OA16690A - Disposable apparatus for fitly circumcising a penis. - Google Patents

Abstract

A disposable circumcision apparatus, comprising, a fixture device comprising a surrounding wall, the surrounding wall comprising an opening, a blade formed along an interior surface of the surrounding wall, the blade comprising a first blade mating portion and a second blade mating portion that mate with each other when the fixture device is in a closed position, the blade further comprising a blade interior circumferential edge, a cushion ring for being positioned against the blade further comprising a groove formed along a blade interior circumferential edge, means for maintaining the fixture device in a closed position, and a balanus ferrule for placement within the cushion ring and fixture device.

Description

[001] The invention relates to a type of apparatus for fitly circumcising a pénis, especially a type of circumcision apparatus that prevents a fixture device from opening during a circumcision procedure.

Backgronnd [002] The effect of male circumcision has been widely recognized in reducing the transmission of HIV. Mr. Jianzhong Shang has previously invented a disposable circumcision apparatus that utilizes upper and lower blades that join to form a circuler clamp, the blades staggered from one another, so as to minimize pain resulting from skin clamping during the procedure. This technique has been improved over the years to further ensure the convenience, safety, and effectiveness of this operation on a wide range of patients. This circumcision apparatus is the présent standard in circumcision surgery.

[003] The disposable circumcision device mentioned above comprises a fixture device (exterior ring) and balanus ferrule (interior ring), which are made of hard, non-toxic medical plastics. A patient may expérience pain and discomfort during surgery as a resuit of the hard, circulai clamp and balanus ferrule directly contacting the prepuce.

[004] One problem with the prior art circumcision device mentioned above is the possibility of dropping the device during the procedure, which may directly lead to bleeding. Additionally, a patient may be fearful of such an accidentai during the circumcision procedure and cause unnecessary mental anguish prior to the procedure. Some hâve attempted to reduce the chances of dropping a circumcision apparatus during the procedure by using scalariform detent blocks at each end of the circumcision apparatus, so as to prevent the accidentai opening of the fixture device that may lead to dropping the entire apparatus. The current Shanghuan Brand circumcision apparatus uses this technique. -J ~~

[005] It would be désirable to avoid the pain and discomfort associated with the prepuce being in direct contact with the circular blades of the fixture device and bal anus ferrule.

SUMMARY [006] The main purpose of this invention is to overcome the deficiencies of existing circumcision devices and to provide a safer, cleaner, and more convenient disposable circumcision apparatus.

[007] A disposable circumcision apparatus, comprising a fixture device comprising a surrounding wall, the surrounding wall comprising an opening, a blade formed along an interior surface of the surrounding wall, the blade comprising a first blade mating portion and a second blade mating portion that mate with each other when the fixture device is in a closed position, the blade further comprising a blade interior circumferential edge, a cushion ring for being positîoned against the blade further comprising a groove formed along a blade interior circumferential edge, means for maintaining the fixture device in a closed position, and a balanus ferrule for placement within the cushion ring and fixture device.

[008] The first embodiment is that, the blade further comprises a groove formed along the blade interior circumferential edge for receiving the cushion ring.

[009] The second embodiment is that, the cushion ring comprises a groove formed along an interior circumferential edge of the cushion ring for receiving the blade interior circumferential edge or the entire blade is placed within the groove. Wherein the cushion ring is made of silica-gel and the blade is made of plastic, and the cushion ring adhères to the blade through an intégral formation between plastics and silica-gel. The fixture device is coated with a silica-gel layer, and the silica-gel layer adhères to the fixture device through an intégral formation between plastics and silica-gel.

