1. Field of the Invention
The present invention relates to a forceps cover sheath, attached to a forceps, for example, for surgical use, a surgical forceps and a surgical forceps system.
2. Description of the Related Art
Various kinds of forcipes are used, for example, in surgical operations under endoscopes. A surgical forceps generally includes an elongated insertion section (shaft) and an operating section provided at a proximal end portion of the insertion section. A treatment portion having a link mechanism is provided at a distal end portion of the insertion section. The forceps is operated in conjunction with the link mechanism when the link mechanism is moved by operation of the operating section.
Such a surgical forceps is, during its use, inserted into a treatment target (body). Various stains such as blood and body fluids from the treatment target remain on the treatment portion (link mechanism) of the insertion section after the forceps is used. Thus, the surgical forceps is, after surgery (use), sterilized through processes such as cleaning, disinfection and sterilization for reuse in a subsequent operation.
For example, Jpn. Pat. Appln. KOKAI Publication No. 10-71155 discloses a technique which separates the surgical forceps into a plurality of assemblies to enable easier cleaning of the link mechanism. The surgical forceps is separated into a sheath assembly, a treatment portion drive assembly part of which is inserted in the sheath assembly, and an operating assembly to operate the treatment portion drive assembly. The treatment portion drive assembly is inserted in the sheath assembly, and provided with the link mechanism between an operating shaft coupled to an operating section assembly and the treatment portion. The link mechanism is covered with the sheath assembly during use. As the link mechanism is exposed when the forceps is disassembled, it is easy to clean and remove stains.
According to one aspect of the present invention, there is provided a forceps cover sheath including: detachably from a forceps, a cover sheath main body covering at least a link mechanism out of the forceps which has the link mechanism at a distal end portion of an elongated shaft and which has, at a distal end portion of the link mechanism, a treatment portion operated by operation of the link mechanism.
Advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objects and advantages of the invention may be realized and obtained by means of the instrumentalities and combinations particularly pointed out hereinafter.
The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention, and together with the general description given above and the detailed description of the embodiments given below, serve to explain the principles of the invention.
Embodiments of the present invention will hereinafter be described in reference to the drawings. A first embodiment will be described referring to
The operating section 3 includes a fixed handle 6, and a movable handle 7 which can move relatively with the fixed handle 6. The movable handle 7 is pivotally coupled to the fixed handle 6 by a rotation shaft 8 for the movable handle 7 to pivot with respect to the fixed handle 6.
A treatment portion 10 having a link mechanism (open-close drive mechanism) 9 shown in
The forceps 1 includes a sheath assembly 14 shown in
The sheath assembly 14 shown in
As shown in
As shown in
As shown in
A connection portion 34 to be connected to the movable handle 7 of the operating section 3 is provided at a rear end of the operating shaft 12 of the treatment portion drive assembly 15. The connection portion 34 includes a coupling ball 35 which can be attached to or detached from the operating shaft coupling portion 19 of the movable handle 7. The coupling ball 35 can be engaged or disengaged with a lock groove (not shown) provided in the operating shaft coupling portion 19 of the movable handle 7 shown in
The forceps 1 according to the embodiment is used in a state in which the sheath assembly 14, the treatment portion drive assembly 15 and the operating section assembly 16 are combined. When such a forceps 1 is assembled and used, a forceps cover sheath 45 (see
As shown in
As shown in
An entire length L of the forceps cover sheath 45 shown in
The tip attachment portion 47 of the forceps cover sheath 45 is formed slightly smaller than a shape corresponding to the treatment portion 10 of the forceps 1. In the embodiment, since the treatment portion 10 includes the pair of jaws 30 that can relatively open and close, the tip attachment portion 47 of the forceps cover sheath 45 includes a jaw corresponding portion 50 which is formed to branch into two to correspond to the jaws 30 of the forceps 1.
