CN210811217U - Disposable biopsy forceps - Google Patents

Abstract

A disposable biopsy forceps at least comprises the following structures: the forceps head assembly comprises at least two forceps heads of which the distal ends can be opened or closed relatively; the near end of the forceps head is connected with the far end of the forceps base through a connecting piece; the distal end of the control wire is connected with the proximal end of the forceps head assembly to drive the forceps head assembly to open or close, the control wire further comprises a gasket, the distal end side of the gasket is connected with the forceps base through the connecting piece, the proximal end side of the gasket is provided with two extending parts which are oppositely arranged and extend towards the proximal end, an extending channel is formed between the two extending parts, and the distal end of the control wire moves in the extending channel. The biopsy forceps have the technical effects of simple structure, stability and reliability.

Description

Disposable biopsy forceps

Technical Field

The utility model relates to a disposable biopsy forceps, which belongs to a medical device used in human body.

Background

Biopsy forceps are indispensable tools for taking pathological specimens in endoscopy, and are generally used for collecting living tissue samples in human body cavities such as digestive tracts, respiratory tracts and the like. If a contaminated biopsy forceps is used for operation and specimen acquisition, hospital infection will occur, so that disposable biopsy forceps are gradually accepted by people. During use, the disposable biopsy forceps usually need the following operation steps: the control line is actuated through the drive module on the handle, so that the jaw assembly at the far end of the biopsy forceps is driven to be opened, then the forceps head assembly is driven by actuating tools such as an endoscope and the like to align to a tissue to be clamped in a human body cavity, finally the jaw assembly is closed through the actuating control line to clamp the tissue tightly, the biopsy forceps are taken out from an endoscope channel, and therefore biopsy sampling is completed. After sampling, the biopsy forceps are discarded and used for one-time use, so that the possibility of cross infection is avoided. When clamping tissues, two forceps heads in the forceps head assembly are required to be inosculated as much as possible so as to effectively coat the tissues to be detected, meanwhile, a proper amount of tissues are required to be clamped, the damage to excessive tissues is avoided, of course, in the process, the motion structures such as the forceps head assembly and the control line are centered as much as possible so as to reduce the resistance caused by radial deviation, and the flexible use of the biopsy forceps is realized.

The existing biopsy forceps have three main problems:

1. the existing disposable biopsy forceps are connected with the control line head part of the near end by a transition block or a direct riveting mode, the forceps heads are easy to dislocate, the relative positions of the two forceps heads are not easy to fix, the dislocation cannot be automatically corrected, a motion structure in the biopsy forceps is easy to deviate, and the problem points can cause tissue tearing caused by dislocation of the forceps heads when the forceps take samples.

2. In order to ensure that the forceps head is opened and closed smoothly and does not have dislocation, complex welding needs to be carried out on the connection points of the forceps head and the forceps head seat, a large amount of labor and time are consumed, the difficulty of quality control of the biopsy forceps is increased due to high welding requirements, and the defective rate is high.

3. The forceps taking amount of the existing biopsy forceps is not easy to control, and the condition of overlarge forceps taking amount often occurs, so that the risk of injury to a human body is increased.

In view of this, the present invention is especially provided.

SUMMERY OF THE UTILITY MODEL

Complicated, the easy off tracking of binding clip position, assembly difficulty, the too big scheduling technical problem of pincers volume of getting based on prior art exists, the utility model provides a biopsy forceps from coinciding binding clip, moderate sample volume, binding clip rigidity, motion structure placed in the middle, can realize the reliable and stable biopsy forceps of structure, include:

the forceps head assembly comprises at least two forceps heads of which the distal ends can be opened or closed relatively;

the near end of the forceps head is connected with the far end of the forceps base through a connecting piece;

a control wire, the distal end of which is connected with the proximal end of the forceps head assembly to drive the forceps head assembly to open or close,

the clamp is characterized by further comprising a spacer, the distal end side of the spacer is connected with the clamp seat through the connecting piece, the proximal end side of the spacer is provided with two extending parts which are oppositely arranged and extend towards the proximal end, an extending channel is formed between the two extending parts, and the distal end of the control wire moves in the extending channel.

