US3494364A - Handle component for electro-surgical instrument - Google Patents

Description

Feb. 10, 1970 R. L. PETERS HANDLE COMPONENT FOR' ELECTRO-SURGICAL INSTRUMENT Filed Nov. 9. 1967 INVENTOR. Ronald L Peters Attorneys x \./I v Q J o m J fikwm 2 E W Q mm 2 t :\o+ Lm mm L Mr um v om mm I I in.

United States Patent 3 494,364 HANDLE COMPONENT FOR ELECTRO-SURGICAL INSTRUMENT Ronald L. Peters, Oakland, Calif, assignor to Edward Week & Company, Inc., Long Island City, N.Y., a corporation of Delaware Filed Nov. 9, 1967, Ser. No. 681,732 Int. Cl. A61b 17/36, /04; B23b 31/12 U.S. Cl. 128-30317 11 Claims ABSTRACT OF THE DISCLOSURE A handle component for an electro-surgical instrument which includes both such handle component and a surgical electrode releasably carried thereby. The handle component comprises an elongated, hollow casing open at one end to receive the shank of such surgical electrode therein and terminating at its other end in a fulcrum. Within the hollow interior of the casing is a jaw-equipped chuck adapted to releasably receive the shank of an electrode therein, and also within the interior of the casing is a chuck tightener in the form of a collet disposed in circumjacent relation with the jaws of the chuck. The chuck is axially movable relative to the collet between a closed electrode-gripping position and an open electrodereleasing position, and it is biased toward the closed position thereof by a spring. A cap connected with the chuck is also biased by such spring toward a position in which it seats upon the fulcrum and in which position it is axially aligned with the casing. However, the cap is deflectible laterally about the fulcrum to displace the chuck into its open position to enable the shank of a surgical electrode to be removed from or inserted into the chuck.

This invention relates to an electro-surgical instrument comprising a handle component and a surgical electrode releasably carried thereby, and it relates more particularly to the handle component of such instrument.

Electro-surgical instruments are used rather extensively in many surgical procedures as, for example, in the cauterization of warts, moles, etc., and sometimes, especially with hemophiliacs, in making and cauterizing an incision simultaneously. Such instruments include a handle component and a tip or electrode carried thereby, and in the usual instance the electrode is removably carried by the handle component adjacent one end thereof. The electrode is connected through the interior of the handle component with a power cord attached to the handle at its opposite end, and the handle component both insulates the surgeon from the electrode and electrical connections thereto and provides him with a means for holding and manipulating the electrode.

The present invention is concerned with a handle component of the type that releasably supports surgical electrodes and has for an object, among others, the provision of an improved handle component enabling electrodes to be mounted within and removed from the handle quickly and easily, without tools, and upon the simple motion of deflecting an end portion of the handle component laterally from the position normally assumed thereby in which it is in alignment with the longitudinal axis of the handle. In this reference, the improved handle component includes an elongated, hollow casing or body open at one end so as to removably receive the shank of a surgical electrode or tip therein. Adjacent its other end, the casing is provided with a perimetrically extending fulcrum and a cap or casing extension is normally seated thereon. Within the hollow interior of the casing is a chuck and also a chuck tightener in the form of a collet disposed in coaxial circumjacent relation with the jaws of the chuck. The chuck is axially displaceable with respect to such tightener between a closed electrode-gripping position enforced on the jaws of the chuck by the tightener and an open electrode-releasing position in which the tightener permits the jaws of the chuck to relax their grip on the electrode.

A spring mounted Within the interior of the casing resiliently biases the chuck toward the closed position thereof, and the cap is connected with the chuck through a strap or cable in a manner such that the cap is resiliently seated upon the fulcrum by the biasing force of such spring and tends to assume as a result thereof a condition of axial alignment with the casing. The cap is deflectible laterally about the fulcrum against the biasing force of such spring, and because of its connection with the chuck through the strap displaces the chuck into the open position thereof, whereupon an electrode can then be positioned within or removed from the chuck. Release of the cap enables the spring to return the cap to its in-line position with the casing and to displace the chuck into the closed position thereof.