[0010] Where in, the blade interior circumferential edge thickness is greater than or equal to the thickness of exterior circumferential edge of the blade where the blade contacts an interior circumferential surface of the fixture device. A circular elastic pad, wherein the elastic pad is placed around the exterior of the bal anus ferrule. A first rîm located on a first side of the balanus ferrule; and a second rim locatged on a second side of the balanus ferrule; wherein the first and second rims forma ring-shaped cavity upon which the elastic pad rests. The cushion ring and the elastic pad comprises a micro mechanism for preventing skin adhesion to the cushion ring and the elastic pad. The micro mechanism is selected from the group consisting of sinking and bulging dots, crossed sinking and bulging fines, grooves, protrusions, and an uneven structure. The fixture device and the balanus ferrule comprise an elliptic or obliqueiy elliptic structure corresponding to a cross section of a coronal sulcus. The balanus ferrule further comprises a notch for accommodating a frenulum of prepuce.The fixture device is C-shaped. The fixture device comprises three sections connected together at two hinge points, the hinge points staggered from each other so that they minimîze contact with a scrotum during circumcision surgery. The means for maintaining the fixture device in a closed position comprises upper and lower scalariform detent blocks, each of the scalariform detent blocks comprising a hook and a hole, wherein the hooks are sized and shaped to fit within the holes, respectively. The buckling device comprises a screw on one end of the fixture device and a linear threaded hole on the other end of the fixture device. Comprising a protective cover sized and shaped to fit over the buckling device. The cross-section of the groove is selected from the group consisting of an arc, a semi-circle, a semi-ellipse, and a triangle; and the cross-section of the first blade mating portion and the second blade mating portion combined is selected from the group consisting of an arc, a semi-circle, a semi-ellipse, and a triangle; and the cushion ring comprising a cross section substantially matching the cross section of the groove. The cushion ring is of ring shape and the circumference thereof corresponds with that of the blade. The fixture device comprises one, two, or three blades. Round angles are provided at the first and second blade mating portions.

[0011] The bénéficiai effects of the invention are as follows:

1. An interior circumferential edge of each blade has a groove for retaining a cushion ring, such as a non-toxic medical silica-gel cushion ring, which clamps directly on

the prepuce. A soft elastic pad is also provided on the surface of a balanus ferrule. Therefore, both the outer and inner surfaces of prepuce touch a soft material, providing some space for expansion and effectively alleviating the pain and discomfort caused by prepuce irritation against the prior art hard surfaces of the half-ring and balanus ferrule.

2. A groove is provided on the inner side of the blade, increasing the softness of the surface while still keeping the circumcision device in place.

3. The first blade mating portion and the second blade mating portion are procided at the open end of the blade, respectively. These portions of the blade are designed to slide over each other, or overlap, to form a complété blade structure (e.g., ring) as the fixture device is placed into a closed position. The first and second blade better facilitate clamping of the fixture device around the foreskin of the pénis during surgery. When in use, the cushion ring will neither be obstructed at the fixture device opening due to wrinkling nor clamp the prepuce during the procedure when the upper and second blade corne in contact with each other.

4. A micro mechanism preventing skin adhesion may be provided for both the cushion ring and the elastic pad, so as to reduce the possîbility of skin adhesion of the prepuce, reducing pain associated with the circumcision apparatus removal process.

5. A hook and a linear groove may be provided on each side of a buckling device located on each open end of the fixture device, and a protective cover may be provided over the buckling device, minimizing the risk of the buckling device opening due to, for example, a penile érection.

6. The cross section of both the fixture device and balanus ferrule may form an elliptic or obliquely elliptic structure, which may more closeiy resemble the cross section of an actual pénis, especially the shape of the coronal sulcus. The pain resulting from irritating the frenulum during an érection is further reduced.

7. The fixture device may comprise a one-section, two-sectîon, or three-section ring-shaped apparatus. The one-section fixture device may be made exclusively of soft materials, has an adjustable opening and is simple and convenient. The two-section fixture is typically made of hard, non-toxic medical plastics that are rotatably joined together at one end, forming an adjustable opening at the other. In this embodiment, the fixture device is rigid, ensuring the structural integrity of the circumcision apparatus. Additionally, this embodiment allows for a large opening formed at the “open” ends of the two semi-ferrules via the hinge structure formed by at the two, opposing ends of the semi-ferrules. During surgery, the connecting ends are typically located above of the scrotum, causing friction between the hinge and the scrotum, thereby causing patient discomfort. The three-sectîon design may alleviate this probiem, because two pivot points are staggered from each other so that contact with the scrotum is reduced or completely eliminated.

