CN218870373U - Split anorectal anastomat - Google Patents

Abstract

The utility model relates to an anorectal anastomat, which is used for excising hemorrhoidal tissues, and comprises a first part and a second part which are mutually independent, wherein the first part is provided with a first front end part which extends forwards in a first direction, the first front end part comprises a clamping component which clamps the hemorrhoidal tissues in a second direction, the size of the clamping component in the second direction in a clamping state is smaller than the size of the clamping component in the second direction in a non-clamping state, and the second direction is crossed with the first direction; the second portion has a second front end portion projecting forward in the first direction and cooperating with the first front end portion, the second portion and the first portion being configured to: the second part is engageable with the first part in a manner to be pushed forward in said first direction when the clamping assembly is in the clamped state. The anorectal anastomat is ingenious in structure, convenient to use and capable of cutting large-size hemorrhoid tissues.

Description

Split anorectal anastomat

Technical Field

The utility model relates to the field of medical equipment, especially, relate to a split type anorectal anastomat.

Background

Hemorrhoids (hemorrhoids) are the most common anal diseases. As shown in FIG. 1, the hemorrhoidal tissue 100 is generally elongate in shape at the patient's anorectal bowel 200, and has a length that extends generally along the length of the anorectal bowel, with the length of the hemorrhoidal tissue 100 typically being several times the width.

An anorectal stapler is a medical instrument for excising hemorrhoids that has a head that needs to extend into the anorectum of a patient in order to perform the relevant procedure on a surgical site when in use. The head of the stapler has a length extending in a first direction and, in use, extends substantially along the first direction into the anorectal tract of the patient (partially or fully).

In order to achieve the above-mentioned "correlation process", the head of the stapler is generally provided with: the hemorrhoid stapler comprises a clamping component used for clamping to fix hemorrhoid tissues, anastomotic nails used for stapling the clamped hemorrhoid tissues, and a cutter used for cutting the stapled hemorrhoid tissues.

The process of utilizing the anorectal stapler to excise the hemorrhoidal tissues in the anorectum is roughly as follows: the head of the anastomat is inserted into the position of the anus and the intestine of an affected part approximately along the length direction of the head of the anastomat, then the clamping assembly moving in the second direction is used for clamping and fixing the hemorrhoid tissue to be excised, then the clamped hemorrhoid tissue is stapled by means of the anastomat head moving in the third direction, and then the stapled hemorrhoid tissue is excised through the cutter moving in the fourth direction of the anastomat head. After the resection operation is finished, the anastomosis nail is left in the body to play a role in nailing the wound.

In some conventional anorectal staplers, for example, the anorectal stapler introduced in the publication No. CN111789652a, the clamping direction of the head holding assembly, the stapling direction of the staples, and the cutting movement direction of the cutter are all the same as the extending direction of the stapler head, i.e. the first direction, so that the anorectal stapler requires less anorectal radial space when in use. The traditional anastomat head clamping assembly clamps and fixes the hemorrhoidal tissues in the length direction, staples the hemorrhoidal tissues in the length direction and cuts the hemorrhoidal tissues in the length direction. However, as mentioned above, the length of the hemorrhoidal tissue is generally very large, whereas the operation generally requires that the dimension of the hemorrhoidal tissue in the clamping direction is as small as possible in order to facilitate the stapling of the staples. This results in the clamping assembly of the stapler head clamping the hemorrhoidal tissue in its longitudinal direction, and the clamped hemorrhoidal tissue is deformed more than in its initial state, which not only increases the pain of the patient, but also increases the risk of the operation due to the excessively deformed hemorrhoidal tissue.

Thus, there is no disclosure: the inventors have conducted extensive studies and have come to the mind that the above problems should be alleviated to some extent if the hemorrhoidal tissue to be cut is clamped and fixed in a direction crossing the length of the hemorrhoidal tissue. However, if the clamping assembly of the stapler head is designed to clamp and fix the hemorrhoidal tissue in a non-longitudinal direction, the clamping assembly takes up more anorectal radial space in the non-clamped, expanded state, which may result in insufficient assembly space for other functional elements of the stapler head, such as the pusher elements of the staples and the knife.

The utility model discloses come from this.

Disclosure of Invention

The utility model provides a technical problem be: provides a split anorectal anastomat which has ingenious structure and convenient use and can cut large-size hemorrhoid tissues.

The technical scheme of the utility model is that:

a split anorectal stapler for use in resection of hemorrhoidal tissue, said anorectal stapler comprising first and second mutually independent portions, wherein:

said first portion having a first front end portion projecting forwardly in a first direction and projecting into the patient's body generally along said first direction in use, said first front end portion including a clamping assembly for clamping said hemorrhoidal tissue in a second direction, the dimension of said clamping assembly in said second direction in the clamped state being < the dimension of said clamping assembly in said second direction in the undamped state, said second direction being transverse to said first direction;

the second portion having a second front end portion projecting forwardly in the first direction and projecting into the patient in use generally along the first direction and cooperating with the first front end portion, the second portion and the first portion being configured to: the second portion is engageable with the first portion in a manner to be pushed forwardly in the first direction when the clamping assembly is in the clamped state.

The utility model discloses on above-mentioned technical scheme's basis, can also include one or more in following preferred scheme:

the second portion and the first portion are further configured to: the second portion is separable from the first portion in such a manner as to be pushed rearward in the first direction.

The first part comprises a first shell with a handle, the second part comprises a second shell, the first shell is provided with a clamping groove extending in the first direction, and the second shell is provided with a clamping ridge extending in the first direction and detachably clamped with the clamping groove.

The clamping assembly comprises a movable clamping seat and a fixed clamping seat which are arranged in the second direction;

the first portion further comprises:

a first transmission assembly, and

a clamping actuator connected to said movable clamp holder via said first transmission assembly for driving said movable clamp holder toward said fixed clamp holder to clamp said hemorrhoidal tissue between said movable clamp holder and said fixed clamp holder in a second direction.