Additional objects and advantages of the invention will become apparent as the discussion thereof proceeds through an explanation of the specific structural embodiment illustrated in the accompanying drawing, in which:

FIGURE 1 is a longitudinal sectional view of a surgical instrument embodying the invention with the chuck of the casing component being shown in its closed position, alternate positions of the deflection of the cap element being depicted by broken lines;

FIGURE 2 is an enlarged, transverse sectional view taken along theline 22 of FIGURE 1;

FIGURE 3 is an enlarged, broken longitudinal sectional view of a segment of the casing component illustrated in FIGURE 1;

FIGURE 4 is a slightly enlarged, transverse sectional view taken along theline 44 of FIGURE 1;

FIGURE 5 is a broken longitudinal sectional view of the electrode-equipped end portion of the instrument shown in FIGURE 1 but with the chuck of the casing component being shown in the open position thereof.

The electro-surgical instrument shown in its entirety in FIGURE 1 comprises a handle component 10 and a surgical electrode or tip 11 releasably carried thereby. As respects the present invention, the electrode 11 may be conventional and in the form shown includes a generally spherical cauterizing point 12 and anelongated shank 13 adapted to be inserted into the interior of the handle component 10, as will be described in greater detail hereinafter. Aninsulating sleeve 14 slides over theshank 13 and is coaxially circumjacent the end portion thereof adjacent the point 12. Thesleeve 14 serves as a stop to limit insertion of the electrode 11 into the handle 10 and it also insulates that portion of theshank 13 projecting outwardly from the handle 10.

The handle component 10 includes an elongated cylindrical casing or body 15 that is hollow and defines a passage 16 extending axially therethrough. The casing 15 is open along the forward end 17 thereof and is adapted to removably receive theshank 13 of the electrode 11 therein, and the casing is provided interiorly of the end 17 with a stop or abutment shoulder 18 (FIGURE 5) against which thesleeve 14 seats upon complete insertion of the electrode 11 into the handle. Accordingly, such seating of thesleeve 14 against the shoulder 18 defines the limit of maximum insertion of the electrode 11 into the handle, and it also identifies the condition of complete and proper insertion of the electrode.

The shoulder 18 is formed by one end of an inwardly extending restriction or neck 19 provided along the passage 16, and such restriction at its opposite end forms a stop or abutment shoulder 20 against which seats one edge of a chuck tightener 21 having the form of an annular collet providing an opening 22 therethrough converging inwardly toward a minimum diameter adjacent the restriction 19. At its opposite end, the collet or chuck tightener 21 seats against ashoulder 23 defined by asecond restriction 24 along the passage 16 of lesser inward extent than the aforementioned restriction 19. Thus, the collet 21 is constrained against axial displacements relative to the casing by being confined between the shoulders and 23.

Various structural arrangements can be provided to enable the collet 21 to be positioned within the casing 15 as, for example, a segmented casing or a collapsible collet, but in the particular structure being considered, the casing is sufficiently elastic to expand or deform to the extent necessary to permit axial displacement of the collet through therestriction 24 and into position between theshoulders 20 and 23. In this respect, the casing is made from an insulating material such as polysulfone and the collet is formed from a rigid material such as brass.

Mounted within the passage 16 and axially displaceable relative thereto between open and closed positions is achuck 25 in the form of an elongated, axially extending cylindrical tube having apassageway 26 therethrough, as shown best in FIGURE 3. Adjacent the forward end portion thereof, thechuck 25 is provided with a plurality of angularly spaced and longitudinally extendingslits 27 respectively providing jaw orgripper elements 28 therebetween. Thechuck 25 is made of a material having suflicient flexibility to enable thejaw elements 28 to be compressed tightly against theshank 13 of an electrode 11 so as to tightly grip the same and thereby frictionally constrain the electrode within the handle component 10 whenever the chuck is in its closed position and to enable the jaw elements to expand slightly and release theshank 13 when the chuck is in its open position. An example of a material suitable for this use is brass.

Thechuck 25 along the opposite end thereof is threaded, as shown at 29, and threadedly receives thereon ahollow coupling 30 which is fixedly secured in any position of adjustment along the chuck by a lock nut 31. Thecoupling 30 is larger in diameter than thechuck 25 and is dimensioned so as to be freely slidable in axial directions along the casing passage 16 and is sufliciently long so as to provide a surface area adequate to prevent canting or binding of the chuck and coupling during axial displacements thereof. Seated at one of its ends against thecoupling 30 is ahelical compression spring 32, and at its opposite end it seats against an externally threaded plug orcollar 33 received within the internally threaded end portion 34 of the casing 15. The collar has an opening 35 extending axially therethrough, and it is provided with a transversely extending slot 36 at one end defining a tool-receiving opening to facilitate rotation of the collar into the threaded end of the casing 15.