8. A notch for receiving the frenulum may be provided within the balanus ferrule, shaped to correspond with the pénis structure and preventing pressure on the frenulum.

Brief Description of the Drawings [0012] Fig 1A is an exploded view of an apparatus for circumcising a pénis, comprising a fixture device, balanus ferrule, cushion ring, and circular elastic pad;

[0013] Fig IB illustrâtes the fixture device and cushion ring of Fig IA interconnected with one another;

[0014] Fig IC is a perspective view of the apparatus of Fig IA in a closed position;

[0015] Fig ID illustrâtes cross-section A-Ashown in Fig IC;

[0016] Figs 2A and 2B illustrate left and right semi-ferrules, respectively, of the fixture device shown in Fig 1 A;

[0017] Figs 2C, 2D, and 2E illustrate vertical cross-sections of three different embodiments of the fixture device shown in Fig 1 A, respectively;

[0018] Figs 2F, 2G, and 2H illustrate first and second mating half-ring portions of three different embodiments of the fixture device shown in Figs 2C, 2D, and 2E, respectively;

[0019] Figs 21 and 2J illustrate a cross-section of two embodiments of the fixture device of Fig 1 A, each having two blade;

[0020] Fig 2K ïs an illustration of first and second mating blade portions for the ³ structure of Fig 2J;

[0021 ] Figs 3 A, 3B, and 3C are illustrations showing various views of the cushion ring shown in Fig 1A in an embodiment where cushion ring is circular;

[0022] Fig 3D is an illustration of a linear cushion ring used in one embodiment;

[0023] Figs 4A, 4B, 4C, 4D, 4E, 4F, 4G, and 4H illustrate various embodiments of how the cushion ring and blade shown in Fig 1 may bejoined;

[0024] Figs 5A, 5B, and 5C illustrate three different views of the balanus ferrule of Fig IA;

[0025] Fig 6 illustrâtes a circular elastic pad used in one embodiment;

[0026] Fig 7 illustrâtes a cross-section of the balanus ferrule used with the circular elastic pad;

[0027] Fig 8 illustrâtes a cross-section of the cushion ring as it is seated into the half-ring groove of the fixture device;

[0028] Fig 9 illustrâtes a cross-section of the fixture device, cushion ring, balanus ferrule, and circular elastic pad in one embodiment as they are interconnected with each other;

[0029] Fig 10 illustrâtes one embodiment of an apparatus for circumcising a pénis at it is being used during a circumcision procedure;

[0030] Figs 11A, 11 B, and 11C illustrate three embodiments of micro mechanisms that prevent skin adhesion on the cushion ring and circular elastic pad;

[0031] Figs 12A and 12B illustrate various views of the fixture device in an embodiment where the fixture device is elliptical in nature;

[0032] Fig 12C illustrate another embodiment of the fixture device in an embodiment where the fixture device is elliptical and oblique;

[0033] Figs 13 illustrate another embodiment of the balanus ferrule, shown as an elliptical and oblique structure;

[0034] Fig 14 is an illustration of the elliptical and oblique embodiment of the apparatus for circumcision as shown in Figs 12C, 13 as it is used during circumcision surgery;

[0035] Fig 15 illustrâtes a balanus ferrule in one embodiment, comprising a notch for

containing the frenulum of prepuce;

[0036] Figs 16 and 17 are illustrations of the fixture device in an embodiment where the fixture device comprises a hook and a linear groove;

[0037| Figs 18A, 18B, 18C, and 18D are illustrations of various embodiments of the apparatus for circumcising a pénis in an elliptical and oblique shape, comprising a hook and a linear groove;

[0038] Figs 19A, 19B, 19C, 19D, and 19E illustrate a protective cover used in conjunction with the fixture device, with Fig 19A iilustrating a perspective view of the protective cover body, Fig 19B iilustrating a bottom view of the protective cover body, Fig 19C iilustrating a cut-away view of the interior of the protective cover body, Fig 19D iilustrating a side view of a protective cover cap used to seal the protective cover body, and Fig 19E iilustrating a bottom view of the protective cover cap;

[0039] Figs 20A and 20B illustrate an embodiment of a fixture device shown as a flexible, C-shaped structure; and [0040] Figs 21A and 2IB illustrate an embodiment of a fixture device comprising three sections.