Preferably, the proximal end of the forceps head is an insertion piece structure with a sliding groove, a connecting piece positioned at the distal end of the forceps base is accommodated in the sliding groove, and when the control wire moves back and forth along the longitudinal axis direction of the biopsy forceps, the connecting piece moves along the sliding groove to open or close the forceps head assembly.

Preferably, each near end of the binding clip is provided with two mutually parallel inserting sheet structures with sliding grooves, and the sliding grooves on the two inserting sheet structures are in mirror symmetry; the inserting sheet structures at the near ends of the two oppositely arranged forceps heads are mutually inserted and matched.

Preferably, the distal side of the spacer has a tissue restraint extending distally along the longitudinal axis of the bioptome, the tissue restraint having a radially extending configuration at its distal end.

Preferably, the distal end surface of the radially extending structure is planar, convex or concave, and the shape of the distal end surface is rectangular, circular or elliptical.

Preferably, the proximal end of the forceps holder is provided with a lumen channel, and the control wire is positioned in the lumen channel and extends from the proximal end to the distal end; the far end of the forceps base is symmetrically provided with two forceps base arms extending towards the far end, and the connecting piece connects the gasket and the near end of the forceps head to the forceps base arms.

Preferably, the proximal end of the extension is received within the lumen channel of the forceps holder to limit radial movement of the control wire.

Preferably, the connecting piece is a fixed pin shaft, the gasket far-end side is provided with a gasket pin shaft hole in interference fit with the fixed pin shaft, and the gasket pin shaft hole is open or closed. The utility model discloses well fixed pin axle is the part that has the axial structure wantonly among the prior art, like rivet, screw, dabber etc to can realize being fixed in this part pincers seat for accurate, all belong to fixed pin axle's category in.

Preferably, the distal end of the control line is connected with the proximal end of the binding clip assembly through a drive pin shaft, the distal end of the control line is provided with a control line pin shaft hole in interference fit with the drive pin shaft, each of the proximal ends of the binding clips is provided with a binding clip pin shaft hole in rotational connection with the drive pin shaft, the distal end of the control line is clamped between the proximal ends of the two binding clips, the drive pin shaft radially extends through the binding clip pin shaft hole and the control line pin shaft hole, and the two radial sides of the drive pin shaft protrude out of the outer side surface of the proximal end of the binding clip so as to limit the radial movement of the control line.

Based on the technical scheme, the utility model has the advantages of as follows:

the utility model has the advantages that the structure of the binding clip assembly is simple, the binding clip assembly only comprises at least two self-inosculating binding clips, gaskets and a binding clip structure, and the special structure gasket of the utility model is adopted to realize the relative positioning of the two binding clip assemblies and the radial positioning of the far end of the control line, thereby simplifying the structure on the one hand, reducing the connecting points of anchoring, welding and the like in the structure to the maximum extent, having the advantages of fewer parts, simple structure, precise production and manufacturing process, no need of complex welding process and excessive installation process; on the other hand, the stability of the relative position of the forceps head and the stability of the radial direction of the control wire are realized, the smoothness degree of the biopsy forceps in use is greatly improved, and the use and operation flexibility and the use comfort degree of the biopsy forceps are improved.

To sum up, the utility model discloses a biopsy forceps has supplied one kind from the biopsy forceps of coincide binding clip, moderate sample volume, binding clip rigidity, motion placed in the middle, can realize the reliable biopsy forceps of stable in structure, tears the risk when having reduced clinical forceps sample, reduces the amount of bleeding, shortens the operation time.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of a disposable biopsy forceps of the present invention;

FIG. 2 is an exploded view of the disposable biopsy forceps of the present invention;

FIG. 3 is a sectional view of the disposable biopsy forceps along the anastomotic surface of the jaws;

FIG. 4 is a sectional view of the vertical jaw anastomosis surface of the disposable biopsy forceps of the present invention;

FIGS. 5 a-5 i are perspective views of different configurations of the distal surface of the spacer of the disposable biopsy forceps of the present invention;