The movable clamping seat is provided with:

a staple exit aperture for receiving and guiding movement of staples in a third direction generally parallel to the second direction for stapling the hemorrhoidal tissue, an

A knife outlet hole for receiving and guiding a knife to move in a fourth direction substantially parallel to the second direction to cut the hemorrhoidal tissue;

a nail cutter push plate movably connected with the movable clamping seat is arranged on one side, deviating from the fixed clamping seat, of the movable clamping seat in the second direction;

the second part comprises a push block arranged at the second front end part, and when the first part and the second part are in a joint state, the push block is positioned at the side of the nail cutter push plate, which is far away from the movable clamp seat in the second direction;

the first portion includes a manual staple knife actuator mounted to the first housing, the staple knife actuator being coupled to the pusher by a second drive assembly for driving the pusher toward the staple knife pusher when the first portion is engaged with the second portion.

The nailing and cutting device comprises a nailing and cutting blade actuator, a first transmission assembly and a second transmission assembly, wherein the nailing and cutting blade actuator is a push button capable of moving in the first direction, the second transmission assembly comprises a push rod extending in the first direction, the push rod is composed of a front rod body and a rear rod body which respectively extend in the first direction and are separably connected, the front end of the front rod body is pivotally connected with a roller movably arranged in the chute in a penetrating manner, a long-strip-shaped push rod guide and moving hole extending in the first direction is formed in the front rod body, a sliding pin movably arranged in the push rod guide and moving hole is connected to the second shell, and the rear end of the rear rod body is fixedly connected with the push button.

The rear end of the front rod body is provided with a clamping head, the front end of the rear rod body is provided with a clamping hole matched with the clamping head, and the clamping head is detachably connected with the clamping hole.

The first shell is provided with a push button guide hole extending in the first direction, and the push button is movably connected with the push button guide hole.

The length of the push button guide hole in the first direction is 50-100mm.

The second shell is provided with a jack extending in the direction perpendicular to the first direction, and the safety bolt can be inserted into the jack and the push rod guide hole in a removable manner.

The utility model discloses following beneficial effect has at least:

the utility model designs the anorectal anastomosis stapler into two parts which are mutually independent and separably connected, and the two parts respectively comprise the front end part which is required to be inserted into the body of a patient to be treated correspondingly when in use. The head of the anastomat is broken into parts, and the parts are divided into a first head assembly and a second head assembly. The first head assembly is used for clamping and fixing the hemorrhoid tissue to be cut in the non-length direction, and just vacates the radial space in the anorectum after clamping and fixing the hemorrhoid tissue, and leaves the extending space for providing a second head assembly for subsequent treatment (such as stapling and cutting).

Drawings

In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the drawings of the embodiments will be briefly described below, and it is obvious that the drawings in the following description only relate to some embodiments of the present invention, and are not intended to limit the present invention.

FIG. 1 is a schematic view of tissue.

Fig. 2 is a schematic view of the three-dimensional structure of the anorectal stapler in the embodiment of the present invention, wherein the clamping assembly is in the clamping state, and the staple and the cutter are respectively in the state of waiting for staple ejection and the state of waiting for cutter ejection.

Fig. 3 is a schematic cross-sectional view of the anorectal stapler of fig. 2.

Fig. 4 is an enlarged view of the X1 portion of fig. 3.

Fig. 5 is a schematic view of the anorectal stapler of fig. 3 after the push button has been advanced to push out the staple and knife.

Fig. 6 is an enlarged view of the X2 portion of fig. 5.

FIG. 7 is a schematic view of the first portion of the anorectal stapler of FIG. 2 after the push button has been retracted to an extreme position.

FIG. 8 is a schematic view of the second portion of the anorectal stapler of FIG. 2.

FIG. 9 is a schematic view of the first portion of the anorectal stapler of FIG. 2 with the clamping assembly in an undamped condition.

Fig. 10 is an enlarged view of the X3 portion of fig. 9.

FIG. 11 is a schematic view of the first portion of the anorectal stapler of FIG. 2 in a clamped state in the clamping assembly.

Fig. 12 is an enlarged view of the X4 portion of fig. 11.

FIG. 13 is a top view of the staple knife push plate of FIG. 11 with the plate removed.

Fig. 14 is an enlarged view of the X5 portion of fig. 13.

Fig. 15 is an exploded view of the anorectal stapler of fig. 2.

Fig. 16 is a partially enlarged view of fig. 15.

Fig. 17 is a schematic structural view of a cutter according to an embodiment of the present invention.

FIG. 18 is an illustration of the use of a straight cutting blade to cut hemorrhoidal tissue.

FIG. 19 is a schematic view of the hemorrhoid tissue structure of FIG. 18 after the cutting is completed.

Fig. 20 is a diagram showing the use of the cutter of the embodiment of the present invention to cut thin hemorrhoidal tissues.

FIG. 21 is a schematic view of the hemorrhoid tissue structure after completion of the cutting action of FIG. 20.

Fig. 22 is an illustration of the use of a cutter in accordance with an embodiment of the present invention to cut thick hemorrhoidal tissue.

FIG. 23 is a schematic view of the hemorrhoid tissue structure after completion of the cutting action of FIG. 22.

Description of reference numerals:

1000-first part, 2000-second part;

1001-first front end, 2001-second front end;

100-hemorrhoid tissue, 200-anorectum, 300-human body;

101-a connecting part of a hemorrhoid tissue cutting section and an uncut section, and 102-a cutting seam between the hemorrhoid tissue cutting section and the uncut section;

d 1-first direction, d 2-second direction, d 3-third direction, d 4-fourth direction;

1-anastomotic nail, 2-cutter, 3-fixed holder, 4-movable holder, 5-clamping actuator, 6-first shell, 7-nail knife push plate, 8-nail knife actuator, 9-second shell, 10-push block, 11-first connecting rod, 12-second connecting rod, 13-third connecting rod, 14-driving belt, 15-push rod, 16-sliding pin, 17-safety bolt, 18-extension rod, 19-rolling shaft and 20-rolling wheel;

4 a-nail outlet hole, 4 b-cutter outlet hole;

6 a-handle, 6 b-clamping groove and 6 c-push button guiding hole;

7 a-nail pushing part, 7 b-knife pushing part;

9 a-jack, 9 b-rib, 9 c-guide groove;

10 a-chute, 10 b-bevel;

1501-front rod, 1502-rear rod, 15 a-push rod guide hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solutions of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention. It will be understood that some of the technical means of the various embodiments described herein may be replaced or combined with each other without conflict.

