DE2404764A1 - PROBE UNIT FOR ELECTRO-MEDICAL EQUIPMENT - Google Patents

Description

"Probe unit for electro-medical facilities"

The invention relates generally to electro-medical devices and, more particularly, to a versatile probe assembly for an electro-medical device and a removable probe tip that is assigned to it.

Electro-medical equipment and instruments with which to perform medical or pharmaceutical operations can, are known. Such devices generally have a source of high frequency high voltage, its application can be controlled by hand at a cutting tip x ^ ground. Such Facilities can be used for general purposes as well as medical and dental purposes.

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Probe units previously used in conjunction with electro-medical However, facilities used have several disadvantages. The usual probe unit is for example with equipped with a handpiece, at the working end of which a chuck is arranged. The chuck is those of drills similar. The probe or working tip is inserted into the chuck. The chuck provides a secure grip on the Working peak. At the same time, there is an electrical connection between the high-frequency high-voltage source and the working tip the probe unit provided. The usual arrangement is inconvenient because the Chuck must be tightened securely. This often requires an additional tool. The chuck also forms a permanently used part of the probe unit. This limits the possible design variants at the working end Use in special medical procedures. The working peak is in the known facilities after appropriate treatment used again. The known probe unit therefore often causes time delays, which are seen from necessity of previous sterilization of the working tip after a previous operation. Another advantage of the well-known Probe assemblies is that the probe tip, once set in the chuck, is not in the chuck can turn. In order to be able to orient the working tip into a desired position, it is necessary to close the handle rotate or change. In order to change the orientation of the working tip during an operation, the chuck must first be released so that the working tip is loosened. Another disadvantage of the usual probe unit is the inconvenient arrangement of the power control switch. The usual electro-medical Facility has a console that is connected to the probe unit via a coaxial cable. The power control switch is included usually arranged on the console. Such an arrangement requires that the user return to the console must when the power is to be turned on or off. This leads to an inconvenient waste of time.

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The object of the invention is therefore to create a probe unit for an electro-medical, in particular electrosurgical Establishment that avoids the aforementioned shortcomings. The probe unit according to the invention should be simple to assemble and be economical to manufacture. In particular, the power control switch should be on the handpiece to close the power supply to the probe or the working or .operating tip to facilitate. In the probe unit according to the invention, replaceable Plastic nasal parts are used which contain electrical connectors that mate with a connector fit on the handle or hand-held part, and polygons also include a metal sleeve in which probe tips intended for single use can be used. The probe unit is also designed so that it with Plastic nose parts of various designs used which are frictionally engaged with the hand portion. The probe unit is after assembly or Can be attached to the handpiece, rotatable. The probe tip, which is intended for single use, has a respective nosepiece of the Unit frictionally engaged. The probe tip intended for single use should also be simple in construction and economical be in the making.

In order to achieve the above-mentioned object and to fulfill the mentioned properties, a probe unit contains for application a high frequency high voltage to the tissue to be treated according to the invention, an elongated tubular handpiece with a working end c A conductive connector is located at the working end and is connected to a high frequency high voltage source tied together. An elongated nosepiece has a turned end and an end turned away from it. The facing end is equipped with a section, whose shape is complementary to that of the working end and that of the aforementioned connecting element. An electric one Head extends between the facing and the remote ends. The conductor has a section at the end facing it

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which can come into engagement with the connecting element, as well as a conductive height section at the opposite end. A probe tip lies on an elongated insulating cylindrical sheath, which can be received in the sleeve section. The sheath has two opposed axial slots and one narrower one axial end. A resilient wire forms a first portion that extends beyond the narrower axial end to a to form outer work or operation tip. The resilient wire also forms a second section that extends within the Sheath is arranged. The second section is spaced apart by two are provided, opposing resilient curved portions which pass through the respective slots and can be squeezed into the sleeve. In this way, when the sleeve is inserted into the sleeve section, the curved section partially compressed, creating frictional engagement and electrical contact between the wire and the sleeve section arises.

According to a preferred embodiment of the invention, the handle connected to a source of high frequency high voltage. A switch is attached to the handpiece at the working end. The switch is operatively connected to the voltage source so that the application of the voltage to the probe tip by actuation of the switch on the handpiece is controllable. The conductive connector includes a sleeve-shaped connector. Of the Head section at the facing end contains a mating coupling piece which engages with the sleeve connector can.

The nose part is advantageously made of plastic. At the end facing it, it is cylindrical on the outside. The averted The end of the nosepiece can either be conical or bevelled in opposite directions. However, the distal end tapers in each Fall viewed from the facing end. The sleeve section is embedded in the opposite end of the plastic nosepiece

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and runs in this. A pretensioning device is advantageously located between the working end and the nosepiece to create frictional tension between them.