FIG. 6 is an assembly view of a first alternative of a pad structure in a disposable biopsy forceps of the present invention;

FIG. 7 is a view of the disposable biopsy forceps showing the second alternative of the spacer structure;

FIG. 8 is an assembly view of a second alternative of the pad structure of the disposable biopsy forceps of the present invention;

FIG. 9 is a view showing the insertion pieces at the proximal ends of two forceps heads of the disposable biopsy forceps according to the present invention;

FIG. 10 is a close-up view of the jaw assembly of the disposable biopsy forceps of the present invention;

FIG. 11 is a schematic view of the disposable biopsy forceps of the present invention;

FIGS. 12a-c are views corresponding to a first step of preparing a disposable biopsy forceps of the present invention;

fig. 13a-b are views corresponding to the second step of preparing the disposable biopsy forceps of the present invention.

Description of reference numerals:

1-forceps head assembly, 11-forceps head, 12-blade structure, 13-chute, 14-rodent structure, 15-forceps head pin shaft hole, 2-forceps base, 21-lumen channel, 22-forceps base arm, 23-forceps base arm pin shaft hole, 3-control wire, 31-control wire pin shaft hole, 32-control wire distal end part, 4-gasket, 41-extension part, 42-extension channel, 43-radial extension structure, 44-distal end surface, 45-gasket pin shaft hole, 5-fixed pin shaft, 6-drive pin shaft, A-human tissue

Detailed Description

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

Embodiments of the present invention will be described in detail below with reference to examples, but those skilled in the art will understand that the following examples are only for illustrating the present invention and should not be construed as limiting the scope of the present invention.

Some terms referred to in the present invention will be explained. Proximal refers to the section near the operator outside the body; distal refers to the end of the tissue to be closed that is located within the body; axial refers to a direction extending along the longitudinal axis of the bioptome; radial refers to the direction extending perpendicular to the axial direction; circumferential means in a circumferential direction around the axial direction.

As shown in fig. 1-4, the present invention provides a disposable biopsy forceps, which comprises a forceps head assembly 1, a forceps base 2, and a control wire 3, wherein the forceps head assembly 1 comprises two forceps heads 11 with distal ends capable of being opened or closed relatively, the proximal end of the forceps head 11 is movably connected to the distal end of the forceps base 2 through a fixed pin 5, and the distal end of the control wire 3 is rotatably connected to the proximal end of the forceps head assembly 1 through a driving pin 6 to drive the forceps head assembly 1 to be opened or closed. As is known in the art, the driving process of the control wire can be achieved by actuating an actuating module (not shown) such as a slider located on the proximal handle to move the control wire back and forth along the axial direction of the control wire in the bioptome, so as to control the opening or closing of the bioptome. Although the embodiment describes that the binding clip assembly is rotationally connected with the control line in the form of the driving pin shaft, in the actual manufacturing process, any structure capable of achieving rotational connection of the control line and the tail end of the binding clip assembly can be replaced, for example, the far end of the control line is provided with a hook-shaped structure, the tail end of the binding clip assembly is provided with a hole matched with the hook-shaped structure, and rotational connection of the binding clip assembly and the control line can be achieved as well, and besides, any conventional mode for achieving rotational connection is covered in the protection scope of the present invention; in addition, the fixed pin shaft in this embodiment can be replaced by any conventional method to connect the binding clip and the binding clip, and is not limited to the specific embodiment described in the present disclosure.