In the description of the present invention and in the claims, the terms "first", "second", and the like, if any, are used only for distinguishing the described objects, and do not have any sequential or technical meaning. Thus, an object defined as "first," "second," etc. may explicitly or implicitly include one or more of the object. Also, the use of the terms "a" or "an" and the like, do not denote a limitation of quantity, but rather denote the presence of at least one of the two, and "a plurality" denotes no less than two. The said "plurality" of the utility model means that no less than two.

In the description of the present invention and in the claims, the terms "connected," "mounted," "fixed," and the like are used broadly unless otherwise indicated. For example, "connected" may be a separate connection or may be integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the foregoing terms in the present invention can be understood by those skilled in the art as appropriate.

In the description of the present invention and in the claims, if there is an orientation or positional relationship indicated by the terms "upper", "lower", "horizontal", etc., based on the orientation or positional relationship shown in the drawings, it is only for the convenience of clearly and simply describing the present invention, and it is not intended to indicate or imply that the elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and that these directional terms are relative concepts, for the description and clarification relative, and may be changed accordingly depending on the orientation in which the components are placed in the drawings. For example, if the device in the figures is turned over, elements described as "below" other elements would then be oriented "above" the other elements.

In the description of the present invention and in the claims, the terms "based on" and "according to," if any, are used to describe one or more factors that affect the determination. The term does not exclude additional factors that influence the determination. That is, the determination may be based solely on these factors or at least partially on these factors. For example, the phrase "determining a based on B," in which case B is a factor that affects the determination of a, such phrases do not exclude that the determination of a may also be based on C.

In the description of the present invention and in the claims, the term "responsive to", if any, is generally interchangeable with "if" or "when …" or "when …", depending on the context. Thus, depending on the context, the phrase "in response to determination …" may generally be interpreted as "if … is determined" or "if … is detected" or "upon determination …" or "upon detection …" or "in response to detection …". "in response" is used to indicate a causal relationship, e.g., "execute E in response to D" indicates that a causal relationship exists between the execution of E and the occurrence of D, but does not exclude that other conditions may exist for the execution of E.

In the description of the present invention and in the claims, if the term "configured to" is present, it is generally interchangeable with "… capable" or "designed to" or "for" or "capable", depending on the context.

In the description of the present invention and in the claims, the term "module", if any, is software and/or hardware that may implement a predetermined function, depending on the context. Although "modules" are preferably implemented in software, implementations in hardware, or a combination of software and hardware are also possible and contemplated.

Embodiments of the present invention will now be described with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solutions of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention. It will be understood that some of the technical means of the various embodiments described herein may be replaced or combined with each other without conflict.

In the description of the present invention and in the claims, the terms "first", "second", and the like, if any, are used solely to distinguish one element from another, without any sequential or technical meaning. Thus, an object defined as "first," "second," etc. may explicitly or implicitly include one or more of the object. Also, the use of the terms "a" or "an" and the like, do not denote a limitation of quantity, but rather denote the presence of at least one of the two, and "a plurality" denotes no less than two. The said "plurality" of the utility model means that no less than two.

In the description of the present invention and in the claims, the terms "connected," "mounted," "fixed," and the like are used broadly unless otherwise indicated. For example, "connected" may be a separate connection or may be integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the foregoing terms in the present invention can be understood by those skilled in the art as appropriate.

In the description of the present invention and in the claims, if there are any terms such as "upper", "lower", "horizontal", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, it is merely for convenience of clearly and concisely describing the present invention, and it is not intended to indicate or imply that the elements so referred to must have a particular orientation, be constructed and operated in a particular orientation, and that these directional terms are relative terms, which are used for descriptive and clarifying purposes, and may be changed accordingly depending on the orientation in which the components in the drawings are placed. For example, if the device in the figures is turned over, elements described as "below" other elements would then be oriented "above" the other elements.

In the description of the present invention and in the claims, the terms "based on" and "according to," if any, are used to describe one or more factors that affect the determination. The term does not exclude additional factors that influence the determination. That is, the determination may be based solely on these factors or at least partially on these factors. For example, the phrase "determining a based on B," in which case B is a factor that affects the determination of a, such phrases do not exclude that the determination of a may also be based on C.

In the description of the present invention and in the claims, the term "configured to" if present, is generally interchangeable with "… capability" or "designed for" or "capable of", depending on the context.

Embodiments of the present invention will now be described with reference to the accompanying drawings.

Figures 2 and 3 show an anorectal stapler for excising haemorrhoidal tissue in the anorectum of a patient. Like some conventional anorectal staplers, this anorectal stapler also has a head which, in use, extends partially or fully into the anorectum of the patient. The head has a length dimension extending in the first direction d1, or the head projects forward from the stapler body along the first direction d1. The head is provided with: in use, the clamping assembly clamps hemorrhoidal tissue in a second direction d2, moves staples 1 in a third direction d3 to staple the hemorrhoidal tissue, and moves a cutter 2 in a fourth direction d4 to excise the hemorrhoidal tissue. In use, the head of the stapler is inserted into the anorectal tract of the patient substantially along the first direction d1, and, in combination with external operations, the hemorrhoid tissue is subjected to the related treatments by means of the related elements provided on the head.

In the present embodiment, the second direction d2 is substantially perpendicular to the first direction d1.

It will be appreciated that when the head of the stapler is inserted into the affected part of the anorectum, the length of the affected part of the anorectum will be arranged along the length of the head of the stapler, i.e. the first direction d1. In most cases, a sheath for expanding the anorectal section to be operated is placed in the anorectal section in advance, and the length of the sheath and the length of the anorectal section of the affected part are along the first direction d1. Then a second direction d2, which is substantially perpendicular to the first direction d1, is substantially perpendicular to the anorectal length. The utility model discloses the background art has already explained: the hemorrhoidal tissue 100 within the anorectum is generally an elongated structure extending along the length of the affected part anorectum, the length of the hemorrhoidal tissue 100 in the first direction d1 being several times its width in the second direction d2.