Detailed Description of the Preferred Embodiments of the Invention [0041] As shown in Fig IA, a disposable apparatus for circumcising a pénis (circumcision apparatus) comprises fixture device 3, balanus ferrule 1, and optional elastic pad 5, the fixture device 3 comprising surrounding wall 31 and blade 32. The fixture device 3 forms an opening through which a pénis can be easily placed during a circumcision procedure. The fixture device comprises at least one hinged connection, allowing the fixture device to close around the pénis, where it may then be secured by a buckling device 4 incorporated into the fixture device structure.

[0042] In order to avoid the pain resulting from clamping fixture device 3 and balanus ferrule 1 onto the prepuce, the présent invention utilizes a cushion ring 2 that engages a groove 33 formed on an interior cîrcumference of the blade (which is closest to the balanus ferrule 1 during a circumcision procedure).

[0043) According to a first embodiment, the groove 33 is formed on the inside circumference of the blade. As shown in Fig 2C, in one embodiment, the cross-section of groove 33 is of semi-circular shape. As shown in Figs 3A, 3B, and 3C, the cross-section of the cushion ring interconnected with groove 33 is of circular shape, and the diameter thereof is less than or equal to that of the circular groove. The circumference of the cushion ring is about equal to that of the blade edge when the fixture device is closed. The cushion ring is typically held in place by the geometry of the groove and ring. Of course, the groove 33 may, alternatively, comprise an arc, semi-elliptic, square, or triangular shape, any of which can be made to accept the cushion ring 2. As shown in Figs 2D and 2E, in order to save materials, the inner side of the blade (Hl) can be equal to or thicker than that of outer side of the blade (H2).

[0044] As shown in Figs IB, Fig 2A, and Fig 2B, the blade of the left semi-ferrule 3A comprises a first blade mating portion 311A and the blade of the right semi-ferrule 3B comprises a second blade mating portion 31 IB at the open end of the blade, respectively. These portions of the blade are designed to slide over each other, or overlap, to form a complété blade structure (e.g., ring) as the fixture device is placed into a closed position. Thus, the thickness of both the first and second blade mating portions are thinner than the majority of the blade structures. In one embodiment, the mating portions comprise rounded edges. Figs 2F, 2G, and 2H illustrate three embodiments of the first and second mating blade portions when the fixture device is in a closed position. The groove formed on the interior circumference of the blade extends into the mating portions, however the cross section of the groove in the mating portions are half of what they are in the majority of the blade. Thus, when the fixture device is placed into a closed position, the groove that is formed on the majority of the blade continues uninterrupted in the mating portions, as the groove is completed as the mating portions alîgn with one another.

[0045] As shown in Fig ΙΑ ,ΙΒ 2A and 2B, the fixture device 3 comprises a two-section design, each section having an open end 50 and a connecting end 52.

In this embodiment, fixture device 3 comprises the left semi-ferrule 3A and right semi-ferrule 3B. The connecting ends are rotatably connected to one another via a hinged connection 35 (shown in Fig l A), which comprises connecting linear groove 351 on one semi-ferrule and connecting rod shaft 352 on the other semi-ferrule (shown in Fig 2A and Fig 2B). The open end 50 on left semi-ferrule 3A comprises a means for mating with a reciprocal means located on the open end of the right semi-ferrule 3B. In this way, the fixture device can be easily applied and removed during circumcision surgery. Furthermore, adéquate rigidity of the blade may be achieved by using hard materials. The design of the first and second mating blade portions effectively prevent the blade from pinching the pénis when using the circumcision device during surgery. Additionally, the structure effectively guides the cushion ring into the blade groove 33. Thus, the cushion ring fits easily within the complété groove formed as the fixture device is closed, and is not clamped or pinched at the open or connecting ends.