Wall thickness of the tip attachment portion 47 of the forceps cover sheath 45 is thinly formed. Concavities and convexities corresponding to the teeth 30a, 30b are formed in the jaw corresponding portion 50 in accordance with the teeth 30a, 30b shown in
An anti-slip-treated portion (surface treated portion) 51 is formed on opposite surfaces of the jaw corresponding portions 50, as shown in
A multiplier effect of the concavities and convexities which are produced by deformation of the jaw corresponding portions 50 corresponding to the teeth 30a, 30b, and the anti-slip-treated portion 51 prevents the treatment target from slipping on the anti-slip-treated portion 51. For example, the forceps cover sheath 45 is prevented from slipping on the treatment target when the anti-slip-treated portion 51 of the tip attachment portion 47 of the forceps cover sheath 45 contacts the treatment target or, for example, grips the treatment target.
As wall thickness of the tube member 46 and the tip attachment portion 47 of the forceps cover sheath 45 are thinly formed and have flexibility and elasticity, they deform in accordance with the shape of the treatment portion 10 of the forceps 1. Therefore, even in case of the deformation of the jaws 30 shown in
The grab 48 provided at the proximal end portion of the tube member 46 is ring-shaped. The inside diameter of the grab 48 is the same as the inside diameter D of the proximal end of the tube member 46. The grab 48 is thickly formed outwardly in the diametrical direction, and formed to be slightly more rigid than the tube member 46 for a user to easily hold the grab 48.
Next, function of the forceps 1 having the forceps cover sheath 45 will be described.
A method of attaching the forceps cover sheath 45 to the forceps 1 will be described.
As shown in
When the jaws 30 of the treatment portion 10 are disposed in the inner space of the tip attachment portion 47 of the treatment portion cover sheath 45, the operating section 3 (the handles 6, 7) is operated to open the jaws 30. Each of the jaws 30 is inserted into the forked jaw corresponding portion 50 of the tip attachment portion 47 of the cover sheath 45. At this time, the tube member 46 and the tip attachment portion 47 have the elasticity to extend and retract and the flexibility to be bent in accordance with the opening and closing of the jaws 30. Thus they maintain a state contacting the outer periphery of the treatment portion 10 of the forceps 1.
When the jaws 30 of the treatment portion 10 of the forceps 1 are disposed in the inner space of the tip attachment portion 47 of the cover sheath 45, the user stops further insertion of the forceps 1 into the cover sheath 45. The grab 48 of the cover sheath 45 is frictionally engaged with the outer periphery of the sheath 11 of the insertion section 2 of the forceps 1. At this time, since the original inside diameter D of the tube member 46 of the cover sheath 45 is smaller than the outside diameter of the insertion section 2 (sheath 11) of the forceps 1, the tube member 46 of the cover sheath 45 closely contacts the outside of the treatment portion 10 and the sheath 11 of the forceps 1 (see
In the forceps 1 to which such a forceps cover sheath 45 is attached, operation of the operating section 3 also causes the jaws 30 of the treatment portion 10 to open and close without giving much resistance to the operation owing to the elasticity and flexibility of the cover sheath 45, thus treating the treatment target. In other words, the jaws 30 can be opened and closed with little force as the jaw corresponding portion 50 of the cover sheath 45 is formed to branch into two and has the flexibility to open and close pivotally on a proximal portion of the jaw corresponding portion 50. The tooth-shaped portion 51a formed in the jaw corresponding portion 50 of the tip attachment portion 47 of the cover sheath 45 prevents slipping when gripping the treatment target.
Next, a method of detaching the forceps cover sheath 45 from the forceps 1 will be described.
When the cover sheath 45 is detached from the forceps 1, for example, a syringe (not shown) is attached to the cleaning port 23. Water and air are conveyed from the syringe into the sheath 11 to inject a gas and a liquid between the forceps 1 and the cover sheath 45. The gas and liquid spout from a distal end opening of the sheath 11 of the sheath assembly 14. A space is formed by the gas and liquid between the cover sheath 45, and the treatment portion 10 and the insertion section 2 of the forceps 1. This reduces a frictional force between the tube member 46 of the cover sheath 45, and the treatment portion 10 and the sheath 11 of the forceps 1. This releases the tube member 46 of the cover sheath 45, and the treatment portion 10 and the sheath 11 of the forceps 1 from the close contact state to allow easy detachment. The detached cover sheath 45 is discarded.
