CN212307914U - Binding clip subassembly and biopsy forceps of biopsy forceps - Google Patents

Abstract

The utility model discloses a binding clip subassembly and biopsy forceps of biopsy forceps. The binding clip assembly comprises a binding clip bracket, a first binding clip, a second binding clip, a limiting piece, a traction mechanism and a riveting piece; the first tong head and the second tong head are oppositely arranged in the long groove of the tong head bracket; the clamp handle of the first clamp head, the clamp handle of the second clamp head and the front end of the traction mechanism are riveted through riveting pieces; the pulling mechanism extends backwards from the tube cavity of the hollow tube of the forceps head bracket; a limiting piece is arranged between the first tong head and the second tong head, and two ends of the limiting piece are respectively fixed to a first support and a second support of the tong head support; the traction mechanism is pushed forwards, and under the action of the limiting piece, the front ends of the first tong head and the second tong head are opened; and (4) pulling the traction mechanism backwards, and closing the first tong head and the second tong head under the limitation of the tong head bracket. The biopsy forceps are simple in structure and convenient to assemble, and small-size biopsy forceps can be realized.

Description

Binding clip subassembly and biopsy forceps of biopsy forceps

Technical Field

The utility model relates to a binding clip subassembly of biopsy forceps relates to a biopsy forceps of using above-mentioned binding clip subassembly simultaneously, belongs to medical instrument.

Background

In recent years, endoscopy has been widely used as a method of assisting diagnosis in clinical medical examinations. When the lesion part in the body of a patient is inspected, the biopsy forceps can extend into the body through the endoscopic forceps channel to clamp the lesion tissue. The endoscope sampling has the advantages of micro trauma and little pain, so the endoscopy is a popular diagnosis method.

With the development of medical technology, the endoscopic and bronchoscopic biopsy technology through the nasal cavity is developed at present, and the human acceptance is higher. To accommodate small-sized lumens, the size of the bioptome needs to be reduced. As the size of the bioptome decreases, higher demands are placed on the structural strength and assembly of the bioptome. However, the existing four-link biopsy forceps have more parts, complex structure and larger size, the size is directly reduced, the structural strength of partial parts cannot be ensured, and the problem of breakage of the hole in the middle of the forceps handle often occurs due to the limitation of the product size and the strength of powder metallurgy injection molding materials because the size of the hole in the middle of the forceps handle is too small, so that the reliability is easy to be unstable.

Disclosure of Invention

The utility model aims to solve the first technical problem that a binding clip subassembly of biopsy forceps is provided.

Another technical problem to be solved by the present invention is to provide a biopsy forceps.

In order to realize the technical purpose, the utility model adopts the following technical scheme:

according to the utility model discloses an aspect provides a binding clip subassembly of biopsy forceps, include: a binding clip bracket, a first binding clip, a second binding clip, a limiting piece, a traction mechanism and a riveting piece,

the forceps head support comprises a hollow pipe, a first support and a second support which are integrally formed, the first support and the second support are oppositely arranged at the front end of the hollow pipe, and a long groove for accommodating the first forceps head and the second forceps head is defined between the first support and the second support;

the first tong head and the second tong head are oppositely arranged in the long groove of the tong head bracket and can move in the long groove;

the rear end of the first tong head, the rear end of the second tong head and the front end of the traction mechanism are riveted through riveting pieces; the pulling mechanism extends backwards from the tube cavity of the hollow tube;

a limiting piece is arranged between the first tong head and the second tong head, two ends of the limiting piece are respectively fixed on the first support and the second support, and the limiting piece is used for limiting the maximum stroke of forward pushing of the traction mechanism;

the traction mechanism is pushed forwards, and under the action of the limiting piece, the front ends of the first tong head and the second tong head are opened; and the traction mechanism is pulled backwards, and the front ends of the first tong head and the second tong head are closed under the limitation of the tong head bracket.

Preferably, the outer diameter of the forceps head support is 1.8-3.0 mm, or the outer diameter of the forceps head support is 0.8-1.2 mm.