When the stapler is used, after the insertion depth of the head of the stapler is in place, the angle of the head clamping assembly is adjusted to align the head clamping assembly with the hemorrhoidal tissue 100 to be excised in the anorectum, and then the hemorrhoidal tissue 100 is clamped in the width direction of the hemorrhoidal tissue 100, so that preparation is provided for the stapling and excision of the hemorrhoidal tissue. Thereafter, by operating, the staples 1 are moved in the third direction d3 to staple the clamped hemorrhoidal tissue 100, and the cutting knife 2 is moved in the fourth direction d4 to cut off the stapled hemorrhoidal tissue 100 located outside the staples.

Since the width dimension of the hemorrhoidal tissue 100 is smaller than the length dimension, when the clamping assembly clamps the hemorrhoidal tissue 100 in the width direction (second direction d 2) of the hemorrhoidal tissue, the patient's pain is less than in the conventional solution of clamping the hemorrhoidal tissue in the length direction (first direction d 1), and clamping a small width of the hemorrhoidal tissue 100 in the width direction is easier to handle.

As shown in fig. 4, 6, 10, 12 and fig. 3, 5, 7, 9 and 11, in the present embodiment, the clamping assembly includes a fixed clamping seat 3 and a movable clamping seat 4 which are matched with each other, and the movable clamping seat 4 and the fixed clamping seat 3 are arranged in the second direction d2. The clamping action of the clamping assembly is driven by a manually operated clamping actuator 5. The clamping actuating piece 5 is connected with the movable clamping seat 4 through a first transmission component. In use, the operator manually actuates the clamping actuator 5, and the clamping actuator 5 drives the movable clamping base 4 to move towards the fixed clamping base 3 through the first transmission assembly, so as to clamp and fix the hemorrhoid tissue 100 to be excised between the movable clamping base 4 and the fixed clamping base 3 along the second direction d2.

In order to facilitate the operation and the installation of the related components, the anorectal stapler of the embodiment is further provided with a first shell 6 with a handle 6 a. The gripping actuator 5 is embodied as a trigger having a first end, i.e. the upper end in fig. 3, extending into the first housing 6 and being pivotally connected to the first housing 6 and a second end, i.e. the lower end in fig. 3, extending outside the first housing 6 for manual operation. An extension rod 18 extending forward in the first direction d1 is fixedly connected to the first housing 6, and the movable holder 4 is integrally fixed to a front end portion of the extension rod 18.

Referring again to fig. 3, the first transmission assembly is mainly composed of a first link 11, a second link 12, a third link 13, and a transmission belt 14. Wherein: the first link 11 extends in the first direction d1, and the left end of the first link 11 in fig. 3 is fixed to the movable holder 4. A first end, i.e., an upper end in fig. 3, of the second link 12 is pivotally connected to the first link 11, and a second end, i.e., a lower end in fig. 3, is pivotally connected to the first housing 6. A first end, i.e. the upper end in fig. 3, of the third link 13 is pivotally connected to the first link 11, and a second end, i.e. the lower end in fig. 3, is pivotally connected to the first housing 6. A drive belt 14 connects a first end of the trigger and a second end of the third link 13. When the first end of the trigger is rotated, the second end of the third link 13 is driven to rotate by the transmission belt 14.

When the device is used, the trigger in fig. 9 is pulled, so that the first end of the trigger rotates anticlockwise around the switching part between the first end of the trigger and the first shell 6, the second end of the third connecting rod 13 is driven to rotate anticlockwise through the transmission belt 14, and the first connecting rod 11 is driven to move leftwards and move downwards. The movable holder 4 fixed to the left end of the first link 11 is pressed against the fixed holder 3 to clamp and fix the hemorrhoidal tissue between the movable holder 4 and the fixed holder 3, as shown in fig. 11.

To prevent the transmission belt 14 from slipping during operation, a gear body may be provided at the first end of the trigger and the second end of the third link 13, respectively, and correspondingly, the transmission belt 14 may be provided as a toothed belt structure in meshing connection with the two gear bodies.

In order to allow the cartridge 4 to move back automatically in figure 11 after the user releases the trigger, the present embodiment is also provided with a return torsion spring, not shown, connected between the first end of the trigger and the first housing 6. The return torsion spring applies a clockwise spring force to the first end of the trigger in fig. 3. Obviously, the aforementioned return torsion spring may be disposed at other positions, for example, between the second end of the second link 12 and the first housing 6, or between the second end of the third link 13 and the first housing 6.

Furthermore, a locking element can be arranged on the first transmission assembly, so that the movable clamp seat 4 and the fixed clamp seat 3 can be locked in a clamping state, and the gripping force of a user on the trigger is released. When the movable clamping seat 4 needs to return, the locking element is unlocked. The locking element may take various configurations known to those skilled in the art and will not be described in detail herein.

Referring to fig. 4, 6, 10, 12 and 14 again, the movable clamping seat 4 is provided with a plurality of nail holes 4a and a cutter hole 4b. Among them, the staple discharging holes 4a are used to receive the staples 1 and guide the staples 1 to move along the third direction d3, and the knife discharging holes 4b are used to receive the staples 1 and guide the knife 2 to move along the fourth direction d4. It can be seen that the movable clamp holder 4 has substantially the same structure and function as a cartridge in a conventional stapler, and is used for clamping the hemorrhoidal tissue and guiding the stapling direction and the cutting direction of the staples 1 and the cutting knife 2, so that the movable clamp holder 4 can also be referred to as a cartridge. The fixed clamping seat 3 is similar to a nail abutting seat in the traditional anastomat.

Those skilled in the art will appreciate that the nail hole 4a and the cutter hole 4b may have various configurations to achieve the above-described functions. For example, the nail hole 4a is a hole penetrating through the movable holder 4 in the third direction d3, and the cutter hole 4b is a hole penetrating through the movable holder 4 in the fourth direction d 4; for another example, only a part of the hole segments of the nail outlet hole 4a is arranged to extend in the third direction d3, and only a part of the hole segments of the cutter outlet hole 4b is arranged to extend in the fourth direction d4.

