a datum characterizing a structural element, especially since it can be deduced without any difficulty from the representation of SG20 which is displayed in FIG. 1 .

In the embodiment defined above of the bending pliers according to the invention, the free end 36 of the bearing spout 30 has a width at least equal to that of the first branch 11 defined between its two lateral faces 51 , 52 and it is arranged to be entirely included in the space defined between the two planes P51, P52 passing respectively through these two side faces 51, 52, the second part 36-2 of the free end 36 of the bearing spout 30 opposite the second groove 200 being distant from the third axis 113 by a length LB2e2 at least equal to SG200 and advantageously at least equal to SG200 + Eb2. As mentioned above, the medical pins 1 to be bent are generally cylindrical of revolution. Also, to prevent, when the curvature of such a pin 1 is carried out, that it does not curve in an undesired plane outside the first plane defined above, the first part 36-1 of the end of the bearing spout facing the first groove 20 advantageously comprises a groove 81 defined in the first plane and capable of at least partially receiving the side wall of the spindle. Advantageously, the 'second part 36-2 of the end of the bearing spout facing the second groove 200 also comprises a groove 82 similar to the groove 81. These grooves 81, 82 make it possible to guide in sliding pin 1 and keeping it in the foreground when it is bending, as will be explained below. The bending clamp according to the embodiments described above allows a spindle to be bent through an angle of the order of ninety degrees or a little more. However, it can be envisaged, for certain types of spindle 1, to bend them in a loop making an angle much greater than ninety degrees, for example up to one hundred and eighty degrees. 15 For this purpose, the shape of the surface 38 of the bearing spout 30 between the portion 33 of its foot located on the second branch 12 closest to the third axis 113 and the first part 36-1 of its free end 36 is substantially homothetic in the shape of the surface 29 of the free end 24 of the first branch 11 between the outlet 28 of the first groove 20 facing the second branch 12 and the pole 23 of this free end 24, of so that, when the two surfaces 38, 29 are one above the other, they are separated by a space substantially equal to Eb1 for one side of the first branch 11 and Eb2 for the other side. For this, it is obvious that the outlet 28 of the groove 20 or 200 should not be located at the pole 23 of the first branch 11. Advantageously, the bending pliers according to the invention also include specific cutting means. by guillotine of a spindle 1, for example to avoid obtaining a bevel-shaped cutting surface. Preferably, these guillotine cutting means of a spindle 1 consist of a through orifice 90 made in a portion of one 12 of the two branches 11, 12 along an axis substantially perpendicular to the foreground, the section of the orifice 90 being substantially complementary to that of the spindle 1, and by the fact that the portion of the other branch 11 capable of coming into total overlap with the outlet 92 of the orifice 90 when the two branches pivot the one with respect to the other is shaped as a cutting blade 91. The bending pliers according to the invention described above with reference to Figures 1 to 4 are used as follows: When a practitioner wants to bend a straight spindle 1 of section Eb1 (or Eb2), it opens the clamp by separating the two branches 11, 12 by a maximum angle 3 greater than a and places the spindle in the groove 20 (or the groove 200), figures 1, 2 and 4 , by passing it over the support spout 30. It then closes the pliers until it stops. e the groove 81 comes into contact with the pin 1, the pin being for example held manually. Then, by means of the two gripping handles 41, 42, it tends to completely close the clamp, that is to say to reduce the angle to make its value tend towards zero.

When closing the clamp, the end 36 of the bearing spout 30 applies a force on the spindle following a component not coincident with the axis 114 of the groove 20, which tends to bend it at the level of the outlet 28 of the groove 20 since the other part of the pin is held between the two opposite wall portions 25, 26.

As the two branches 11, 12 approach each other, the pin 1 bends more and more at the outlet 28 of the groove 20. Figure 3 shows the configuration of the clamp-spindle assembly at the end of the operation of bending a spindle about ninety degrees.

The groove 81 makes it possible to constantly maintain the spindle 1 in the first plane defined previously and prevents, when the two branches 11, 12 are brought closer to one another, it does not rip or slide laterally on the end 36 of the spout. support 30, at the risk of escaping completely. Obviously, if the pin 1 has a polygonal section, for example square, the groove 81 is not, in principle, necessary, although preferable.

The mode of use of the bending pliers according to the invention would be exactly the same for a spindle of section Eb2. In this case, the spindle would be positioned in the second groove 200- and, during the bending operation, it is the groove 82 which would slide on the spindle keeping it in the foreground.