Preferably, the first binding clip and the second binding clip respectively comprise a binding clip spoon and a long binding clip handle, and the binding clip spoon and the long binding clip handle are integrally formed; the long tong handle comprises a handle body and a connecting part, and the handle body is used for connecting the tong head spoon and the connecting part;

the width of the tong head spoon is larger than that of the handle body, and the center line of the handle body is superposed with that of the tong head spoon; the handle body is provided with the same arc-shaped cross section along the length direction, and the arc-shaped cross section faces the opening direction of the binding clip spoon;

the width of the handle body is larger than that of the connecting part, and the connecting part is arranged deviating from the axis of the handle body in the width direction; the connecting part protrudes towards the inner side of the handle body, the connecting part is provided with a connecting hole, and the axis of the connecting hole is vertical to the length direction of the long clamp handle.

Preferably, the rear end of the first binding clip and the rear end of the second binding clip are opposite to each other and have an inclined profile.

According to a second aspect of the present invention, there is provided a biopsy forceps, comprising the above forceps head holder, a spring tube, a wire drawing and an operating handle, wherein the front end of the spring tube is fixed to the rear end of the forceps head holder, and the rear end of the spring tube is fixed to the operating handle; the rear end of the traction mechanism is fixed to the front end of the wire drawing, the wire drawing extends backwards from the spring tube, and the rear end of the wire drawing is fixed to the operating handle.

The utility model provides a biopsy forceps, through improving the binding clip subassembly, four-bar linkage has been removed in the binding clip subassembly, only carry out the push-and-pull operation through traction mechanism to the rear end of first binding clip and second binding clip, combine the limiting displacement of locating part and binding clip support, realize opening and shutting of first binding clip and second binding clip, moreover, the steam generator is simple in structure, and convenient for assembly, thereby can be under the prerequisite of guaranteeing structural strength and processing stability, produce the external diameter about 2mm biopsy forceps of even smaller size, make it be suitable for in the lumen of small size (for example, the nasal cavity, the trachea) through and carry out the biopsy operation.

Drawings

Fig. 1 is a schematic view of a biopsy forceps in a closed state according to a first embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of the bioptome of FIG. 1;

FIG. 3 is a schematic view of a biopsy forceps in an open state according to a first embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of the bioptome of FIG. 3;

FIG. 5 is a schematic structural view of a forcep head bracket used in the first embodiment;

fig. 6 is a schematic structural view of a square pin used in the first embodiment;

FIG. 7 is a schematic structural view of a sampling needle used in the first embodiment;

FIG. 8 is a schematic view of the square pin of FIG. 6 and the sampling needle of FIG. 7 in a fixed state;

FIG. 9 is a schematic structural view of a forcep head used in the first embodiment;

FIG. 10 is a schematic structural view of a biopsy forceps provided in a second embodiment of the present invention;

FIG. 11 is a schematic view of the connection of two forceps heads and a pulling mechanism in a biopsy forceps according to a second embodiment;

FIG. 12 is a schematic structural view of a forcep head bracket used in the second embodiment;

FIG. 13 is a schematic structural view of a forcep head used in the second embodiment;

fig. 14 is a schematic structural view of a pulling mechanism used in the second embodiment.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The utility model provides a simple and easy biopsy forceps for the biopsy operation can be carried out through the small-size lumen (for example, the nasal cavity) to the biopsy forceps part reduction, the assembly is simplified and make the whole size of biopsy forceps reduce through the structure of simplifying binding clip subassembly. In the following description, the side of the bioptome near the affected site is referred to as the front end, also referred to as the distal end, and the side of the bioptome near the operating handle is referred to as the rear end, also referred to as the proximal end.

First embodiment

As shown in fig. 1 to 4, the forceps head assembly of the biopsy forceps provided in this embodiment includes a forceps head support 1, a limiting member 2, a first forceps head 3, a second forceps head 4, a rivet 5, and a pulling mechanism.

As shown in fig. 5, the binding clip bracket 1 includes a hollow tube 10, a first bracket 12 and a second bracket 13 which are integrally formed; the hollow tube 10 defines a hollow tube cavity 11, the outer diameter of the hollow tube 10 can be controlled to be between 1.8 mm and 3.0mm (for example, between 2.35 mm and 2.45 mm) or the size of the hollow tube 10 can be corrected according to the specification of the biopsy forceps, the outer diameter of the hollow tube 10 defines the outer diameter of the forceps head bracket 1, and further defines the outer diameter of the forceps head assembly; the axis of the hollow tube 10 is consistent with the axis of the tong head assembly; the first bracket 12 and the second bracket 13 are oppositely arranged at the front end of the hollow pipe 10, a long groove 14 for accommodating the first tong head 3 and the second tong head 4 is defined between the first bracket 12 and the second bracket 13, and the length direction of the long groove 14 is consistent with the axial direction of the hollow pipe 10.