The forceps 1 from which the forceps cover sheath 45 is detached has not itself directly touched the treatment target at a part fitted with the cover sheath 45. Thus, the part fitted with the cover sheath 45 is not stained due to the treatment target. In other words, a distal end portion side of the forceps 1, in particular, of the treatment portion 10 and the sheath 11 is the region which is fitted with the cover sheath 45 so that it is not easily stained. Therefore, that extremely reduces to spend time for cleaning process for the forceps 1. As the link mechanism 9 can especially be prevented from being stained, labor and time to elaborately clean particularly the link mechanism 9 can be reduced.
As described above, the following effects can be obtained according to the embodiment.
In case that the forceps cover sheath 45 covers at least the treatment portion 10 of the forceps 1, blood and body fluids of the treatment target can be prevented from sticking to the link mechanism 9 of the treatment portion 10 when the forceps 1 is used. In other words, by using the forceps 1 in such a manner that the cover sheath 45 is attached to the treatment portion 10 and a distal end portion side of the sheath 11 of the forceps 1, the treatment portion 10 and the link mechanism 9 can be prevented from being stained with, for example, the blood and body fluids from the treatment target. Thereby, it is possible to significantly reduce the labor and time to perform the cleaning process for treatment portion 10 and the inside (link mechanism 9) of the sheath 11 the forceps 1.
The forceps cover sheath 45 changes its shape in accordance with the end shape of the treatment portion 10 of the forceps 1. Thus, the cover sheath 45 can be used for forcipes having various shapes of the treatment portion 10. In case that the shape of the distal end portion of the cover sheath 45 is properly selected to operate the operating section 3 of the forceps 1, the treatment portion 10 can be easily operated to perform a treatment.
The tip attachment portion 47 of the forceps cover sheath 45 may be formed slightly larger than the shape that corresponds to the treatment portion 10 of the forceps 1. When the tip attachment portion 47 of the cover sheath 45 is formed slightly smaller than the shape that corresponds to the treatment portion 10 of the forceps 1, it fits more tightly and can be prevented from being displaced from the jaws 30 of the forceps 1.
When the forceps cover sheath 45 is detached from the forceps 1, the cover sheath 45 may be turned over and rolled up from the grab 48 toward the tip attachment portion 47 without conveying air and water from the cleaning port 23. Further, as shown in
In the configuration of the embodiment described above, the grab 48 is provided at the proximal end portion of the forceps cover sheath 45. As the forceps cover sheath 45 closely contacts of the treatment portion 10 and the sheath 11 of the forceps 1 to be in a frictional engagement, the grab 48 may be omitted and the proximal end portion of the tube member 46 of the forceps cover sheath 45 may be wound with, for example, a surgical tape (not shown) to attach and fix the cover sheath 45 to the sheath 11.
When the entire length L of the forceps cover sheath 45 is long enough to protect the link mechanism 9 of the forceps 1 and the proximal end portion of the forceps cover sheath 45 has a length to be located in a body cavity, the grab 48 does not need to be provided.
A modification of the forceps cover sheath 45 described above will be described by use of
It has been described that the jaw corresponding portion 50 of the tip attachment portion 47 of the cover sheath 45 described above is closed. Here, as shown in
As shown in
As shown in
Thus, the teeth 30a, 30b of the jaws 30 are exposed outside even when the jaw corresponding portion 50 includes the openings 52a, 52b, so that gripping performance inherent in the forceps 1 can be maintained and the gripping performance can be prevented from being impaired. The openings 52a, 52b closely contact the jaws 30, so that the link mechanism 9 can prevent from being stained.