The hemorrhoidal tissue 100 is clamped and folded in the second direction d2, so that the dimensions of the hemorrhoidal tissue 100 in the clamped state in the second direction d2 are smaller. If the staples 1 staple the hemorrhoidal tissue in the clamping direction of the hemorrhoidal tissue 100, the stapling force exerted on the hemorrhoidal tissue during the stapling operation is small, which is not only easy to implement, but also the secondary deformation of the clamped hemorrhoidal tissue and the degree of pain of the patient during the stapling process are small. Thus, the present embodiment sets the stapling direction of the staples 1, i.e., the third direction d3, substantially parallel to the second direction d2, i.e., the stapling direction of the staples 1 substantially coincides with the clamping movement direction of the clamping assembly.

In addition, in order to simplify the structural design of the stapler and improve the structural compactness of the stapler, the cutting movement direction of the cutter 2, i.e. the fourth direction d4, is also set to be substantially parallel to the second direction d2 in the embodiment. It can be seen that the second direction d2, the third direction d3 and the fourth direction d4 are substantially the same direction and are all substantially perpendicular to the protruding direction of the stapler head, the first direction d1.

In order to facilitate the surgical personnel to push out the staple outlet hole 4a and the knife outlet hole 4b of the staple 1 and the cutter 2 from the driven holder 4, the present embodiment is further provided with a staple knife push plate 7, a staple knife actuating member 8, and a second transmission assembly connecting the staple knife actuating member 8 and the staple knife push plate 7. Wherein:

referring to fig. 4 and 6 in combination with fig. 3 and 5, the staple knife pushing plate 7 is disposed on a side of the movable holder 4 facing away from the fixed holder 3 in the second direction d2, and the staple knife pushing plate 7 and the fixed holder 3 are respectively disposed on two opposite sides of the movable holder 4 in the second direction d2. A manually operated staple knife actuator 8 is operatively connected to the staple knife push plate 7 by a second transmission assembly. In use, the staple knife actuating member 8 is manually actuated, and the staple knife actuating member 8 drives the staple knife pushing plate 7 to move towards the movable clamping seat 4 through the second transmission assembly, so that the staples 1 and the cutting knife 2 are respectively pushed out from the staple outlet hole 4a and the knife outlet hole 4b. It can be seen that the movement of the staples 1 and the knife 2 is driven by the same set of components.

In order to ensure the smooth implementation of the cutting operation, the hemorrhoid tissue needs to be stapled first, and then the stapled hemorrhoid tissue needs to be cut off. The staple discharging operation of the staple 1 precedes the knife discharging operation of the knife 2. Thus, the present embodiment makes such a design for the staple-cutter push plate 7:

referring again to fig. 4, 6, 10 and 12, the staple pusher plate 7 includes a pusher portion 7b and a staple pushing portion 7a, wherein the staple pushing portion 7a is formed to protrude from the pusher portion 7b toward the movable holder 4. The nail pushing part 7a operatively extends into the nail hole. Thus, in the process of moving the staple knife pushing plate 7 toward the movable jaw 4, the staple pushing portion 7a contacts and pushes the staple 1 first, and then the knife pushing portion 7b contacts and pushes the cutting knife 2. The plurality of staple pushing portions 7a are provided to push the plurality of staples 1, respectively.

Preferably, the nail pushing part 7a always extends into the nail outlet hole 4a both when the nail is pushed and when the nail is not pushed, so as to reduce the possibility that the nail pushing part 7a cannot smoothly enter the nail outlet hole to push the nail due to the nail pushing operation, as shown in fig. 4 and 10.

In this embodiment, the knife actuator 8 is a push button that is movable in a first direction d1. The second transmission assembly mainly comprises a push block 10 and a push rod 15. Wherein: the push block 10 is disposed on a side of the staple-cutter push plate 7 facing away from the movable holder 4 in the second direction d2, that is, the push block 10 and the movable holder 4 are respectively disposed on two opposite sides of the staple-cutter push plate 7 in the second direction d2. As mentioned above, the third direction d3 and the fourth direction 4 are substantially parallel to the second direction d2, so that the push block 10 and the movable holder 4 are also disposed on two opposite sides of the staple pushing plate 7 in the third direction d3 and the fourth direction d4, respectively. Moreover, the push block 10 is formed with a diagonal groove 10a arranged to intersect the first direction d1, that is, the extending direction of the diagonal groove 10a intersects the first direction d1.

The push rod 15 extends in the first direction d1, has a rear end fixedly connected to a push button as the staple-knife actuator 8, and has a front end pivotally connected to a roller 19 movably inserted in the inclined groove 10 a. When the push button is moved forward in the first direction d1, the roller 19 rolls along the inclined groove 10a and presses the push block 10 toward the staple pusher plate 7. The roller 19 and the chute 10a are in rolling fit instead of sliding fit, so that the friction force is small, and the push block 10 moves more smoothly.

As shown in fig. 4 and 6, in order to reduce the possibility that the roller 19 is stuck in the chute 10a to be difficult to move during use, the present embodiment further has a roller 20 having a diameter larger than that of the roller coaxially attached to the roller 19. Correspondingly, a bevel 10b is provided on the pusher 10, which cooperates in contact with the aforesaid roller 20 and is arranged parallel to the chute 10 a. When the push rod 15 is moved to the left in fig. 4, the roller 20 has come into contact with and pressed the inclined surface 10b downward while the roller 19 has not yet come into contact with or slightly comes into contact with the lower groove wall of the inclined groove 10a downward, so that the push block 10 is pushed downward mainly by the roller 20. That is, the downward movement of the pushing block 10 in fig. 4 is mainly achieved by the pressing force of the roller 20 to the inclined surface 10b, not the pressing force of the roller 19 to the inclined groove 10 a. In this case, the mutually cooperating chute 10a and roller 19 are mainly used to define the connection between the push rod 15 and the push block 10, preventing the push block 10 from being detached from the push rod 15, while the roller 19 only plays the role of movably connecting the push rod and the push block, which can be replaced by a "connecting shaft" without "rolling" function. In other embodiments, the inclined surface 10b may be provided only on the push block 10 without the inclined groove 10a, and correspondingly, the roller 20 engaged with the inclined surface 10b is provided at the front end of the push rod 15.

Two rollers 19 and two chutes 10a are provided. The second housing 9 is further provided with a guiding structure for limiting the push block 10 to move only along the second, third or fourth direction, for example, in fig. 8, the second housing 9 is integrally formed with a guide groove 9c in contact fit with the push block 10, and the groove depth of the guide groove 9c extends in the second direction.