The first binding clip 3 and the second binding clip 4 are oppositely arranged in the long groove 14 of the binding clip bracket 1, and the first binding clip 3 and the second binding clip 4 can move in the long groove 14 of the binding clip bracket 1. The rear end 33 of the first tong head 3, the rear end 43 of the second tong head 4 and the front end of the pulling mechanism are riveted by a riveting member 5 (for example, a rivet) (see fig. 4); the pulling mechanism extends rearwardly from the lumen 11 of the hollow tube 10.

A limiting part 2 is arranged between the first binding clip 3 and the second binding clip 4, and two ends of the limiting part 2 are respectively fixed on the first bracket 12 and the second bracket 13. The limiting piece 2 is used for limiting the maximum stroke of forward pushing of the traction mechanism.

As shown in fig. 1 and 2, by pulling the pulling mechanism backward, the bottom of the long groove 14 forces the front ends of the first binding clip 3 and the second binding clip 4 to close under the limitation of the long groove 14 of the binding clip bracket 2, and meanwhile, during the closing process of the first binding clip 3 and the second binding clip 4, the two sides of the long groove 14 also have a limitation effect on the long handles of the first binding clip 3 and the second binding clip 4, thereby enhancing the stability of the two binding clips. As shown in fig. 3 and 4, by pushing the pulling mechanism forward, the front ends of the first binding clip 3 and the second binding clip 4 are opened under the action of the limiting member 2; when the front end of the traction mechanism abuts against the bottom of the limiting piece 2, the limiting piece 2 prevents the traction mechanism from moving forwards, and the traction mechanism stops pushing forwards. In fig. 2, the extreme position of the pulling mechanism pulled backward is shown, and in fig. 4, the extreme position of the pulling mechanism pushed forward is shown, and it can also be seen that, in the small-sized bioptome, the moving distance of the front end of the pulling mechanism is short and the operation space is narrow.

As shown in fig. 2 to 4, the present embodiment provides a needle biopsy forceps, the forceps head assembly further includes a sampling needle 8, and a rear end of the sampling needle 8 is fixed to a middle portion of the stopper 2. By arranging the sampling needle 8 between the first binding clip 3 and the second binding clip 4, continuous sampling for multiple times can be realized, and samples can be stored on the whole sampling needle 8.

As shown in fig. 5, in the bit holder 1 according to this embodiment, the first holder 12 has a first fixing groove 15 formed at a front end thereof, the second holder 13 has a second fixing groove 16 formed at a front end thereof, the first fixing groove 15 and the second fixing groove 16 are disposed to face each other, a longitudinal direction of the first fixing groove 15 and the second fixing groove 16 is aligned with an axial direction of the hollow pipe 10, and a depth of the first fixing groove 15 and a depth of the second fixing groove 16 are smaller than a depth of the long groove 14. Both ends of the limiting member 2 are fixed to the first fixing groove 15 and the second fixing groove 16, respectively, so that the limiting member 2 is fixed to the front ends of the first bracket 12 and the second bracket 13.

In order to facilitate the fixing of the limiting member 2 and the sampling needle 8, the cross sections of the first fixing groove 15 and the second fixing groove 16 are designed to be rectangular, and the cross section of the limiting member 2 is designed to be rectangular; both ends of the limiting member 2 are respectively put into the first fixing groove 15 and the second fixing groove 16, and then are welded and fixed.

As shown in fig. 6 and 8, a third fixing groove 21 is formed in the middle of the limiting member 2, and the opening of the third fixing groove 21 is forward, so that a larger plane is formed at the bottom of the third fixing groove 21, which is beneficial to fixing the sampling needle 8. The rear end 82 of the sampling needle 8 is fixed in the third fixing groove 21.