Next, a second embodiment will be described referring to
The sheath assembly 14 shown in
The treatment portion component 57 is preferably formed of a conductive member. The tube member 56 has the elasticity to enable extension and retraction in its diametrical direction, and is formed of, for example, polyurethane as flexible thin resin materials. As the tube member 56 itself has the elasticity to extend and retract in the diametrical direction, the inside diameter D of the tube member 56 can be changed with the outside diameter of the sheath 11 of the sheath assembly 14.
As shown in
As shown in
On the other hand, as shown in
Thus, the fitting convexity 62 has conductivity due to the conductive terminal 63. The resin portion 64 is tapered, and engaged and fixed by frictional engagement when fitted into the fitting concavity 58. The frictional force between the fitting concavity 58 and the fitting convexity 62 can be kept high by the resin portion 64, thereby maintaining a favorable fitting state (fixing force).
After the fitting convexity 62 is repeatedly fitted into the fitting concavity 58 of the treatment portion component 57 having the distal end portion of a desired shape, the resin portion 64 of the fitting convexity 62 is abraded away. This gradually decreases the frictional force (fixing force) between the fitting concavity 58 and the fitting convexity 62, so that it is possible to easily know when to replace the resin portion 64 of the link mechanism 9 of the forceps 1. It is thus possible to easily determine the commutative moment i.e. duration of life of the forceps 1 itself on the basis of an amount of the abraded resin portion 64 of the fitting convexity 62.
The operating section assembly 16 shown in
The fixed handle 6 and the movable handle 7 of the operating section assembly 16 are made of electrical insulating materials such as plastic materials. In an alternative configuration, the surface of the conductive materials such as a metal of the fixed handle 6 and the movable handle 7 may be covered with electrical insulating materials.
A high frequency code (HF code) connection pin 67 is insert-molded in the sheath coupling member 18 of the fixed handle 6 of the forceps 1 according to the embodiment. The HF code connection pin 67 is formed of conductive materials. An inner end portion of the HF code connection pin 67 is connected to the handle coupling portion 21 of the sheath assembly 14. An unshown HF code is connected to an outer end portion of the HF code connection pin 67. A power supply device (an energy supplying device) (not shown) to supply a high frequency current to the HF code is connected to the HF code.
To the sheath 11 of the sheath assembly 14, an outer pipe 69 which is formed of heat-resistant insulating materials such as plastic materials is attached on an outer peripheral surface of an inner pipe 68 made of conductive materials such as a metal. The handle coupling portion 21 of the sheath assembly 14 is formed of conductive materials such as a metal, and is connected to the inner pipe 68 of the sheath 11. The operating shaft 12 of the treatment portion drive assembly 15 is electrically connected to the inner pipe 68. The operating shaft 12 is electrically connected to the link mechanism 9 described above.
Next, function of such a forceps 1 will be described. A method of attaching the forceps cover sheath 55 to the forceps 1 will be described.
The link mechanism 9 of the forceps 1 is inserted from the proximal end to distal end of the tube member 56 of the forceps cover sheath 55. The fitting convexity 62 at the distal end of the link mechanism 9 is located at a position opposite to the fitting concavity 58 of the jaws 60 of the forceps cover sheath 55. The fitting convexities 62 are inserted into the fitting concavities 58. The respective tapered surfaces of the fitting concavity 58 and the fitting convexity 62 are frictionally engaged and fixed to each other. The conductive terminal 63 of the fitting convexity 62 is electrically connected to the fitting concavity 58. In other words, the link mechanism 9 of the forceps 1 and the treatment portion component 57 of the forceps cover sheath 55 are electrically connected to each other and held so that the treatment portion component 57 can move in conjunction with the link mechanism 9 (see
In this way, the jaws 60 of the treatment portion component 57 in the embodiment operate in the same manner as the pair of jaws 30 of the treatment portion 10 described in the first embodiment. Thus, in case that the operating section 3 is operated, the treatment portion component 57 of the forceps cover sheath 55 operates in conjunction with the link mechanism 9.