The invention also relates to. a new, single-use probe tip that fits into a conductive sleeve of the Probe unit can be used, which in conjunction with an electro-medical or surgical facility is used. According to the preferred embodiment, the resilient wire is a continuous section, which is taken essentially twice, with the two wire ends forming part of the second wire section form, are arranged in the shell. The first section is essentially in the shape of a diamond-shaped loop. The wire is formed in such a way that the loop forms a first plane. The second wire section attaches a second Fixed plane that is substantially perpendicular to the first plane.

Other features, advantages and other uses of the The invention emerges from the following description of exemplary embodiments with reference to the accompanying drawings.

Show it:

Figure 1 shows a longitudinal section of the probe unit according to the invention,

Figure 2 is an exploded enlarged view of the working end of the probe assembly of Figure 1 showing the nosepiece and shows a probe tip but oriented separately from the handpiece are shown aligned for engagement and interconnection,

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FIG. 3 shows a view similar to that of FIG. 2, but with a differently designed nose piece which is connected to the handpiece and with the probe tip inserted into the nosepiece.

FIG. 4 is an enlarged plan view of a probe tip according to FIG Invention,

Figure 5 is a longitudinal section along the line 5-5 of Figure 4, Figure 6 is a cross section along the line 6-6 of Figure ¹ I.

The probe unit 10 according to FIG. 1 contains a plastic tube housing 12 with a working end 13. On the other side of the working end a transparent tubular wall or Lins.e Ik is provided which is connected to the tubular housing 12 and with this a hand-held section or forms a handle of the probe.

At the working end 13 of the tubular housing 12 is a connecting element in the form of a sleeve-shaped connector 20 is provided. A pin 22 secures the connecting piece 20 with it the working end of the tubular housing 12.

A nosepiece 24 made of malleable plastic contains a facing cylindrical portion 26 which is internally dimensioned in a complementary manner to the shapes of the working end 13 and the connecting element 20 so that it receives these internally. A spring 28 is preferably located between the working end 13 and the cylindrical section 26 in order to increase the degree of frictional engagement to the friction fit. to secure between the nosepiece 2 ¹ J and the working end 13.

An electrical conductor with a protruding connecting pin is provided at the facing end of the nosepiece 2k and can

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come into engagement with the sleeve-shaped connecting piece 20.

A conductive sleeve 32 is in electrical communication with the connector 30 _s forms part of the electrical conductor and extends through the opposite end of the nosepiece 2 * 1. The opening leads out of the hare piece, so that the interior of the conductive sleeve 32 is accessible from the outside.

According to the invention, a probe tip 33 has an essentially cylindrical casing. 34 ₉ whose outer dimensions come close to the inner dimensions of the conductive sleeve 32 so that the sleeve can be received in the sleeve. In the cylindrical wall of the shell 34, two axial slots 35 arranged opposite one another are provided. A conductive resilient wire 37 is provided inside the sheath 3 ¹ I, with curved sections 36 of this wire extending through the axial slots 35. Another portion of the resilient member passes through an open axial end of the sleeve 34 to form a substantially closed loop 38 in the form of a cutting tip.

The details of the working end 13 of the probe unit 10 including the connecting element 22, the nosepiece 24 and the probe tip. 33 are described in more detail in connection with FIGS. 2-6.

Located at the opposite axial end to the working end 13 is an opening in the lens 14 through polygamy a coaxial cable 40 enters the interior of the probe unit 10. To relieve some of the tension on the coaxial cable 40 is a Shrink tube 42 is advantageously provided which encloses and supports the coaxial cable. The coaxial cable is advantageous equipped with conductors which lead the high frequency and high level voltages to the probe unit 10. The electric The arrangement for this is of the usual type.

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High-voltage conductor 40a of the coaxial cable 40 is direct connected to the connecting element 20. A part 4ob of the cable carrying the high voltage is also provided with a line connected to a neon lamp 44, while the other (not shown) Line of the neon lamp is capacitively coupled to the grounded shield 40c on the coaxial cable 40. Such a one capacitive coupling limits the maximum current that flows through the neon lamp 44. The lamp glows and gives a Display of when the voltage on the cutting tip 38 is the The breakdown voltage of the lamp exceeds 44 and the high-frequency high voltage is applied to the cutting tip 38 »

The particular arrangement of the high frequency high voltage cables and their connections within the probe unit 10 can be more conventional Kind and does not have to correspond to the embodiment shown in the figures.