The structure of the sampling needle 8 is shown in fig. 7, the sampling needle 8 includes a cylindrical needle body 80 and a conical needle tip 81, and the bottom of the cylindrical needle body 80 (i.e., the rear end 82 of the sampling needle) is fixed in the third fixing groove 21 (see fig. 8). In this embodiment, the needle-type sampling needle 8 is used, so that the insertion and the sample storage in the biopsy operation are facilitated, and the sampling can be performed continuously and repeatedly at the same lesion site without the need for repeated advance and retreat of the forceps.

The first jaw 3 used in this embodiment has a structure as shown in fig. 9, and the second jaw 4 has the same structure as the first jaw 3. The first binding clip 3 and the second binding clip 4 are designed by adopting long forceps handles.

As shown in fig. 9, the first binding clip 3 includes a binding clip spoon 30 and a long handle 31, the binding clip spoon 30 is located at the front end of the first binding clip 3, and the binding clip spoon 30 is connected with the front end of the long handle 31. The binding clip spoon 30 and the long handle 31 are integrally formed, and preferably, the first binding clip 3 and the second binding clip 4 are manufactured by powder metallurgy. Preferably, a window 35 may be provided in the forceps head spoon 30, through which window 35 the tissue stored on the sampling needle 8 may be observed, facilitating the biopsy procedure.

The opening direction of the bit spoon 30 is defined as the inner side, the axial direction of the long handle 31 is defined as the longitudinal direction, and the direction perpendicular to the longitudinal direction of the long handle 31 is defined as the width direction. The long plier handle 31 includes a handle body 32 located at the middle of the first plier head 3 and a connecting portion 33 located at the rear end of the first plier head 3. The handle body 32 is an arc-shaped part with the same width and thickness in the long forceps handle 31, and the handle body 32 is used for connecting the forceps head spoon 30 and the connecting part 33. The connecting portion 33 is provided with a connecting hole 34 for riveting the first binding clip 3 and the pulling mechanism.

The width of the bit spoon 30 is greater than the width of the handle 32, and the center line of the handle 32 coincides with the center line of the bit spoon 30. The handle 32 has a uniform arc-shaped cross-section along the length direction, the arc-shaped cross-section faces the opening direction of the binding clip spoon 30, i.e. faces the inner side of the first binding clip 3, preferably, the handle 32 has a semicircular cross-section. The handle 32 projects outwardly of the bit spoon 30 to form an inwardly facing recess within which a sample may be stored. By extending the length of the shank 32, the storage space for the sample can be increased. Of course, the length of the handle 32 should not be too long in consideration of the space available for the small biopsy forceps.

The width of the handle body 32 is larger than that of the connecting part 33, and the connecting part 33 is arranged by deviating from the axis of the handle body 32; the connecting portion 33 is biased to one side of the shank 32 in the width direction. In this way, when the binding clip scoops 30 of the first binding clip 3 and the second binding clip 4 are oppositely arranged, the two binding clip scoops 30 and the handle body 32 can be aligned and closed by riveting the rear ends of the first binding clip 3 and the second binding clip 4 and the front end of the traction mechanism.

As shown in fig. 9, the connecting portion 33 has the same width and protrudes toward the inside of the handle 32, and the protruding direction of the connecting portion 33 is the same as the opening direction of the bit spoon 31. The connecting portion 33 is provided with a connecting hole 34, and the axis of the connecting hole 34 is perpendicular to the length direction of the first binding clip 3, so that when the first binding clip 3, the second binding clip 4 and the traction mechanism are riveted through the riveting piece 5, the first binding clip 3 and the second binding clip 4 can rotate around the riveting piece 5, and the opening and closing of the binding clip spoon are realized. In this embodiment, the connecting portion 33 is formed in a circular arc shape around the outer contour of the connecting hole 34, so that the structural strength and the processing stability of the small-sized binding clip can be ensured.

In the binding clip assembly provided by the embodiment, the structures of the first binding clip 3 and the second binding clip 4 are improved, so that a pin hole arranged in the middle of the handle body is omitted, the handle body is arranged into a groove capable of accommodating a sample, and the first binding clip 3 and the second binding clip 4 are riveted through a connecting hole at the tail end. The first and second bits 3 and 4 are rotated about the rivet provided at the rear end so that a sample can be stored on the sampling needle 8 between the bit spoon 31 and the handle 32 of the two bits without being restricted by the structure of the bits. In conventional biopsy forceps, which are driven using a four-bar linkage, the forceps head rotates about a pin provided at the handle body, so that a sample can only be stored between two forceps head scoops. Compared with the traditional biopsy forceps, the biopsy forceps certainly greatly increase the storage space of the sample; therefore, the overall size of the forceps head assembly is reduced, and meanwhile, the sample storage space of the forceps head assembly is ensured, so that the requirements of continuous and repeated sampling of small-size biopsy forceps are met.