When the link mechanism 9 of the forceps 1 is attached to the treatment portion component 57 of the forceps cover sheath 55, the user stops further insertion of the forceps 1 into the forceps cover sheath 55. The grab 48 of the forceps cover sheath 55 is frictionally engaged with the outer periphery of the sheath 11 of the insertion section 2 of the forceps 1. At this time, since the original inside diameter D of the tube member 56 of the forceps cover sheath 55 is smaller than the outside diameter of the insertion section 2 (sheath 11) of the forceps 1, the tube member 56 of the forceps cover sheath 55 closely contacts the outside of the treatment portion 10 and the sheath 11 of the forceps 1.
When a high frequency current is passed from the above-described power supply device to the HF code connection pin 67 by the HF code, the high frequency current is transmitted from the operating shaft 12 and the link mechanism 9 of the forceps 1 to the treatment portion component 57 of the forceps cover sheath 55. Therefore, the treatment target is subjected to a desired high frequency treatment at the jaws 60 of the treatment portion component 57. The tube member 56 is prevented from being damaged by heat generated by the high frequency current as the tube member 56 is disposed on the outer periphery of the insulating member 59.
Next, a method of detaching the forceps cover sheath 55 from the forceps 1 will be described.
When the forceps cover sheath 55 is detached from the forceps 1, for example, the syringe (not shown) is attached to the cleaning port 23. Water and air are conveyed from the syringe into the sheath 11 to inject a gas and a liquid between the forceps 1 and the forceps cover sheath 55.
The gas and liquid spout from the end opening of the sheath 11 of the sheath assembly 14, and a space is formed by the gas and liquid between the forceps cover sheath 55 and the insertion section 2 (sheath 11) of the forceps 1. This reduces a frictional force between the tube member 56 of the forceps cover sheath 55 and the insertion section 2 (sheath 11) of the forceps 1. This releases the tube member 56 of the forceps cover sheath 55 and the insertion section 2 of the forceps 1 from the close contact state.
The fitting of the fitting concavity 58 of the treatment portion component 57 and the fitting convexity 62 at the end of the link mechanism 9 is canceled. The forceps cover sheath 55 is easily detached from the forceps 1.
Subsequently, the used forceps cover sheath 55 is discarded.
As described above, the following effects can be obtained according to the embodiment.
Because the treatment portion component 57 is detachable from the forceps 1, the treatment portion component 57 can be properly selected in accordance with the procedure applied to the treatment target. Therefore, various kinds of treatment portion components 57 can be used which, for example, have not only the jaws 60 shown in
By forming the treatment portion component 57 with conductive materials and leading high frequency energy from the side of the operating section 3, a high frequency treatment can be performed using the treatment portion component 57 as an electric scalpel.
In case that the resin portion 64 covering the conductive terminal 63 of the fitting convexity 62 is frictionally fitted into the fitting concavity 58, it is possible to easily ascertain how the resin portion 64 is fitted into the fitting concavity 58. In other words, it is possible to recognize how much the forceps 1 has been used from frictional reduction of the resin portion 64 of the fitting convexity 62.
In the configuration of the embodiment described above, the fitting convexity 62 is provided at the distal end portion of the link mechanism 9 and the fitting concavity 58 is provided at the proximal end portion of the treatment portion component 57, but it is also preferable that the fitting convexity 62 and the fitting concavity 58 may be provided in the other way around.
It has mainly described in the embodiment that the conductive member is used to pass the high frequency current through the treatment portion component 57, but naturally, nonconductive materials may also be used.
In performing an operation, for example, an attachment aid 70 shown in
In a state where the forceps cover sheath 55 is attached to the attachment aid 70 by use of the grab 48, the forceps 1 is inserted from the notch 73. The attachment aid 70 secures a space on a rear end side of the forceps cover sheath 55 so that the treatment portion 10 of the forceps 1 can be easily inserted into the inner space of the tube member 46.