The probe unit 10 is equipped with an electro-medical or -surgical device, which generates the high-frequency high voltage. The probe assembly is over with the console the coaxial cable 40 connected. One of the new features of the present The invention consists in the provision of a microswitch 36 at the working end 30 of the tubular housing 12. This facilitates the control of the current connection to the cutting tip 38 in a very convenient manner. By arranging the microscope holder 46 At the working end 13, the switch is approximately in the range of the user's thumb when the probe is in normal or "usual" mode Way is kept. As a result, the user can easily and quickly turn the power on and off just by turning the Micro holder 46 depresses or releases.

A support block includes parts 48a and 48b and is provided inside the probe unit 10. The support block has a suitable one Opening or a corresponding slot for inserting the microswitch 46. However, it can be any other facility

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can be used to hold the microscope holder 46.

In Figure 2, the working end of the probe unit 10 is exploded View showing the various components for mutual connection. are already aligned.

The working end of the tubular housing 12 is cylindrical Wall 49 provided., Which have a somewhat reduced outer Diameter in relation to the diameter of the tubular housing 12.

The connecting element lies within the cylindrical wall 49 20, which is conductive and preferably made of metal, for example Copper is made over the main part of the fastener A cylindrical projection 5o extends beyond it. An axial bore 52 runs through substantially the entire connector 20. The diameter of the axial bore 52 is substantially equal to the outer diameter of the connecting pin 30 so that engaging these two elements results in good electrical contact.

It is of course possible to provide an axial bore, corresponding to the bore 52, in the nose piece 5 ² I, while a pin corresponding to the pin 30 is connected to the connecting element 20. In this case, the positive and negative links are simply exchanged.

The nosepiece 5 ¹ J has a facing end which has a substantially cylindrical exterior 60 which is hollow to form a cylindrical recess or cavity 61. The inner diameter of the recess 61 is essentially equal to the outer diameter of the cylindrical wall 49 'so that a snug fit is created when the two are pushed onto one another. However, it is also possible to provide a certain amount of play between the cylindrical wall 49 and the cylindrically recessed section 61, as shown in FIG. With such a

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Arrangement, at least one spring 28 is advantageously provided on the outer peripheral surface of the cylindrical wall 49, which is compressed into a pretensioned state _} when the nosepiece is pushed onto the tubular housing 12. The purpose of this spring 28 is to increase the frictional engagement between the nosepiece and the handle. This is to prevent the nosepiece from undesirably separating from the handle under normal conditions of use.

The nose piece 24 has an opposite end 62, which in his outer shape is generally conical, tapering away from the cylindrical facing end 60. Axially through the opposite end 62 extends a conductive sleeve 32, which in the nosepiece 24 is embedded and electrically connected to the connecting pin 30. The axial bore 52, the pin 30 and the Sleeves 32 are generally coaxial and aligned with respect to the axis of symmetry of tubular housing 12.

Although the elements described above are shown as cylindrical, it should be pointed out that this is not absolutely necessary is to form a working probe unit. The cylindrical wall 49 and the cylindrical recessed portion 6l may for example have a square or rectangular cross-section instead of a circular cross-section.

Referring to Figure 2, a probe tip 33 essentially includes one. cylindrical hollow shell 34. The sleeve 32 has a length such that which is sufficient to cover most of the axial length of the sheath 34, as shown in Figure 1 to include.

The sleeve 34 has an outwardly flared resilient end 64 whose outer dimensions are slightly _larger: 32. However, as the inner dimensions of the sleeve due to the resilient nature of the end 64, this can be pressed into the sleeve 32 while it rests resiliently, so that the frictional engagement between the two elements increases and an undesirable outward movement of the probe tip

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33 is prevented under normal conditions of use. At the axial end away from the flared end 64 is a narrowed one End 66, as best seen in Figure 5, intended. . · ·

In FIG. 3, a modified nose piece 24 'is provided, which has a different shape than that shown in FIG. In all other respects, however, the nosepiece 24 ^f is similar to the nosepiece 24. In Figure 3 are nose pieces 24 ^! and probe tip 33 connected to each other as in normal use. The cylindrical wall 49 is thus enclosed by the cylindrical facing end 60 with a compressed spring 28 which is arranged between them. The protruding connector pin 30 engages the axial bore 53 on the connector 20 to provide good electrical contact between the two connectors.