In addition, in the structure of the tong head, the hole in the middle of the handle is removed, and the connecting hole is arranged at the position of the central shaft of the connecting part at the rear end of the first tong head 3 and the second tong head 4, so that the problem of mechanical strength of the tong heads is effectively solved. Can prevent the clamp head from breaking in the manufacturing and using processes. Moreover, as the overall size of the binding clip assembly is reduced, the force required for forcing the two binding clips to move can be provided only by pushing and pulling the rear ends of the first binding clip 3 and the second binding clip 4 by using the traction mechanism, so that the use requirement of the small-size binding clip bracket is met.

Referring to fig. 2 and 4, the pulling mechanism used in this embodiment includes a pulling rod 6 and a connecting pipe 7, and the length of the pulling rod 6 and the connecting pipe 7 is short. The front end of the cylindrical pull rod 6 is provided with an annular connecting part 60, and the riveting piece 5 penetrates through the annular connecting part 60 to realize riveting of the traction mechanism, the first tong head 3 and the second tong head 4. The cylindrical pull rod 6 is inserted into the front end of the connecting pipe 7 and then fixed to form a traction mechanism.

The forceps head assembly provided by the embodiment is used for manufacturing biopsy forceps, and the biopsy forceps comprise the forceps head assembly, a pull wire, a spring tube and an operating handle. Wherein, the rear end of the connecting pipe 7 is fixed with the front end of a drawing wire (not shown), and the rear end of the drawing wire is fixed to an operating handle; the spring pipe sleeve is arranged outside the drawn wire, the front end of the spring pipe is fixed with the rear end of the forceps head support 1, and the rear end of the spring pipe is fixed to the operating handle to form the biopsy forceps.

Above-mentioned biopsy forceps simplifies through the structure to the binding clip subassembly for the size of whole binding clip portion can reduce, can make the production of the biopsy forceps who uses under the intranasal intracavity speculum can effectual realization, has overcome current biopsy forceps product assembly complicacy, and the part size is little, and intensity reliability is unstable problem. Part of parts are reduced through reasonable structural design, the part optimization of the small-size biopsy forceps can be realized, the assembly difficulty can be reduced to the maximum degree, and the production efficiency is improved. Moreover, by improving the structure of the forceps head, the space for storing samples which cannot be provided by the existing biopsy forceps is provided, so that the function of continuous sampling can be realized.

Second embodiment

As shown in fig. 10 and 11, the forceps head assembly of the biopsy forceps provided by this embodiment includes a forceps head support 201, a limiting member 202, a first forceps head 203, a second forceps head 204, a rivet 205, and a pulling mechanism.

As shown in fig. 12, the forceps head holder 201 includes a hollow tube 210, a first holder 212, and a second holder 213 which are integrally formed; the hollow tube 210 defines a hollow tube cavity 211, the outer diameter of the hollow tube 210 can be controlled to be 0.8-1.2 mm or the size of the hollow tube 210 can be corrected according to different specifications of the biopsy forceps, and the outer diameter of the hollow tube 210 defines the outer diameter of the forceps head bracket 201, and further defines the outer diameter of the forceps head assembly; the axis of the hollow tube 210 is coincident with the axis of the jawarm assembly; the first bracket 212 and the second bracket 213 are disposed opposite to each other at the front end of the hollow tube 210, a long groove 214 for accommodating the first tong head 203 and the second tong head 204 is defined between the first bracket 212 and the second bracket 213, and the length direction of the long groove 214 coincides with the axial direction of the hollow tube 210.

The first and second bits 203, 204 are oppositely disposed in the elongated slot 214 of the bit holder 201, and the first and second bits 203, 204 are movable in the elongated slot 214 of the bit holder 201. The rear end of the first tong head 203, the rear end of the second tong head 204 and the front end of the traction mechanism are riveted through riveting pieces 205; the pulling mechanism extends rearwardly from the lumen 211 of the hollow tube 210.