When the forceps cover sheath 55 is to be detached from the attachment aid 70, the forceps cover sheath 55 can be detached from the attachment aid 70 with a slight force. Thus, the forceps cover sheath 55 is attached to the forceps 1 and detached from the attachment aid 70 when the forceps 1 is used.
As shown in
As shown in
When the forceps 1 is used in an operation, it is necessary to attach the forceps cover sheath 55 to the forceps 1 to be used. In the attachment aid 70 shown in
Next, a third embodiment will be described referring to
A water conveyance system 80 shown in
The pressure section 84 includes a balloon 85 which is held by an operator to bring pressure through a tube 84a, and a pressure gauge 86 which measures the pressure in the tube 84a. That is, the pressure gauge 86 can be used to know the pressure applied to the physiological saline package 81. The infusion tube section 83 includes a liquid volume observation port 87 connected to the physiological saline package 81 through a tube 83a, and a liquid volume adjustment portion 88 which adjusts flow volume of physiological saline flowing in the tube 83a. An end of the tube 83a is connected to the port 23 of the forceps 1. The physiological saline can thus be supplied from the physiological saline package 81 to the cleaning port 23 of the forceps 1 through the infusion tube section 83.
The package storing portion 82 includes, inside a holding portion 89 which is, for example, meshed, a balloon 90 which is pressurized by the pressure section 84, and a space portion 91 in which the physiological saline package 81 is disposed.
Next, the function of the forceps 1 according to the embodiment will be described.
In the case that the balloon 85 of the pressure section 84 is held while disposing the physiological saline package 81 in the space portion 91, the balloon 90 of the package storing portion 82 is expanded through the tube 84a. The balloon 90 then presses the physiological saline package 81 disposed in the space portion 91, and due to the pressure thus produced, the physiological saline runs out toward the liquid volume observation port 87 through the tube 83a. The physiological saline which has run out is one retained at the liquid volume observation port 87, and its flow volume is adjusted by the liquid volume adjustment portion 88. That is, a desired amount (e.g., drop by drop at predetermined time intervals) of physiological saline is introduced from the physiological saline package 81 into the port 23 through the infusion tube 83a.
The physiological saline is led out from a distal end portion of the sheath assembly 14 which communicates with the port 23. Just before the physiological saline is led out, a physiological saline is poured on the link mechanism 9. The link mechanism 9 is prevented from being stained. That is, while the physiological saline poured on the link mechanism 9 is removing the stains on the link mechanism 9, the physiological saline is introduced from the distal end portion of the sheath assembly 14. Therefore, stains to stick or sticking on the link mechanism 9 are washed away constantly or at times while the forceps 1 is being used.
In this way, the link mechanism 9 is not easily stained during an operation, so that the labor and time of the cleaning after the forceps 1 is used, can be significantly reduced.
Next, a fourth embodiment will be described referring to
In the insertion section 102, for example, first to third drive rods 105, 106 and 107 are provided in parallel. A support portion 108 of the insertion section 102 is provided between the first drive rod 105 and the second and third drive rods 106 and 107, preventing mutual interference among the drive rods 105, 106 and 107.
The operating section 104 includes operating handles 109a and 109b which pivot and open/close with respect to an axial direction of the insertion section 102. Proximal ends of the three drive rods 105, 106 and 107 are coupled to distal ends of the operating handles 109a and 109b by the link mechanism. The operating section 104 pivots from a state straight in the axial direction of the insertion section 102 (see
Next, the treatment portion 103 (mainly the link mechanism) will be described.
As shown in
The second coupling pin is coupled to the second drive rod 106, and the third coupling pin is coupled to the third drive rod 107. The first jaw 112 pivots laterally and vertically on the vertical and lateral pins. A first pivot support pin 118 having a lateral axis is provided at a proximal end portion of the first jaw 112 (bending portion 112a). A pivot plate 119 is coupled to the first pivot support pin 118. The pivot plate 119 is coupled with a vertical axis at a distal end portion of the support portion 108 and pivots in a lateral direction.