The stapler is further provided with a second housing 9 connected to the first housing 6. The push rod 15 is movably connected with the second housing 9 in a manner that the push rod can move along the first direction d1, so that the moving direction of the push rod 15 is better defined. Specifically, the method comprises the following steps: the push rod 15 is formed with a long push rod guide hole 10a extending in the first direction d1, and the second housing 9 is connected with a slide pin 16 movably inserted in the push rod guide hole 15a.

Further, the sliding pins 16 are configured with two in total to better define the matching angle of the push rod 15 and the second housing 9.

To prevent the push button as the staple knife actuator 8 from moving to the left in fig. 2, which is not subjective, resulting in accidental staple ejection and accidental knife ejection, the present embodiment is provided with the following safety structure:

the second housing 9 is formed with an insertion hole 9a extending in a direction perpendicular to the first direction d1. A safety pin 17 is removably inserted into the insertion hole 9a and the push rod guide hole 15a of the push rod 15. When in the aforementioned assembled condition, safety latch 17 defines the limit of forward travel of pusher 15, preventing staple 1 or knife 2 from being pushed out without the need for both ejection and knife ejection. When it is desired to staple and cut the hemorrhoidal tissue, the safety catch 17 is withdrawn.

If the staple knife push plate 7 is completely independently disposed at the side of the movable jaw 4, the staple knife push plate 7 is easily dropped and lost from the movable jaw 4 after the second part 2000 of the stapler is separated from the first part 1000. Therefore, the nail knife push plate 7 is movably connected with the movable clamping seat 4 in the embodiment.

It can be understood that, when the clamping assembly is in the unclamped state, the larger the distance between the movable clamp holder 4 and the fixed clamp holder 3 in the second direction d2 is, the more the hemorrhoid tissue 100 with a larger width can be clamped, so that the operation range of the anorectal stapler is increased. However, the radial dimension of the anorectum is limited, so that the distance between the movable clamp holder 4 and the fixed clamp holder 3 cannot be increased without any limit. As mentioned above, the push block 10 is disposed on the side of the nail cutter push plate 7 facing away from the movable clamping seat 4 in the second direction d2, so that the push block 10 occupies the space of the clamping component in the second direction d2, which is not favorable for increasing the distance between the movable clamping seat 4 and the fixed clamping seat 3. Therefore, the present embodiment provides the second housing 9 and the first housing 6 as two independent elements, which are detachably engaged to eliminate the occupation of the relevant space by the pushing block 10, and the following descriptions are specifically provided:

in operation, the second housing 9 with the push block 10 is detached from the first housing 6, and the operator holds only the "remaining part" of the stapler as shown in fig. 4 and inserts the distal end portion (left end portion in fig. 4) of the remaining part into the anal intestine of the affected part of the patient. For convenience of description, the aforementioned "remaining portion" will be referred to as a first portion 1000 of the stapler, and the second housing 9 with the push block 10 will be referred to as a second portion 2000 of the stapler. Before the above steps, a sheath for opening the anorectal section to be operated on can be placed in the anorectal section in advance, and the sheath is provided with a notch for allowing the hemorrhoid tissue to be cut to extend into the sheath from the notch, so that the clamping, stapling and cutting of the hemorrhoid tissue can be facilitated while the operation safety is improved. At this time, since the front end portion of the first portion does not have the push block 10 occupying the space in the second direction d2 (i.e., the radial space of the anorectum), the distance between the movable holder 4 and the fixed holder 3 can be set to be large, so that the hemorrhoidal tissue 100 having a larger width can be clamped and fixed. Then, the hemorrhoid tissue 100 to be cut is aligned with the distance between the movable clamp seat 4 and the fixed clamp seat 3, and the trigger is pulled to make the movable clamp seat 4 and the fixed clamp seat 3 clamp the hemorrhoid tissue 100 in the second direction d2, namely the width direction of the hemorrhoid tissue. At this time, the movable holder 4 and the fixed holder 3 have already approached each other by a certain distance, so that the dimension of the front end of the first part in the second direction d2 is reduced, thereby leaving a sufficient fitting space for the second part. That is, the dimension of the clamping assembly in the second direction d2 in the clamped state at this time < the dimension of the clamping assembly in the second direction d2 in the non-clamped state previously. Thereafter, the second housing 9 is engaged with the first housing 6, and the second portion of the stapler is loaded such that the push block 10 is positioned at a side of the staple knife push plate 7 facing away from the movable jaw 4 in the second direction d2, ready for pushing the staple knife push plate 7.

It can be seen that the second portion of the stapler is loaded after the forward end of the first portion has been extended into the patient's anorectum. In order to ensure that the push block 10 and other elements at the front end part of the second part can smoothly extend into the anorectal cavity in the process of assembling the second part into the first part, so as to ensure the smooth implementation of the operation. The second housing 9 and the first housing 6 adopt the separable connection structure:

as shown in fig. 4 and 5 with reference to fig. 2 and 3, the first housing 6 is provided with a card slot 6b extending in the first direction d1, and the second housing 9 is provided with a card rib 9b extending in the first direction d1. When assembled, the rib 9b of the second housing 9 is pushed forward in the first direction d1 into the notch 6b of the first housing 6, thereby engaging the second housing 9 with the first housing 6. When the card edge 9b is separated, a force is applied to withdraw the card edge from the card slot 6b in the first direction d1.

If the push rod 15 and the push button as the staple knife actuator 8 are both attached to the second housing 9, they will be removed and inserted together with the second housing 9 during use, resulting in a larger number of parts and a larger size of the second part. This is inconvenient for the use of the anorectal stapler and has certain design difficulty. Therefore, the present embodiment will further optimize the structure of the anorectal stapler as follows:

the first housing 6 is formed with an elongated push button guide hole 6c extending in the first direction d1, and a push button as the driver 8 is slidably connected to the push button guide hole 6c. The push rod 15 is composed of a front rod 1501 and a rear rod 1502 which are detachably connected, and the front rod 1501 and the rear rod 1502 are arranged in the first direction d1 and both extend along the first direction d1. The push rod guide hole 15a is specifically disposed on the front rod 1501. Thus, the front lever 1501 is connected to the second housing 9 via the push lever guide hole 15a and the slide pin 16. The rear rod 1502 is secured to a push button as the staple knife actuator 8, thereby connecting the rear rod 1502 to the first housing 6.