As shown in fig. 10, a limiting member 202 is disposed between the first binding clip 203 and the second binding clip 204, and both ends of the limiting member 202 are fixed to the first bracket 212 and the second bracket 213, respectively. The limiting member 202 is used for limiting the maximum position of forward pushing of the pulling mechanism, and by pushing the pulling mechanism forward, under the action of the limiting member 202, the front ends of the first tong head 203 and the second tong head 204 are opened; by pulling the pulling mechanism backward, the first and second forcep heads 203, 204 are closed, defined by the elongated slot 214 of the forcep holder 202.

As shown in fig. 12, in the forceps head holder provided in this embodiment, a first circular hole 215 is formed in the first holder 212, a second circular hole 216 is formed in the second holder 213, and two ends of the cylindrical stopper 202 are fixed to the first circular hole 215 and the second circular hole 216, respectively.

The needle-free biopsy forceps provided by the embodiment can realize smaller biopsy forceps by reducing the size of each part in the forceps head assembly, wherein the outer diameter of the forceps head bracket can be controlled to be about 1mm, and the sizes of the first forceps head 203, the second forceps head 204, the limiting part 202 and the riveting part 205 are correspondingly reduced.

The first plier head 203 used in this embodiment has a structure as shown in fig. 13, and the second plier head 204 has the same structure as the first plier head 203. The first and second binding heads 203, 204 are each designed with long handles. The structure of the jaw used in the second embodiment is similar to that used in the first embodiment, but is smaller in size and can only be used for a single sample. In order to meet the requirements of smaller size, the structure of the pliers head used in the second embodiment is different from that used in the first embodiment.

As shown in fig. 13, the first binding clip 203 includes a binding clip spoon 230 and a long handle 231, the binding clip spoon 230 is located at the front end of the first binding clip 203, and the binding clip spoon 230 is connected with the front end of the long handle 231. The bit spoon 230 and the long handle 231 are integrally formed.

The opening direction of the bit spoon 230 is defined as the inner side, the axial direction of the long holder 231 is defined as the longitudinal direction, and the direction perpendicular to the longitudinal direction of the long holder 231 is defined as the width direction. The long jawarm 231 includes a shank 232 at a middle portion of the first jawarm 203 and a connection portion 233 at a rear end of the first jawarm 203. The handle 232 is an arc part with a medium width and a uniform thickness in the long handle 231, and the handle 232 is used for connecting the bit spoon 230 and the connecting part 233. The connecting portion 233 is provided with a connecting hole 234 for riveting the first tong head 203 and the pulling mechanism.

The width of the bit spoon 230 is greater than the width of the handle 232, and the centerline of the handle 232 coincides with the centerline of the bit spoon 230. The handle 232 has the same arc-shaped cross section along the length direction, the arc-shaped cross section faces the opening direction of the binding clip spoon 230, i.e. faces the inner side of the first binding clip 203, preferably, the handle 232 has a semicircular cross section. The handle 232 projects outwardly of the bit spoon 230 to form an inwardly facing recess within which a sample may be stored. By extending the length of the shank 232, the storage space for the sample can be increased. Of course, the length of the handle 232 should not be too long in consideration of the space available for small biopsy forceps.

The width of the handle body 232 is larger than that of the connecting part 233, and the connecting part 233 is arranged to deviate from the axis of the handle body 232; the connecting portion 233 is biased to one side of the shank 232 in the width direction. In this way, when the bit scoops 230 of the first and second bits 203 and 204 are disposed opposite to each other, the two bit scoops and the handle body can be aligned and closed by riveting the rear ends of the first and second bits 203 and 204 and the front end of the pulling mechanism.

As shown in fig. 13, the connecting portion 233 protrudes toward the inside of the handle 232, and the protruding direction of the connecting portion 233 is the same as the opening direction of the bit spoon 231. The connecting portion 233 is provided with a connecting hole 234, and an axis of the connecting hole 234 is perpendicular to a length direction of the first binding clip 203, so that when the first binding clip 203, the second binding clip 204 and the pulling mechanism are riveted by the riveting member 205, the first binding clip 203 and the second binding clip 204 can rotate around the riveting member 205, and the binding clip spoon can be opened and closed. Since the first and second bits 203 and 204 have a small size and the connecting portion 233 has a small size, the size of the connecting hole 234 provided in the connecting portion 233 needs to be greatly reduced, thereby ensuring stability of the bit structure.