Evidently, since thecollar 33 is fixedly located along the casing 15 and thereby constrained against axial displacements With respect thereto, thespring 32 resiliently biases the chuck 25 (through its connection with thecoupling 30 and lock nut 31) toward the closed position thereof in which the collet 21 is effective to urge thejaw elements 28 inwardly and into frictional engagement with theshank 13 of an electrode 11 positioned therebetween. Therefore, thechuck 25 is continuously biased toward the closed electrode-gripping position thereof by thespring 32, but it is selectively displaceable against the biasing force of the spring into an open electrode-releasing position, as will be described subsequently.

In this respect, the casing 15 at the end thereof adjacent thecollar 33 is equipped with afulcrum 37 which in the form shown is perimetrically extending, and since the casing 15 is cylindrical and the fulcrum is formed at one end thereof, the fulcrum is annular. The lever system used in conjunction with thefulcrum 37 to displace thechuck 25 into its open position includes a cap orcasing extension 38 having a surface 39 that seats upon thefulcrum 37 and is formed in part by the hollowouter shell 40 of such cap and in part by an inner plug orclosure 41 threadedly received within the shell. Theshell 40 andinner plug 41 are respectively provided with cooperative threads, as shown at 42, to enable the shell and plug to be removably interconnected, and the precise location of the plug within the sleeve is determined by engagement of facing abutment shoulders respectively provided thereby, as shown at 43. Theplug 41 may be provided with a tool-receivingslot 44 extending thereacross which can be used in threading the plug into theshell 40.

Theplug 41 has a bore orchamber 45 therein which is open at its rear end and closed at its forward end by a transversely disposedclosure wall 46 having apassageway 47 extending therethrough. Thecap 38 is connected with thechuck 25 by a cable or strap 48 extending through thepassageway 47 in theplug 41, through thepassageway 35 in thecollar 33, and through thecoupling 30 and into thepassageway 26 in thechuck 25. The end portion of the strap 48 extending into thebore 45 of theplug 41 projects through a spring seat or seating element 49 and has aclamp collar 50 fixedly attached thereto in any suitable manner as, for example, by being crimped about the strap so as to constrain relative movement therebetween. A helical compression spring 51 at one end thereof bears against the seating element 49 and at its opposite end seats against theclosure wall 46 of theplug 41. Thus, the spring 51 resiliently biases the seating element 49 and strap 48 toward the left (as viewed in FIG- URES 1 and 3), but permits limited displacements of the strap and seating element in the opposite direction against the biasing force of the spring.

Adjacent its opposite end, the strap 48 is attachedto thecoupling 30 in a manner preventing relative axial displacements therebetween, and such attachment maybe effected by one or more set screws 52 that extend through openings provided therefor in the coupling and which bear against the strap. As explained hereinbefore, thehelical spring 32 urges thecoupling 30, lock nut 31 and chuck 25 toward the right (as viewed in FIGURES 1 and 3) so as to bias the chuck toward the closed position thereof; and since the strap 48 connects thecoupling 30 with theplug 41,'thespring 32 also biases thecap 38 comprising theplug 41 andshell 40 attached thereto toward the right so as to seat these elements, and especially the surface 39 thereof, upon thefulcrum 37. In this respect, the seating force is applied by the strap 48 to thecap 38 through theclamp collar 50, seating element 49, and spring 51 to thetransverse closure wall 46 of the plug.

Since thefulcrum 37 and surface 39 seating thereon are substantially continuous and annular, the biasing force developed by thespring 32 seats thecap 38 firmly upon the fulcrum 37 in a position in which the cap is substantially aligned axially with the casing 15, and the magnitude of the force seating the cap upon the fulcrum and urging thechuck 25 into the closed position thereof can be adjusted, for any fixed location of theclamp collar 50 and set screws 52 relative to the strap 48, by changing the position of thecollar 33. Thus, by screwing thecollar 33 inwardly to a greater depth within the casing 15, thespring 32 will be compressed to a greater extent and will develop a larger biasing force. Contrarywise, displacing thecollar 33 in an outward direction, or toward the left as viewed in FIGURES 1 and 3, will reduce the biasing force developed by the spring. Initial or gross adjustment of the spring force is determined by the location along the strap 48 at which the set screws 52 are tightened thereagainst.