The opposite end 70 of the modified nosepiece 24 'has a generally angled shape with a substantially straight facing portion 72 at an angle with respect to an im substantially straight facing away from section 74 is arranged. A sleeve portion 76 is disposed on the facing portion while a sleeve portion 78 is provided in the opposite portion 74 is. The sleeve sections 76, 78 are in electrical communication together. Since the sleeve portion 76 in. Electrical Contact with the pin 30 of the connecting element is an electrically continuous connection between the connecting piece 20 and the sleeve portion 78 via the connector 30 and the Sleeve section 76 created. With this modified arrangement the probe tip 33 in the sleeve section 76 is similar Received in a manner like the probe tip in the conductive sleeve 32 according to Figure 1. The cutting tip 38 is in electrical contact with the respective sleeves via a press-fit contact between the curved sections 36 and the sleeves, as can be seen from the description of Figures 4-6.

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The new probe tip 33 according to the invention, which in a simple manner Can be used with the probe assembly previously described has a sheath 34 which is substantially cylindrical. A End of her, namely. That. Late 64, however, is widened and due formed resiliently by axial slots 80, therefore da.s widened resilient end 64 can be compressed when it comes out a suitable deformable material is formed.

Approximately in the middle between the two ends 64 and 66 of the sheath 34, two opposing axial slots 35 are provided in the wall of the sheath. The end 66, which lies on the opposite side of the widened end 64, is squeezed together or has a narrower cross section.

A single wire section 37 is provided, both ends 82 of which are arranged in the sheath 34. The wire 37 is doubled, whereby the two ends 82 lie in the sheath 3 ^, while part of the wire protrudes through the narrow end 66 to form a substantially closed diamond-shaped loop 38 which is the cutting tip. The parts of the wire 37 which ^{lie in the sheath 3 1} * are provided with two spaced apart sections 36 which each point in opposite directions and which extend through respective slots 35.

The two curved sections 36 together form a plane. The wire sections which form the transitions between the curved sections 36 and the cutting tip loop 38 gradually diverge from the plane of the curved sections 36 into a further plane which is formed by the loop 38. The plane in which the loop lies is essentially perpendicular to the plane of the curved sections 36. The transition is on the side of the narrower end 66 facing the curved section 36, as can best be seen from FIG. closed.

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The twisted configuration of the wire 37 along with the narrowed end 66 prevents the wire from exiting the sheath 34 even when the curved portions 36 are compressed. This is due to the fact that the gradually diverging transition sections of the wire 37 form spaces which are greater than the height of the narrower section 66, even when the curved sections 36 are compressed.

When the probe tip 33 is in the sleeve 32 or the sleeve section 78 are inserted, then the curved sections 36 as well the expanded resilient end 64 compressed inwardly or radially. They are adapted to the inner diameter of the sleeve. Since both the sheath 34 and the wire 37 made of resilient Material are made, practice both the flared end 64 and the curved portions 36 resiliently outwardly Forces against the inner surface of the sleeve. Both the expanded resilient end "64" and the curved section 36, the resilient tension forces exceed the frictional engagement between the probe tip 33 and the nosepiece 24 or 24 '. With the curved ones In this way, sections 36 simultaneously create electrical contact between the wire 37 and the conductive sleeves. In this way, the high-frequency high voltage at the connecting element 20 is transmitted to the cutting tip 38.

From the properties of the eirfindungsgemeinschaft described above Probe unit results in the advantages over the known. The provision of a microscope holder 46 at the working end 13 facilitates the control of the current to the cutting tip 38 · the tip of the nose 24,24 'can be easily accessed from the' tubular housing 12 can be removed. This enables the interchangeability and selection of differently designed nose pieces a nosepiece that is best suited for the particular application.

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Another advantage of the invention results from the arrangement a conductive sleeve in the nosepiece, which sleeve can receive a single use probe tip 33. From the previous description and from Figures 4-6 it follows that that the probe tips 33 simple and. are economically producible. Because of this, they can be produced cost-effectively enough ' so that they can be thrown away after a single use. This avoids the treatment of the tips after one prior use. Of course, this also excludes the possibility that an improperly disinfected cutting tip could cause infections can cause in later use. According to the invention, each probe tip can be packaged individually and sterilized. Each tip is only used once for one medical operation.

The embodiment of the invention also enables relative rotation of the nosepiece 24 or ^24f in relation to the tubular housing 12. If an angled nosepiece 24 is used, this facilitates the orientation of a probe tip in a simple and effective manner even during the surgical procedure. Since the pin 30 remains in engagement with the connecting element 20 during such a relative rotation, the electrical contact is continuously ensured, even if a relative rotation of the nosepiece is carried out when voltage is applied.