[0046] In another embodiment, each semi-ferrule may comprise two or more blade. As shown in Fig 21 and 2J (depîctîng a cross section of either right blade 32 or left blade), each semi-ferrule comprises two blade, each comprising an inner circumference having a groove to accommodate a cushion ring, while a cavity 34 is formed between the two blade for containing cotton wool or ointment. As shown in Fig 2K illustrating the mating portions for open or connecting end for both blade, the left semi-ferrule comprises two mating blade portions 311A (inner), and the right semi-ferrule comprises two mating blade portions 311B (outer). As the circumcision device is closed, the two mating blade portions 31 IB overlap the two mating blade portions 311A to form a complété ring structure.

[0047] In an alternative embodiment, the cushion ring 2 may comprise the linear structure shown in Fig 3D, which can be dîrectly inserted into groove 33 of the blade. In this embodiment, each end 211 and 212 of the linear structure are eut off at an angle, such as 45 degrees, and these ends lie on top of the first blade mating portion and second blade mating portion, respectively, after it has been inserted into the groove. When the fixture device is closed, the linear cushion ring forms a full ring shape.

[0048] Another embodiment of the cushion ring is illustrated in Figs 4A and 4B. In this embodiment, the cushion ring comprises a groove 21 that overlaps the inner circumference of one or both blade. As shown in Figs 4F and 4G, groove 2I may alternatively overlap a portion of or an entire blade, as shown in Fig 4H.

[0049] Tradîtionally, the thickness of the inner circumference of a blade (Hl) is thinner than the outer circumference (H2) thickness. Alternatively, the width (Hl) can be equal to or larger than H2. This design can reduce the amount of materials needed to manufacture the blade/cushion ring. Another advantage is that it may be désirable for the cushion ring 2 to be attached to the blade. Fig 4C illustrâtes that width Hl is equal to width H2, while Figs 4D and 4E illustrate that width Hl is greater than width H2. The method in which H1 is greater than or equal to H2 is désirable so that the cushion ring 2 may be steadily affixed to the blade.

[0050] In one embodiment, the cushion ring 2 is manufactured from medical non-toxic silica-gel and may be directly adhered to the blade inner circumference. In other embodiments, the cushion ring 2 may be manufactured from virtually any combination of plastics and silica-gel. In yet sill other embodiments, the blade are manufactured from a relatively hard material, such as plastic, while the cushion ring is manufactured with a Iess-hard substance, such as silica-gel, so that the cushion ring fits adhères to the groove by virtue of an intégral formation between the plastic and the silica-gel. Furthermore, the surrounding wall 31 may be coated with a silica-gel layer 22 that adhères to the surrounding wall 31 (i.e., fïxture device) through a single intégral formation between plastics and silica-gel. In one embodiment, the entire fïxture device is coated with a silica-gel layer, enabling the pénis to directly contact this soft surface, thereby effectively increasing the patient’s comfort.

[0051] Figs 5A, 5B, and 5C illustrate three views of balanus ferrule 1 shown in Fig IA. A first rim 11 and a second rim 12 create a circular cavity 13 between the first rim 11 and the second rim 12. As shown in Fig 6, a circular elastic pad 5 comprises a ring made of an elastic material, such as rubber or other stretchable synthetic material.

[0052] As shown in Fig 7, when in use, the elastic pad 5 is stretched over one of the rims (either rim 11 or rim 12) of the balanus ferrule 1, where it then fits snugly around the circular cavity.

[0053| Fig 8 illustrâtes a cross section of one of the blade and cushîon ring inserted into a groove formed along an interior circumference of the blade. Fig 9 illustrâtes a cross section of the blade/ring combination of Fig 8 in contact with a cross section of the elastic pad 5 placed around the balanus ferrule 1. During a circumcision operation, a pénis is placed through the balanus ferrule 1 having the circular elastic pad 5 in place over its circular cavity. Next, the prepuce 7 is unfurled to cover the balanus ferrule 1 with the unfurled portion of the prepuce (shown in Fig 10) extending from the ferrule. Then, the circular cushion ring 2 is placed around the exterior surface of the prepuce over the circular cavity 13/elastic pad 5. Next, the fixture device 3, in an open position, is placed around the cushion ring 2, aligning the groove in each blade with the cushion ring 2. Finally, the fixing device is closed by bringing the two open ends 50 of each semi-ferrule together and locking the fixing device in a closed position using the buckling device. The resuit, shown in a cross-sectional view, is shown in Fig 10. At this point in the procedure, a scalpel is typical used to eut the one part of the prepuce. then after 10 to 7 days when the apparatus is on the body, the abundant prepuce of the patients naturally faits off due to avascular necrosis. After removing the circumcision apparatus the eut part is very natural and smooth compared to healing after laser surgery. Using this technique, the first and second mating blade portions can effectively prevent the skin on the pénis from being pinched at the open and connecting ends of the fixture device and, additionally, the circular cushion ring is easily guided into the blade groove. Both the circular cushion ring and surrounding elastic pad are typically made of soft, non-toxic medical silica-gel, providing a certain degree of expansion and effectively minimizing the pain and discomfort normally associated with circumcision surgery.