In this embodiment, in order to make the first and second bits 203 and 204 adaptable to the small-sized bit holder 201, the connecting portion 233 is provided with an inclined profile toward the inner side, that is, a portion where the rear end of the first bit 203 and the rear end of the second bit 204 face each other has an inclined profile. The movement space required for the connection portion 233 provided with the inclined profile is also reduced during the rotation of the first and second bits 203, 204, relative to a configuration in which the entire profile is circular arc-shaped.

Referring to fig. 14, in order to accommodate the small size of the jawarm bracket and the jawarm and to satisfy the operational stability of the pulling mechanism, the pulling mechanism used in this embodiment includes a filament 206 and a connecting tube 207. The diameter of the filament 206 is in the range of 0.19 to 0.25mm. The filament 206 is folded in half, the middle part of the filament 206 forms an annular connecting part 261, and the filament 206 is connected with the riveting piece 205 through the annular connecting part 261; there are a plurality of connection points between portions 262 and 263 of filament 206 extending from the middle to the ends. Preferably, a connection point 264 is provided at the filament 206 near the annular connection 261, connection points 265 are provided at both ends of the filament 206, and a plurality of connection points 266 are provided between the connection points 264 and the connection points 265.

In the pulling mechanism provided in this embodiment, the end of the filament 206 is fixed by inserting it into one end of the connection tube 207, and then the fixing of the pulling mechanism to the drawing and operating handle is achieved by the connection tube 207.

In this embodiment, by pulling the two bits using the doubled-back filament 206, not only the size of the pulling mechanism is reduced, but also the strength of the pulling action is ensured. The length of the double-folded filament 206 is not less than 60mm (for example, 100mm), and by disposing the connecting tube 207 with a larger diameter at a position farther from the forceps head, a portion with a smaller outer diameter of the biopsy forceps can be ensured to have a longer length, which facilitates the biopsy forceps to extend into and move in a small-sized lumen.

The forceps head assembly provided by the embodiment is used for manufacturing biopsy forceps, and the biopsy forceps comprise the forceps head assembly, a pull wire, a spring tube and an operating handle. Wherein, the rear end of the connecting pipe 207 is fixed with the front end of a drawing wire (not shown), and the rear end of the drawing wire is fixed to an operating handle; the spring pipe sleeve is arranged outside the drawn wire, the front end of the spring pipe is fixed with the rear end of the forceps head support 201, and the rear end of the spring pipe is fixed to the operating handle to form the biopsy forceps.

The biopsy forceps provided by the second embodiment may be made smaller in size than the biopsy forceps provided by the first embodiment, and may accommodate smaller sized lumens (e.g., nasal cavities).

To sum up, the utility model provides a four-bar linkage has been saved in the binding clip subassembly to biopsy forceps, only carries out the push-and-pull operation through traction mechanism to the rear end of first binding clip and the rear end of second binding clip, combines the limiting displacement of locating part and binding clip support, realizes opening and shutting of first binding clip and second binding clip, simple structure, and convenient assembling to can realize small-size biopsy forceps, make it be suitable for and pass through and carry out the biopsy operation in the lumen of small-size.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above has described the forceps head assembly and the biopsy forceps in detail. Any obvious modifications thereto, which would occur to one skilled in the art and which would not depart from the essence of the invention, would constitute a violation of the patent rights and would bear corresponding legal obligations.

Claims (14)

1. A forceps head assembly of biopsy forceps, comprising: a binding clip bracket, a first binding clip, a second binding clip, a limiting piece, a traction mechanism and a riveting piece,

the first support and the second support are arranged oppositely at the front end of the hollow pipe, and an elongated slot for accommodating the first binding clip and the second binding clip is defined between the first support and the second support;

the first tong head and the second tong head are oppositely arranged in the long groove of the tong head bracket and can move in the long groove;

the rear end of the first tong head, the rear end of the second tong head and the front end of the traction mechanism are riveted through the riveting piece; the pulling mechanism extends rearwardly from the lumen of the hollow tube;

the limiting piece is arranged between the first tong head and the second tong head, two ends of the limiting piece are respectively fixed on the first support and the second support, and the limiting piece is used for limiting the maximum stroke of forward pushing of the traction mechanism;

the traction mechanism is pushed forwards, and under the action of the limiting piece, the front ends of the first tong head and the second tong head are opened; and pulling the pulling mechanism backwards, wherein the front ends of the first tong head and the second tong head are closed under the limit of the tong head bracket.