Claims (12)

1. Pliers for bending medical pins. (1) when these pins are initially of generally cylindrical shape with a cross section of value Eb1, characterized by the fact that it comprises: • two first and second branches (11, 12) of shape generally oblong defined longitudinally respectively along two first (111) and second (112) axes, • means (15) for mounting the two branches (11, 12) in rotation with respect to each other around a third axis (113) so that the first and second axes (111, 112) are substantially concurrent on this third axis (113) and are contained in a first plane substantially perpendicular to said third axis (113), forming an angle between them variable, • a first groove (20) for receiving a pin (1) to be bent, said first groove (20) being substantially rectilinear and produced in the first branch (11) along a fourth axis (114) so that this fourth axis (114) is substantially contained in s the first plane and that its cross section defined in a plane perpendicular to said fourth axis (114) is at least equal to Eb1, the point of the outlet (28) of said first groove (20), closest to the third axis (113) and where the spindle (1) must be bent, being located at a distance from said third axis (113) equal to SG20, the length LB11 of said first branch (11) defined between the third axis (113) and the pole (23) of its free end (24) furthest from said third axis being at least equal to SG20, said groove (20) being further delimited by at least two opposite wall portions of non-zero length substantially perpendicular to the said first plane, • a support spout (30) integral with the second branch (12), said support spout being produced substantially at the free end (31) of the second branch (12) and offset from the latter towards the first branch (11), the first part (36-1) of the free end (36) of the bearing spout (30) in sight 13 of the first groove (20) located at a distance LB2e 'from the third axis (113) greater than SG20, and • means (40) for controlling the rotation of the two branches (11, 12) relative to one another to the other. 2. Clamp according to claim 1, characterized in that the maximum value of the variable angle j3 must be greater than a given value determined so that the second branch (12) and the bearing spout (30) are entirely contained in the half-space containing the third axis (113) and delimited by a second plane perpendicular to the first plane and passing through the fourth axis (114). 3. Clamp according to one of claims 1 and 2, characterized in that the portion of the foot (33) of the bearing spout (30) located on the second branch (12) and closest to the third axis (113 ) is located at a distance LB2p 'from the third axis (113) at least equal to SG20. 4. Clamp according to one of claims 1 to 3, characterized in that the means (40) for controlling the rotation of the two branches (11, 12) with respect to one another are constituted by two handles of gripping (41, 42) in the form of a lever arm secured respectively to the two branches (11, 12). 5. Clamp according to one of claims 1 to 4, when said first branch (11) is delimited by two side faces (51, 52) substantially perpendicular to the third axis (113) and that the first groove (20) is made on one (51) of these two lateral faces, characterized in that it further comprises a second groove (200) made in the other lateral face (52) of the first branch (11), the second groove being defined along a fifth axis (115) substantially parallel to the fourth axis (114), the point of the exit of said second groove (200), the closest to the third axis (113) and where said spindle (1) must be bent, being located at a distance from said third axis equal to SG2oo 6. Clamp according to claim 5, characterized in that the cross section of the second groove (200) defined in a third plane perpendicular to the fifth axis (115) has a value Eb2 different from Eb1. 7. Clamp according to claim 6, characterized in that the free end (36) of the bearing spout (30) has a width at least equal to that of the first branch (11) defined between the two side faces ( 51, 52) and is arranged to be entirely included in the space defined between the two planes (P51, P52) passing respectively through the two side faces (51, 52), the second part (36-2) of the end free (36) of the bearing spout (30) facing the second groove (200) being distant from the third axis (113) by a length LB2e2 at least equal to SG2oo 8. Clamp according to one of the preceding claims, characterized in that the first part (36-1) of the end of the bearing spout opposite the first groove (20) comprises a groove (81, 82) defined in said first plane capable of at least partially receiving the side wall of the spindle (1). 9. Clamp according to one of the preceding claims, characterized in that the shape of the surface (38) of the bearing spout (30) between the portion (33) of the foot of this bearing spout located on the second branch (12) and closest to the third axis (113) and the first part (36-1) of the free end (36) of the bearing spout (30) is substantially homothetic to the shape of the surface ( 29) of the free end (24) of the first branch (11) between the outlet (28) of the first groove (20) facing the second branch (12) and the pole (23) of this free end (24) of the first branch (11), so that, when the two surfaces (38, 29) 15 are one above the other, they are separated by a space substantially equal to Eb1. 10. Clamp according to one of the preceding claims, characterized in that it comprises means for cutting a spindle (1). 11. Clamp according to claim 10, characterized in that the cutting means of a pin (1) consist of a through orifice (90) made in one (12) of the branches (11, 12) along an axis 10 substantially perpendicular to the foreground, the section of said orifice (90) being substantially complementary to that of said spindle, and by a portion (91) of the other branch capable of coming into total overlap of the one (92) of the outlets of said orifice (90), shaped as a cutting blade. 12. Clamp according to claim 2 or one of claims 3 to 11 when they depend on claim 2, characterized in that it comprises means for limiting the value of f3 to a minimum value.