Thechuck 25 can be displaced axially into the open position thereof shown in FIGURE 5 by deflecting thecap 38 in any lateral direction about the fulcrum 39, as indicated by the broken-line positions of the cap in FIG- URE 1. That is to say, since the fulcrum is annular, thecap 38 can be deflected laterally at any position along the entire 360 circumference thereof. Deflection of thecap 38 about the pivot point defined along thefulcrum 37 displaces theclosure wall 46 angularly in a direction away from thecollar 33, and such movement of the cap imparts a tensile force to the strap 48 because of its connection with thecap 38 through theclamp collar 50, seating element 49 and spring 51. The tensile or pulling force imparted thereby to the strap 48 will be transmitted through the set screws 52 andcoupling 30 to thechuck 25, with the result that the chuck will be displaced toward the left and into the open position thereof shown in FIGURE 5 at which time thejaw elements 28 are permitted to assume their relaxed or open position in which they are loosely circumjacent theshank 13 of the electrode 11, thereby permitting the shank to be withdrawn from the chuck or to be inserted thereinto. Release of thecap 38 enables thespring 32 to return it to its fully seated position upon thefulcrum 37 and to displace thechuck 25 into its closed position.

The spring 51 interposed between the seating element 49 andwall 46 of the plug permits limited displacements to be effected between thechuck 25 andcap 38, which permissible displacements enable thechuck 25 to be displaced into its fully closed position within the collet 21 after thecap 38 is completely seated upon thefulcrum 37. In this respect, thespring 41 is simply compressed slightly by the larger spring force being imparted to thechuck 25 by thespring 32.

It may be observed that once thechuck 25 has moved toward the fully closed position thereof to the extent that theinclined surface 22 of the collet 21 has cammed theresilient jaw elements 28 of the chuck into firm engagement with theshank 13 of an electrode, the electrode will tend to be carried by the chuck as it continues to move into its fully closed position. In this event, theinsulator 14 may not be firmly seated against the shoulder 18. Nevertheless, a condition of substantial seating will exist because the total movement of the chuck is relatively small; and to provide an order-of-magnitude indication of the size of a typical instrument of the type being considered, the over-all length of the handle component may be about six inches, the outer diameter of the casing about three-eighths of an inch, theshank 13 of the electrode approximately 7 of an inch, and the total permissible angular displacement of thecap 38 may approximate Such angular displacement of the cap is effectively limited by the angular disposition of aninternal surface 53 provided by a skirt 54 extending axially along the casing 15 in overlying relation therewith adjacent thefulcrum 37.

The electrode 11 is necessarily connected with an electric power source, and such connection is eflected through thechuck 25,coupling 30, set screws 52, and strap or cable 48 which in turn is connected through theclamp collar 50, seating element 49, and spring 51 with theplug 41. The plug, in turn, is electrically connected with theconductor 55 of apower cable 56 through a connector or joint generally denoted as 57. The connector 57 may take various forms and, for example, may take the direct form of being established through a terminal 58 soldered or otherwise electrically connected with theconductor 55 adjacent an end thereof and inserted into thebore 45 in theplug 41 so as to frictionally engage the walls of such bore. This arrangement is depicted in FIG- URE 1, and it may be observed in this illustration that the terminal 58 and inner end of theplug 41 seat against a filler orsupport 59 confined within the end portion of theshell 40 and formed of an insulating material. Evidently, all of the elements connecting the terminal 58 with the electrode 11 must be made of electrically conductive materials; and as explained heretofore, thechuck 25 andcoupling 30 may be formed of brass and, similarly, the set screws 52 and plug 41 may be formed of brass. The strap orcable 38 may be stainless steel as may be thesprings 32 and 51, and the spring seat 49 andclamp collar 50 can be of brass. Theshell 40 is formed of an insulating material and can be made of the same material as the casing 15 which, as indicated hereinbefore, can be polysulfone.

In a typical sequence of assembly, theconductor 55 of thepower cable 56 is connected with the terminal 58; and the terminal,filler 59, and cable are positioned within theshell 40 of thecap 38, as shown in FIGURE 1. The cable or strap 48 has aclamp collar 50 crimped thereto and is then threaded through the seating element 49, spring 51, plug 41,collar 33 andcoupling 30, which at such time may be mounted upon thechuck 25 and secured thereto by the lock nut 31, and the set screws 52 are then tightened at an appropriate location along the strap 48. Theplug 41 may then be screwed into theshell 40 to a position against the shoulder 43, at which time the plug will also bear against thefiller 59, and the terminal 58 will be in frictional and electrical engagement with the circumjacent surfaces of thebore 45. The collet 21 having been inserted into the casing 15, thechuck 25 is pushed into the passage 17 in the casing and thecollar 33 is then screwed into the threaded end portion 34 of v the casing. This latter procedure may be effected by displacing thecap 38 andcollar 33 in opposite directions along the strap 48, which will compress thespring 32 and provide suflicient space between the cap and collar to permit the collar to be rotated into the casing. When thecollar 33 is properly located the cap is released, whereupon thespring 32 will displace it into firm engagement with thefulcrum 37 and will displace thechuck 25 into its closed position. The handle component 10 is then ready for use, and electrodes 11 are inserted thereinto and removed therefrom simply by deflecting thecap 38 laterally as heretofore explained.