One end of a second coupling member 121 is pivotally coupled to a proximal end portion of the second jaw 114 by a second coupling pin 120 having a lateral axis. A third coupling member is coupled to the other end of the second coupling member 121 by a pivot support pin (not shown) having a vertical axis. The other end of the third coupling member is pivotally coupled to a distal end portion of the first drive rod 105 by a fourth coupling pin (not shown) having a lateral axis. The second jaw 114 pivots laterally and vertically on the vertical and lateral pins. That is, the first and second jaws 112 and 114 pivot vertically and laterally.
Therefore, the jaws 112 and 114 of the treatment portion 103 of the forceps 101 not only open/close pivotally on the pivot support pin 113 but also pivot laterally and vertically. That is, the forceps 101 includes the link mechanism which is much more complex than that of the forceps 1 in the first embodiment. The insertion section 102 of the forceps 101 is covered with a sheath 122.
As the treatment portion 103 having such a complex link mechanism is provided at a distal end portion of the insertion section 102, stains such as blood and body fluids of a patient might be brought to the various link mechanism when the treatment portion 103 is cleaned. Therefore, particularly elaborate cleaning needs to be performed to ensure that the stains are removed. In order to reduce such labor and time to clean the forceps 101, the forceps cover sheath 45 is used to cover the treatment portion 103 and the link mechanism of the forceps 101.
The forceps cover sheath 45 is formed, for example, in the same manner as the cover sheath 45 described in the first embodiment. A distal end portion of the forceps cover sheath 45 is formed to have a shape similar to the shape of the treatment portion 103 of the forceps 101 according to the embodiment. The entire treatment portion 103 and a desired length of the sheath 122 which covers the insertion section 102 are covered with such a forceps cover sheath 45 rearward from their distal ends.
The tube member 46 described above is flexible, so that even if the treatment portion 103 pivots vertically and laterally at the distal end of the link mechanism, the tube member 46 pivots accordingly. Even if the jaws 112 and 114 are opened/closed while the treatment portion 103 of the forceps 101 pivots in a desired direction, a distal end portion of the tube member 46 pivots in accordance with their opening/closing.
After the treatment target is treated with the forceps 101 according to the embodiment, the forceps cover sheath 45 is detached from the forceps 101 as described in the first embodiment.
The forceps cover sheath 45 prevents the treatment portion 103 of the forceps 101 from being stained with the blood and body fluids from the patient. Therefore, even in the case of the treatment portion 103 including the complex link mechanism as described in the embodiment, the labor and time to clean the link mechanism (the treatment portion 103) can be reduced. As shown in
As described above, the following effects can be obtained according to the embodiment.
Even in the case of the significantly complex link mechanism having treatment portion 103 which includes a plurality of links, pivots vertically and laterally and opens/closes the jaws, a normal treatment can be performed while the complex link mechanism is covered to prevent staining. Therefore, the link mechanism is not easily stained, and the labor and time can be significantly reduced to clean the forceps 101, and moreover, the forceps 101 can be reused through the cleaning, disinfecting and sterilizing processes. Thus, the forceps 101 does not need to be disposed of, and costs of expensive medical equipment (forceps) having the complex link mechanism can be reduced. When the forceps 101 is cleaned, cleaning time can be reduced because the forceps 101 is not heavily stained originally.
Additional advantages and modifications will readily occur to those skilled in the art. Therefore, the invention in its broader aspects is not limited to the specific details and representative embodiments shown and described herein. Accordingly, various modifications may be made without departing from the spirit or scope of the general invention concept as defined by the appended claims and their equivalents.
Number | Date | Country | Kind |
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2003-201066 | Jul 2003 | JP | national |
This is a Continuation Application of PCT Application No. PCT/JP2004/010898, filed Jul. 23, 2004, which was published under PCT Article 21(2) in English. This application is based upon and claims the benefit of priority from prior Japanese Patent Application No. 2003-201066, filed Jul. 24, 2003, the entire contents of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/JP04/10898 | Jul 2004 | US |
Child | 11273171 | Nov 2005 | US |