[0054] Tuming back to Fig IC, the outer circumference of the surrounding wall 31 of

the fixture device comprises a beautiful arc shape. As show in ID, the exterior circumference of the balanus ferrule comprises a curved profile which can prevent the blade sliding from the middle to either rim of the balanus ferrule.

[0055] In order to prevent skin adhesion during removal of the apparatus from the pénis after surgery, a micro mechanism that prevents skin adhesion may be provided on the surface of either the circular cushion ring 2, circular elastic pad 5, or both. The micro mechanism may comprise dépréssions or raîsed portions, such as the sinking and/or bulging dots shown in Fig HA, the crossed bulging and/or sinking streaks shown in Fig 11 B, or the grooves and/or protrusions shown in Fig 11 C. Due to the existence of the micro mechanisms, removal of the circumcision apparatus reduces the occurrence of skin adhesion, making the process of removing the circumcision apparatus easier.

[0056] In an embodiment shown in Figs 12Aand 12B, the fixture device 3 and balanus ferrule 1 comprise an elliptic structure. This structure may more closely resemble the cross section of an actual pénis, especially the shape of the coronal sulcus. As shown in Figs 12Cand 13, the fixture device and the balanus ferrule are elliptical and oblique. As shown in Fig 14, the circumcision apparatus closely matches the oblique shape of coronal sulcus, providing more comfort to the patient and ease of operation for the surgeon.

[0057] As shown in Fig 15, a notch 14 is formed for accommodating the frenulum of prepuce is provided at one side of the first and second edges of the balanus ferrule 1. While in use, the balanus ferrule may be rotated so that notch 14 accommodâtes the frenulum of prepuce. The notch 14 advantageously protects the frenulum and allows the circumcision device to more closely fit a human pénis. Thus, the pain resulting from chaffing of the frenulum during a noctumal érection may be reduced, thus increasing patient comfort.

[0058] The fixture device 3 is closed (only closed not opened to avoid reuse of the apparatus) by the use of a buckling device 4, as shown in Fig IA and other figures. The buckling device 4 may comprise any number of structures known in the art, such as a screw Iocated on an open end of one of the semi-ferrules and a threaded linear groove at the other open end on the other semi-ferrule that comprise fîxture device 3. In another embodiment, the buckling device 4 comprises the detent block structure shown in Figs 16, 17, and 18A-18D. As shown in Fig 17, the buckling device comprises an upper scalariform detent block 41 and a lower scalariform detent block 42 that are arranged in a “staggered” formation. The first mating blade portion 311A lies in a plane slightly above the lower scalariform detent block 41 and the second mating blade portion 311B lies in a plane slightly under the upper scalariform detent block 42, creatîng a fîxture device that is self-contained and capable of being opened and closed using the buckling device.

[0059] In order to further avoid accidentai opening of the buckling device, the aforesaid upper scalariform detent block 41 and lower scalariform detent block 42 may comprise a hook and linear groove that corresponds with each other. As shown in Figs 16, 17, and 18A-18D, in one embodiment, an upper hook 13 may be provide at the outer end of upper scalariform detent block 41 and a lower linear groove 16 (it is same to the upper linear groove 15 which clearly shown in Fig 18A) is provided at the inner end of the upper scalariform detent block 41, while a lower hook 14 is provide at the outer end of lower scalariform detent block 42 and an upper linear groove 15 is provided at the inner end of the lower scalariform detent block 42. To close the fîxture device, the upper hook 13 interacts with the upper linear groove 15, while the lower hook 14 interacts with the lower linear groove 16. When the an upper scalariform detent block 41 and a lower scalariform detent block 42 are engaged with each other, the hook and linear groove further assures that the fîxture device will remain closed.