It can be seen that the push button as the staple knife actuator 8 and the rear rod 1502 of the push rod 15 belong to the above-mentioned first part of the stapler. The front body 1501 of the push rod 15 belongs to the above-mentioned second part of the stapler. When the second housing 9 is detached from the first housing 6, the front rod 1501 and the push block 10 are detached together with the second housing 9, and the rear rod 1502 and the push button remain on the first housing 6.

In order to protect the rear rod 1502 of the push rod 15 after the second portion is detached, the rear rod can be completely received in the first housing 6. In this embodiment, the push button guiding hole 6c is lengthened backward, so that the rear rod 1502 can be completely locked inside the first housing 6 after the push button is moved backward to the extreme position.

To better accommodate the hemorrhoid cutting procedure, the depth of insertion of the stapler head into the body (including the depth of insertion of the first portion nose and the depth of insertion of the second portion nose) is generally not less than 35mm. Therefore, the length of the push button guide hole 6c in the first direction d1 should not be less than 35mm, preferably 50 to 100mm. It is intended to ensure: when the push button is moved to the right in fig. 2 to the extreme position and the front rod 1501 of the second portion is connected to the rear rod 1502 of the first portion, the distance between the front end of the second portion and the front end of the first portion in the first direction d1 is not less than the depth of the first portion inserted into the body.

The anorectal stapler can be integrally drawn out of a human body when the anorectal stapler is assembled at the first part and the second part. However, as can be seen from the above description, in this embodiment the second housing 9 can be removed from the first housing 6 in such a way that it is pushed backwards in the first direction d1 (to the right in fig. 3), so that the first and second parts of the anorectal stapler can be withdrawn from the patient one after the other, which expands the usage of the anorectal stapler.

In this embodiment, the push rod 15 and the extension rod 18 are both of a slender plate-like structure, and the cross sections of the push rod and the extension rod are rectangular.

As shown in fig. 16, in the present embodiment, the front rod 1501 and the rear rod 1502 are detachably connected in this way: the rear end of the front rod 1501 is formed with a tab 1501a, the front end of the rear rod 1502 is formed with a catch hole 1502a adapted to the tab 1501a, and the tab 1501a is detachably connected to the catch hole 1502 a.

The hemorrhoidal tissue 100 within the anorectum is generally curved in shape, and some hemorrhoidal tissues 100 have an excessive length. For such a hemorrhoid tissue 100 with a large length and/or a curved shape, one-time excision is not possible, and multiple excision segments are required. When the hemorrhoid tissue 100 is cut off in sections, if the cutter 2 with a straight structure is adopted, the pain and the bitterness of the patient are increased, and the operation difficulty is increased. This is mainly due to the difficulty of a straight cutter cutting each surgical section completely, and the large connecting area between the anterior segment tissue and the tissue body that is not completely cut, which can seriously interfere with the cutting of the next surgical section, as shown in fig. 18 and 19. Therefore, the structure of the cutter 2 is optimally designed in the embodiment as follows:

as shown in fig. 17 with reference to fig. 14 and 16, the cutter 2 is viewed in the second direction d2 and is approximately L-shaped. Specifically, the cutter 2 includes: a first blade segment 2a extending substantially along the first direction d1, and a second blade segment 2b bent and protruding from a front end of the first blade segment. The term "bent" as used herein in "bent out" may be interpreted as "angled".

As shown in fig. 20 and 21, the cutter 2 having a specific angle section in the L-shaped structure has a cutting edge, i.e., the second cutter section 2b, in the thickness direction of the hemorrhoidal tissue 100, so that it can completely cut off each surgical section of the hemorrhoidal tissue 100, thereby not only reducing the pain of the patient, but also facilitating the operation. If the thickness of the hemorrhoidal tissue 100 is larger, although the L-shaped cutter 2 cannot completely cut off a small section of tissue, the connection area between the tissue which is not separated after cutting and the tissue body is small, so that the previous section of tissue can be easily pulled away, and the next section of tissue can be conveniently cut, as shown in fig. 22 and 23.

In order to maximize the cutting thickness of the second blade section 2b in relation to the hemorrhoid tissue 100, in the case of a limited length dimension of the second blade section 2b, the direction of extension of the second blade section 2b (i.e., the direction in which the first blade section is bent "out") is not only substantially perpendicular to the first direction d1, but also substantially perpendicular to the fourth direction d4.

The present embodiment provides the cutting blade 2 as a sheet-like structure substantially parallel to the fourth direction d2, so that the cutting blade 2 can be better guided to move along the fourth direction d4 when in use.

In order to facilitate the processing and manufacturing of the cutting knife 2, more importantly, in order to reduce the risk of cutting by mistake during the operation, the first cutting section 2a and the second cutting section 2b are in arc transition connection in the embodiment.

It will be understood that, in the case of a sufficiently large radial space of the anorectum in which the hemorrhoidal tissue is to be cut, the greater the dimension of the second segment 2b of the cutting blade 2 in the direction of extension, the easier it is for a single cutting action to completely cut off the hemorrhoidal tissue. However, the radial space of the anorectal is limited and the dimension of the second blade section 2b in the protruding direction is therefore limited. The space of the anorectal in the length direction is larger than the radial space, so that the first section 2a of the cutter 2 can be arranged to be relatively long, and the hemorrhoid tissues which are as long as possible can be cut off in a single time on the premise of ensuring the operation quality. Therefore, the present embodiment sets the dimension of the second segment 2b in the projecting direction thereof to be smaller than the dimension of the first segment 2a in the first direction d1.

It will be appreciated that the anorectal stapler is able to handle large widths of hemorrhoid tissue 100 as long as the first and second portions of the anorectal stapler are able to move relatively in the first direction d1 and have a sufficiently large movement stroke, and there is no requirement that the first and second portions must be able to separate from each other.