As the core improvement point of the utility model, the biopsy forceps still include gasket 4, 4 distal end sides of gasket are connected with forceps holder 2 through fixed pin axle 5, and the proximal end side has two relative settings and to the extension 41 of near-end extension, two form extension passageway 42 between extension 41, the distal end portion of control line 3 is in extend passageway 42 interior back-and-forth movement. By arranging the structure of the gasket 4, on one hand, the extension part 41 at the near end of the gasket 4 limits the control wire 3 to move in the radial direction, so that the contact friction between the control wire and components such as an outer sleeve, a forceps base and the like caused by the radial deviation and deviation of the control wire in the front and back moving processes is effectively avoided, the hand feeling and the flexibility of operation are improved, and further, the control wire is limited in the extension channel 42 of the gasket 4 to move back and forth, namely, the motion track of the control wire 3 is limited, so that the forceps head assembly connected with the far end part of the control wire through the driving pin shaft can move along the central axis to the maximum extent without deviation, the motion structures such as the control wire and the forceps head assembly can be kept fixed and not shake in the; on the other hand, the inserting sheet structures 12 at the near ends of the two forceps heads 11 are mutually inserted and matched, the planes at the far ends of the gaskets 4 are mutually parallel and in staggered inserting and matching with the inserting sheet structures 12, the sliding direction of the forceps head assembly in the opening and closing process is further corrected and limited through the planes of the gaskets 4, the stability of the forceps head opening and closing tracks is ensured, and the mesh on the forceps head structure is favorably inosculated. Next, the specific connection relationship between the binding clip assembly 1 and the holder 2, the control wire 3, and the pad 4 will be described in detail. The utility model discloses in 11 near-ends of binding clip are for having sliding groove 13's inserted sheet structure 12, the binding clip arm round pin shaft hole 23 of binding clip arm 5 on the binding clip arm 22 of 2 distal ends of binding clip penetrates and passes two binding clip spouts 13, gasket round pin shaft hole 45, the opposite side of one side in proper order after two binding clip spouts 13 of opposite side spread and the riveting is fixed on binding clip arm 22 from the binding clip arm round pin shaft hole 23 of opposite side, the binding clip axle 5 hold in the sliding groove 13, work as control line 3 is followed during biopsy forceps longitudinal axis direction back-and-forth movement, the binding clip axle 5 is followed thereby sliding of sliding groove 13 realizes opening or closed binding clip subassembly 1.

As shown in fig. 2-4 and fig. 5 a-5 i, the proximal end of the forceps base 2 has a lumen channel 21, the control wire 3 is located in the lumen channel 21 and extends from the proximal end to the distal end, and the proximal end of the extension 41 of the spacer 4 is received in the lumen channel 21 of the forceps base 2, on one hand, the structure of the spacer 4 can limit the radial deviation of the control wire 3 in the lumen channel 21, and avoid the undesirable situation that the control wire 3 is not on the central axis and is radially deviated; on the other hand, the utility model discloses in extension 41 disect insertion of gasket 4 get into the lumen passageway 21 of pincers seat 2 near-end, need not numerous and complicated welding process and can get off the position fixation of gasket 4, greatly simplified assembly process.

As shown in FIGS. 4, 5 a-5 i, it is preferred in the present invention that the distal side of the spacer 4 has a tissue restraint (not shown) extending distally along the longitudinal axis of the forceps, the distal end of the tissue restraint having a radially extending structure 43. Through set up tissue restriction portion on gasket 4, can effectively control the tissue volume that enters into binding clip subassembly 1 inner space, prevent that too much tissue from entering into in the binding clip internal chamber, avoid too big damage to the human body. In the present invention, the distal end surface of the radial extension structure 43 is a plane (as shown in fig. 5a, 5d, and 5 g), a convex surface (as shown in fig. 5b, 5e, and 5 h), or a concave surface (as shown in fig. 5c, 5f, and 5 i), the distal end surface is rectangular (as shown in fig. 5a, 5b, and 5 c), circular (as shown in fig. 5d, 5e, and 5 f), or elliptical (as shown in fig. 5g, 5h, and 5 i), and the radial extension structure 43 with different shapes can effectively control the body tissue entering the forceps head.