While in the foregoing specification an embodiment of the invention has been set forth in considerable detail for purposes of making an adequate disclosure thereof, it will be apparent to those skilled in the art that numerous changes may be made in such details without departing from the spirit and principles of the invention.

What is claimed is:

1. An electro-surgical handle comprising an electrically insulating, elongated body adapted to be hand-held and being provided with a longitudinally extending passage therethrough open at one end and equipped adjacent its opposite end with a fulcrum, an electrode positioned in said passage, an electrically conductive chuck mounted within said passage and being longitudinally displaceable therealong relative to said body between a closed electrode-gripping position and an open electrode-releasing position, a chuck tightener constrained within said passage against longitudinal displacements therealong and being effective to tighten said chuck about such electrode upon displacement of the chuck into its closed position and to permit the chuck to release such electrode upon displacement of the chuck into its open position, a cap connected with said chuck and being normally seated upon said fulcrum in substantial longitudinal alignment with said body, an electric power cord extending into said cap and having a conductor electrically connected with said chuck through the interior of said body and spring structure mounted within said passage and resiliently biasing said chuck toward the closed position thereof and said cap into alignment with said body in seated engagement with said fulcrum, said cap being angularly displaceable about said fulcrum from such condition of alignment with said body to displace said chuck into the open position thereof against the biasing force of said spring.

2. The electro-surgical handle of claim 1 in which said I chuck tightener is a tapered collet coaxially circurnjacent an end portion of said chuck.

3. The electro-surgical handle of claim 1 in which said chuck and cap are spaced apart longitudinally, and further comprising a strap extending between said chuck and cap and being connected with each to define the aforesaid connection therebetween.

4. The electro-surgical handle of claim 3 in which said strap is fixedly secured to said chuck and is slidably related to said cap for movement relative thereto in longitudinal directions, and further comprising spring means interconnecting said cap and strap to afford limited relative movement therebetween in longitudinal directions so as to enable the aforesaid spring structure to displace said chuck into the closed position thereof after said cap is firmly seated upon said fulcrum.

5. The electro-surgical handle of claim 1 in which said fulcrum is perimetrically extending to enable said cap to be angularly displaced with respect thereto in any convenient direction.

6. The electro-surgical handle of claim 1 in which said chuck and cap are spaced apart longitudinally, and further comprising and electrically conductive strap extending between said chuck and cap and being connected with each to define the aforesaid connection therebetween, the conductor of said power cord being electrically connected with said strap.

7. The electro-surgical handle of claim 6 in which said cap is formed of an insulating material, and further comprising an electrically conductive coupling positioned within said cap and interconnecting the conductor of said power cord with said strap.

8. The electro-surgical handle of claim 6 in which said chuck is provided adjacent one end thereof with a plurality of jaw elements engageable with such electrode, and

8 in which said chuck tightener is a tapered collet coaxially circumjacent the jaw-equipped end of said chuck.

9. The electro-surgical handle of claim 8 in which said strap is flexible and is secured to said chuck and is slidably related to said cap for movement relative thereto in longitudinal directions, and further comprising spring means interconnecting said cap and strap to afford limited relative movement therebetween in longitudinal directions so as to enable the aforesaid spring structure to dis place said chuck into the closed position thereof in which said jaw elements tightly grip such electrode after said cap is firmly seated upon said fulcrum.

10. The electro-surgical handle of claim 9 in which said fulcrum is generally annular to enable said cap to be angularly displaced with respect thereto in any convenient direction.

11. The electro-surgical handle of claim 10 in which said cap is formed of an insulating material, and further comprising an electrically-conductive coupling positioned within said cap and through which the conductor of said power cord is connected with said strap.

References Cited UNITED STATES PATENTS 2,555,017 5/ 1951 Tuthill.

2,949,107 8/1960 Ziegler 128-21 3,089,496 5/1963 Degelm-an 128-30314 3,295,514 1/1967 Hein et a1.

RICHARD C. PINKHAM, Primary Examiner R. J. APLEY, Assistant Examiner U.S. Cl. X.R.

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