[0060] In view of the interaction between the hooks and linear grooves in the above-described embodiment, the inner sides of the upper scalariform detent block 41 and lower scalariform detent block 42 may comprise incline surfaces, and incline projecting portions, located on the surrounding walls, the incline projectîng portions substantially matching the incline surfaces. This feature is shown in Figs 2a, Fig 16 and Fig 18, illustrating a first incline surface 411 and a first incline projecting portion 412 on the upper scalariform detent block 41 and a second incline surface

421 (Fig 16) and second incline projecting portion 422 (Fig 18A) on the lower scalariform detent block 42. The upper hook 13 is provided at the outer side of the first incline surface 411 and the lower hook 14 is provided at the outer side of second incline surface 421. The lower linear groove 16 is provided at the end of the first incline projecting portion 412 (on the opposite of the upper hook 13) and the upper linear groove 15 at the end of the second incline projecting portion 422 (on the opposite of the lower hook 14). There may be holes which substantially matching the hooks. The hooks and linear grooves or holes further substantially match with the upper and lower tooth-like detent blocks, ensuring effective vertical and horizontal locking with each other, and preventing accidentai openings of the fïxture device 3.

[0061] As shown in Fig 18B,18C,andl 8D an unlocking hole 43 may be provided on the lower scalariform detent block 42 or on the upper scalariform detent block 41. When a circumcision procedure has been completed, a spécial tool may be inserted into the unlocking linear groove 43, thereby prying the detent blocks from one another and allowing removal of the circumcision apparatus.

[0062] Fig 19A and 19E illustrate a protective cover 6 that may be placed onto the buckling device to prevent accidentai opening of the fïxture device 3 after surgery. The protective cover 6 comprises a cover body having a bottom plate, two side walls and a top wall (Fig 19C). Cap 62 substantially matches the bottom plate so that protective cover 6 forms a cavity 61 that substantially matches the contour of the buckling device when cap 62 is placed on top of the cover body. The cap 62 is secured to the cover body typically using one or more fastening devices, such as screws, bolts, Velcro, etc., or using one or more rods 64 attached to cap 62, as shown in Fig 19D, that may be snugly inserted into corresponding linear grooves 63 formed on the cover body rim. The protective cover may be constructed of, in one embodiment, résilient silica-gel for convenient use. The protective cover can effectively minimize the risk of accidentai openings of the fïxture device after surgery, which may resuit from an érection of the pénis, thereby increasing the likelihood of a successful operation.

[0063] Fig 20 illustrâtes another embodiment ofthe fixture device shown in Fig IA, as fixture device 30. Fixture device 30 comprises a C-shaped ring that is made of soft materials that may enable it to open wider when needed.

[0064] Figs 21A and 21B illustrate an embodiment where the fixture device comprises three sections. As mentioned above, in the two-section design, the hinge 35 is usually situated on the scrotum during surgery, typically causing friction between the hinge and the scrotum. The three-section design effectively éliminâtes the single hinge 35 from the center of the cîrcumcision apparatus and replaces it with the two hinges shown in Figs 21A and 21 B. Thus, the placement of the two hinges allow the scrotum to be placed therebetween, thereby reducing friction with the scrotum.