In the present embodiment, the "length", "width" and "thickness" of the hemorrhoidal tissue 100 can be respectively interpreted as "the dimension of the hemorrhoidal tissue in the length direction of the anal intestine", "the dimension of the hemorrhoidal tissue in the circumferential direction of the anal intestine" and "the dimension of the hemorrhoidal tissue in the radial direction of the anal intestine".

It should be noted that the cutting blade 2 is configured to cut the hemorrhoidal tissue 100 in a third direction d3 substantially perpendicular to the first direction d1, but it is not necessarily required that the clamping member is configured to be in the second direction d2 substantially perpendicular to the first direction d1. If the tissue to be excised, which is already ready (e.g. clamped and stapled), has a certain size in the first direction d1, it is possible to achieve an advantageous effect close to the one described above when it is excised with the above-described L-shaped cutter 2.

It should be noted that, for the anorectal intestine with a very limited operation space, the pushing block 10 for pushing the nail knife pushing plate, which occupies a space, is provided as an after-installation structure, so that after the stapler body clamps and fixes the tissue to be excised so as to vacate a corresponding space, the vacated space is used to install the pushing block 10 to push the nail knife pushing plate, and the anorectal intestine stapler with other structures may also be applied. The application of this solution does not presuppose that the second direction d2 and the first direction d1 are substantially perpendicular. The aforementioned solution can be applied as long as the clamping direction crosses the extension direction of the stapler head, in order to treat haemorrhoidal tissue having a larger dimension in the clamping direction.

Claims (10)

1. A split anorectal stapler for use in resection of hemorrhoidal tissue (100), characterised in that said anorectal stapler comprises a first and a second part independent of each other, wherein:

said first portion having a first front end portion projecting forward in a first direction (d 1) and projecting into the patient's body substantially along said first direction (d 1) in use, said first front end portion comprising a clamping assembly for clamping said hemorrhoidal tissue (100) in a second direction (d 2), the dimension of said clamping assembly in the clamped state in said second direction (d 2) being < the dimension of said clamping assembly in the undamped state in said second direction (d 2), said second direction (d 2) being transverse to said first direction (d 1);

said second portion having a second front end portion projecting forward in said first direction (d 1) and, in use, projecting into the patient substantially along said first direction (d 1) and cooperating with said first front end portion to staple said hemorrhoidal tissue (100), said second and first portions being configured to: the second portion is engageable with the first portion in a manner to be pushed forward in the first direction (d 1) when the clamping assembly is in the clamped state.

2. The split anorectal stapler of claim 1 wherein the second portion and the first portion are further configured to: the second part can be separated from the first part in such a way as to be pushed backwards in the first direction (d 1).

3. Split anorectal stapler according to claim 1 or 2 wherein said first part comprises a first housing (6) having a handle (6 a) and said second part comprises a second housing (9), said first housing (6) being formed with a catch (6 b) extending in said first direction (d 1) and said second housing (9) being formed with a catch rib (9 b) extending in said first direction (d 1) and detachably engageable with said catch.

4. The split anorectal stapler of claim 3 wherein,

the clamping assembly comprises a movable clamping seat (4) and a fixed clamping seat (3) which are arranged in the second direction (d 2);

the first portion further comprises:

a first transmission assembly, and

a clamping actuator (5) connected to said movable clamp (4) by said first transmission assembly for driving said movable clamp (4) towards said fixed clamp (3) so as to clamp said hemorrhoidal tissue (100) between said movable clamp (4) and said fixed clamp (3) in a second direction (d 2).

5. The split anorectal stapler of claim 4 wherein,

the movable clamping seat (4) is provided with:

a staple exit hole (4 a) for receiving and guiding a movement of staples (1) in a third direction substantially parallel to the second direction (d 2) for stapling the hemorrhoidal tissue (100), and

a knife outlet hole (4 b) for receiving and guiding a knife (2) to move in a fourth direction substantially parallel to the second direction (d 2) for excising the hemorrhoidal tissue (100);

a nail cutter push plate (7) movably connected with the movable clamping seat (4) is arranged on one side, away from the fixed clamping seat (3), of the movable clamping seat (4) in the second direction (d 2);

the second part comprises a push block (10) arranged at the second front end part, and when the first part and the second part are in a joint state, the push block (10) is positioned on the side of the nailing knife push plate (7) departing from the movable clamping seat (4) in the second direction (d 2);

the first part comprises a manual staple knife actuator (8) mounted to the first housing (6), the staple knife actuator (8) being connected to the pusher (10) by a second transmission assembly for driving the pusher (10) towards the staple knife pusher plate (7) when the first part and the second part are in an engaged state.

6. The split anorectal anastomat of claim 5, wherein the push block (10) is formed with a chute arranged to intersect with the first direction (d 1), the staple knife actuator (8) is a push button capable of moving in the first direction (d 1), the second transmission assembly comprises a push rod (15) extending in the first direction (d 1), the push rod (15) is composed of a front rod body (1501) and a rear rod body (1502) which extend in the first direction (d 1) and are detachably connected, the front end of the front rod body (1501) is pivotally connected with a roller (19) movably inserted in the chute (10 a), the front rod body (1501) is formed with an elongated push rod guide hole (15 a) extending in the first direction (d 1), the second housing (9) is connected with a slide pin (16) movably inserted in the push rod guide hole (15 a), and the rear end of the rear rod body (1502) is fixedly connected with the push button.

7. The split anorectal anastomat of claim 6, wherein a clamp (1501 a) is formed at the rear end of the front rod body (1501), a clamping hole (1502 a) matched with the clamp is formed at the front end of the rear rod body (1502), and the clamp (1501 a) is detachably connected with the clamping hole (1502 a).

8. The split anorectal anastomat of claim 7, wherein the first shell (6) is provided with a push button guide hole (6 c) extending in the first direction (d 1), and the push button is movably connected with the push button guide hole (6 c).

9. The split anorectal stapler of claim 8 wherein the length of the push button guide hole (6 c) in the first direction (d 1) is 50-100mm.

10. The split anorectal anastomat of claim 6, wherein the second shell (9) is provided with a jack (9 a) extending in a direction perpendicular to the first direction (d 1), and a safety latch (17) is inserted into the jack (9 a) and the push rod guide hole (15 a) in a withdrawable manner.

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