The probe tip 33 can also be relative to the nosepiece in which it is arranged to be rotated. No locking elements are provided to prevent this rotation. It is therefore possible, for example the plane that is taken from the cutting tip odex * loop 38 is formed into a desired plane by simply Grasp the cutting tip or sheath 34 and rotate relatively to orientate towards the nosepiece. Only a sufficiently large force must be exerted to the frictional engagement between the sleeve and the resilient end 64 and between the sleeve and the curved portions 36 to overcome.

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The probe unit according to the invention therefore enables convenient exchangeability as well as adaptability or orientation of the working elements of the probe unit in an economical manner. Such versatility is not previously known in conventional probe units. ' - ■

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Claims (15)

Claims Probe unit for 'electro-medical devices for applying high-frequency high voltages to the tissue to be treated, characterized by an elongated tubular handle with a working end, a conductive connecting element at the working end, which can be connected to a source of high-frequency high voltage, an elongated nose piece with a facing End and a facing end, the facing end having a portion which is formed substantially complementary to the working end of the inventive element, an electricity conducting device which has a part at the facing end which is brought into engagement with the connecting element four de η may, and has a conductive sleeve portion at the distal end, and a probe tip with an elongated insulating cylindrical sleeve receivable in the sleeve portion, the sleeve having two opposed axial slots and a narrowed axial end and a resilient wire defining a first section extending beyond the narrowed axial end ₅ to form an outer working tip and a second section lying within the sheath, the second section having two spaced apart opposing resilient curved portions extending through the respective slots and compressible into the sheath, whereby insertion of the sheath into the sleeve portion partially compresses the curved portions, whereby a frictional engagement and electrical contact between the wire and the sleeve portion is created . 2. Probe unit according to claim 1, characterized in that that the handle is connected to a source of high frequency high voltage and that a switch on the Handle is arranged at the working end, the switch 409838/0258 240476 '* is operatively connected to the voltage source, whereby the application of a voltage to the probe tip by actuating the Switch is controllable. 3. Probe unit according to claim 1 or 2, characterized in that that the conductive connecting element has a sleeve-shaped connecting part and the conductor element on the facing end has a protruding connecting part with the sleeve-shaped .Verbverbindteil fits together and can come into engagement. l \. Probe unit according to one of Claims 1 to 3, characterized in that the working end and the connecting element together form a cylindrical end section and that the facing end of the nose piece is provided with a cylindrical recessed section which mates with the cylindrical end section. 5. Probe unit according to claim 4, characterized in that by a clamping device between the cylindrical and recessed parts to create frictional tension between these parts. 6. Probe unit according to one of claims 1-5> thereby geke η η shows that the facing end of the nosepiece cylindrical on the outside and the opposite end conical on the outside converging away from the facing end. 7. Probe unit according to one of claims 1-6, characterized in that characterized in that the nosepiece consists of a deformable Material is formed and the sleeve section is embedded in the opposite end of the nose piece and extends through this extends: • 409838/0258 8. Probe unit according to one of claims 1-7, characterized characterized in that the facing end of the nose piece is cylindrical on the outside and the end facing away is angled and tapers away from the facing end. 9. Probe unit according to one of claims 1-8, characterized characterized in that the wire is a continuous doubled section, both ends of which are part of the second section form, which is arranged in the sheath, and that the first portion is in the form of a loop. 10. Probe unit according to claim 9, characterized in that that the loop has a diamond shape. 11. Probe unit according to claim 9 or 10, characterized characterized in that the loop has a first level and the second wire section forms a second plane which is in essential to the first level. 12. Probe tip for use with a probe assembly after a of claims 1-11, marked z. calibrated by a elongated insulating cylindrical sheath contained in the sleeve section is receivable, the shell having two opposed axial slots and a narrowed axial end, and a resilient one Wire forming a first portion that extends beyond the narrowed axial end, around an outer working tip and a second section lying within the shell, the second section having two spaced apart opposite resilient curved portions which protrude through the respective slots and can be pressed into the sheath, thereby inserting the sheath in the sleeve portion compresses the curved portions, creating a frictional engagement and electrical contact between the Wire and the sleeve section is created. 409838/0258 13. Probe unit according to one of claims 1-1I _5, characterized in that the wire is a continuous, substantially doubled section, the two wire ends forming part of the second section which lies in the sheath, and the first section has the shape of a Loop has. lh. Probe unit according to claim 13, characterized in that the loop has a diamond shape. 15. Probe unit according to claim 13 or 1 * 1, characterized characterized in that the loop has a first level and the second wire section forms a second plane which is in is substantially perpendicular to the first plane. 409838/0258