2. The head assembly of biopsy forceps as claimed in claim 1, wherein:

the outer diameter of the forceps head support is 1.8-3.0 mm, or the outer diameter of the forceps head support is 0.8-1.2 mm.

3. The head assembly of biopsy forceps as claimed in claim 1, wherein:

the first support is provided with a first round hole, the second support is provided with a second round hole, and two ends of the limiting part are fixed with the first round hole and the second round hole respectively.

4. The head assembly of biopsy forceps as claimed in claim 1, wherein:

the first support is provided with a first fixing groove, the second support is provided with a second fixing groove, two ends of the limiting part are fixed with the first fixing groove and the second fixing groove respectively, and the depth of the first fixing groove and the depth of the second fixing groove are smaller than that of the long groove.

5. The head assembly of biopsy forceps as claimed in claim 4, wherein:

the cross sections of the first fixing groove and the second fixing groove are rectangular, and the cross section of the limiting piece is rectangular.

6. The head assembly of biopsy forceps as claimed in claim 4, wherein:

the rear end of the sampling needle is fixed with the middle part of the limiting part.

7. The head assembly of biopsy forceps as claimed in claim 6, wherein:

the sampling needle comprises a cylindrical needle body and a conical needle tip.

8. The head assembly of biopsy forceps as claimed in claim 6, wherein:

and a third fixing groove is formed in the middle of the limiting part, and the rear end of the sampling needle is fixed in the third fixing groove.

9. The head assembly of biopsy forceps as claimed in claim 1, wherein:

the first binding clip and the second binding clip respectively comprise a binding clip spoon and a long binding clip handle, and the binding clip spoon and the long binding clip handle are integrally formed; the long plier handle comprises a handle body and a connecting part, and the handle body is used for connecting the plier head spoon and the connecting part;

the width of the forcep head spoon is larger than that of the handle body, and the central line of the handle body is superposed with that of the forcep head spoon; the handle body is provided with the same arc-shaped cross section along the length direction, and the arc-shaped cross section faces the opening direction of the binding clip spoon;

the width of the handle body is larger than that of the connecting part, and the connecting part is arranged off the axis of the handle body in the width direction; the connecting part protrudes towards the inner side of the handle body, the connecting part is provided with a connecting hole, and the axis of the connecting hole is vertical to the length direction of the long clamp handle.

10. The head assembly of biopsy forceps as claimed in claim 1, wherein:

the rear end of the first tong head and the rear end of the second tong head are opposite to each other and have inclined profiles.

11. The head assembly of biopsy forceps as claimed in claim 1, wherein:

the traction mechanism comprises a pull rod and a connecting pipe, an annular connecting part is arranged at the front end of the pull rod, and the pull rod is inserted into the front end of the connecting pipe to be fixed.

12. The head assembly of biopsy forceps as claimed in claim 1, wherein:

the drawing mechanism comprises a filament and a connecting pipe, the filament is folded in half, an annular connecting part is formed in the middle of the filament, and a plurality of connecting points are arranged between parts of the filament extending from the middle to two ends; the rear end of the filament is fixed with the front end of the connecting pipe.

13. The head assembly of biopsy forceps as claimed in claim 12, wherein:

the diameter of the filament is 0.19-0.25 mm, and the length of the filament after being folded is not less than 60 mm.

14. Biopsy forceps comprising the forceps head holder as claimed in any one of claims 1 to 13, and further comprising a spring tube, a pull wire and an operating handle, wherein a front end of the spring tube is fixed to a rear end of the forceps head holder and a rear end of the spring tube is fixed to the operating handle; the rear end of the traction mechanism is fixed to the front end of the pull wire, the pull wire extends backwards from the spring tube, and the rear end of the pull wire is fixed to the operating handle.

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