Claims (22)

1. Claims

   I Claim:

   l. A disposable circumcision apparatus, comprising:

   a fixture device comprising a surrounding wall, the surrounding wall comprising an opening;

   a blade formed along an interior surface of the surrounding wall, the blade comprising a first blade mating portion and a second blade mating portion that mate with each other when the fixture device is in a closed position, the blade further comprising a blade interior circumferential edge;

   a cushion ring for being positioned against the blade further comprising a groove formed along a blade interior circumferential edge;

   means for maintaining the fixture device in a closed position; and a balanus ferrule for placement within the cushion ring and fixture device.
2. 2. An apparatus as claimed in claim 1, wherein:

   the blade further comprises a groove formed along the blade interior circumferential edge for receiving the cushion ring.
3. 3. An apparatus as claimed in claim 1, wherein:

   the cushion ring comprises a groove formed along an interior circumferential edge of the cushion ring for receiving the blade interior circumferential edge.
4. 4. An apparatus as claimed in claim 1, wherein:

   the cushion ring comprises a groove formed along an interior circumferential edge of the cushion ring and the entire blade is placed within the groove.
5. 5. An apparatus as claimed in daims lor 3or4, wherein:

   the cushion ring is made of silica-gel and the blade is made of plastic, and the cushion ring adhères to the blade through an intégral formation between plastics and silica-gel.
6. 6. An apparatus as claimed in claim 5, wherein:

   the fixture device is coated with a silica-gel layer, and the silica-gel layer adhères to the fixture device through an intégral formation between plastics and silica-gel.
7. 7. An apparatus as claimed in claim lor 2or 3or 4, wherein:

   the blade interior circumferential edge thickness is greater than or equal to the thickness of exterior circumferential edge of the blade where the blade contacts an interior circumferential surface of the fixture device.
8. 8. An apparatus as claimed in claim l or 2or 3or 4, further comprising:

   a circular elastic pad, wherein the elastic pad is placed around the exterior of the balanus ferrule.
9. 9. An apparatus as claimed in claim 8, wherein the balanus ferrule further comprises:

   a first rim located on a first side ofthe balanus ferrule; and a second rim iocatged on a second side of the balanus ferrule; wherein the first and second rims forma ring-shaped cavity upon which the elastic pad rests.
10. 10. The apparatus of ciaîm 9, wherein the cushion ring and the elastic pad comprises a micro mechanism for preventing skin adhesion to the cushion ring and the elastic pad.
11. 11. An apparatus as claimed in claim 10, wherein:

    the micro mechanism is selected from the group consisting of sinking and bulging dots, crossed sinking and bulging lines, grooves, protrusions, and an uneven structure.
12. 12. An apparatus as claimed in claim 1, wherein:

    the fixture device and the balanus ferrule comprise an elliptic or obliquely elliptic structure corresponding to a cross section of a coronal sulcus.
13. 13. An apparatus as claimed in claim 1, wherein the balanus ferrule further comprises a notch for accommodating a frenulum of prepuce.
14. 14. An apparatus as claimed in claim lorl2, wherein:

    the fixture device is C-shaped.
15. 15. An apparatus as claimed in claim lorl2, wherein:

    the fixture device comprises three sections connected together at two hinge points, the hinge points staggered from each other so that they minimize contact with a scrotum during circumcîsion surgery.
16. 16. An apparatus as claimed in claim 1, wherein the means for maintaining the fixture device in a closed position comprises upper and lower scalariform detent blocks, each of the scalariform detent blocks comprising a hook and a hole, wherein the hooks are sized and shaped to fit within the holes, respectively.
17. 17. An apparatus as claimed in claim 1, wherein:

    the buckling device comprises a screw on one end of the fixture device and a linear threaded hole on the other end of the fixture device.
18. 18. An apparatus as claimed in claim lor 16, further comprising a protective cover sized and shaped to fit over the buckling device.
19. 19 An apparatus as claimed in claim 2, wherein:

    the cross-section of the groove is selected from the group consisting of an arc, a semi-circle, a semi-ellipse, and a triangle; and the cross-section of the first blade mating portion and the second blade mating portion combined is selected from the group consisting of an arc, a semi-circle, a semi-ellipse, and a triangle; and the cushion ring comprising a cross section substantially matching the cross section of the groove.
20. 20. An apparatus as claimed in claim 2, wherein:

    the cushion ring is of ring shape and the circumference thereof corresponds with that of the blade.
21. 21. An apparatus as claimed in claim K 3 or 4, wherein:

    the fixture device comprises one, two, or three blades.
22. 22. An apparatus as claimed in claim K 3 or 4, wherein:

    round angles are provided at the first and second blade mating portions.