As shown in fig. 6, as a first alternative of the structure of the spacer 4 of the present invention, in order to clearly show the connection relationship between the spacer and the fixing pin 5 and the forceps base 2, the forceps head assembly 1 and the control wire 3 are omitted in fig. 6, and do not represent the structure of the biopsy forceps or the structure of the forceps head assembly 1 and the control wire 3 that are not provided in the installation process. In this embodiment, the spacer pin hole 45 at the distal end of the spacer 4 is in interference fit with the fixed pin 5, so that the spacer is tightly fitted with the fixed pin, and in the process of the biopsy forceps movement operation, the spacer 4 is not shifted or rotated by the movement of the forceps head assembly 1 or the control wire 3, at this time, unlike the foregoing embodiment, the extension 41 at the proximal end of the spacer 4 in this embodiment is shortened to a length that is not accommodated in the inner wall of the forceps base, and the radial limiting effect on the control wire 3 can also be achieved on the basis of reducing the overall length of the spacer. This kind of structure need not consider in the gasket during the installation distance between gasket round pin shaft hole 45 and extension 41 near-end and the problem that the distance matches each other between fixed pin axle 5 and the pincers seat 2, only need with extension length shorten to not with pincers seat contact can, reduced the degree of difficulty of gasket course of working, still can realize simultaneously the utility model discloses the technological effect that can reach.

As shown in fig. 7-8, as a second alternative of the structure of the spacer 4 of the present invention, in order to clearly show the connection relationship between the spacer and the fixing pin 5 and the forceps holder 2, the forceps head assembly 1 and the control wire 3 are omitted in fig. 6, and do not represent the structure of the biopsy forceps or the structure of the forceps head assembly 1 and the control wire 3 that are not provided in the installation process. In this embodiment, the spacer pin hole 45 at the distal end of the spacer 4 is an open hole, and the open spacer pin hole 45 is in interference fit with the fixed pin 5, so that the spacer is tightly fitted with the fixed pin, and in the motion operation process of the biopsy forceps, the spacer 4 is not shifted or rotated by the movement of the forceps head assembly 1 or the control wire 3. Be different from gasket round pin axle hole 45 and be closed in the aforementioned embodiment, gasket round pin axle hole 45 is open in this embodiment, this difference makes the installation of gasket more nimble, except can adopting fixed pin axle 5 to radially pass gasket round pin axle hole 45 in order to realize the fixed mode with the gasket, can also be as dotted line arrow direction in figure 7, with the gasket by top joint to fixed pin axle 5 on, assembly personnel can be according to actual assembly restriction and actual demand, select more favorable assembly methods, greatly improve the flexibility of installation.

Further, the structure of the preferred binding clip assembly 1 of the present invention will be further described. As shown in fig. 9, the proximal end of each binding clip 11 has two insertion structures 12 parallel to the longitudinal axis of the biopsy forceps, and the sliding slots 13 are disposed on the insertion structures 12, and the two sliding slots on the insertion structures 12 are mirror-symmetric, so as to ensure that the planes of the two insertion structures 12 are always parallel to the longitudinal axis of the biopsy forceps when the fixing pin 5 slides in the sliding slot 13, and no deviation occurs, thereby ensuring the stability of opening and closing of the binding clip. In this embodiment, the insertion sheet structures 12 at the proximal ends of the two opposite binding clip 11 are mutually inserted and matched, so that the operation of mutually limiting radial offset of the binding clip pieces can be realized. In this embodiment, one insertion sheet structure 12 at the proximal end of each binding clip 11 is provided with a binding clip pin hole 15, and the insertion sheet structures 12 of the two binding clips 11 with the binding clip pin holes 15 are respectively located at two sides of the gasket 4, so as to achieve the purpose of movably connecting and assembling the binding clip assembly 1, the gasket 4, the binding clip holder 2 and the control line together by the fixed pin 5.

As shown in fig. 9, each of the distal ends of the two jaws 11 has a jaw structure (not shown) disposed toward the longitudinal axis of the biopsy forceps, and two oppositely disposed sides of the two jaws 11 facing the longitudinal axis of the biopsy forceps are respectively provided with a tooth structure 14, the tooth structures 14 are located at the edges of the jaw structures, and when the forceps head assembly 1 is closed, the tooth structures 14 on the two oppositely disposed jaw structures are engaged with each other, and a receiving space for receiving human tissue is formed between the two jaw structures. The utility model discloses in through structural rodent structure 14 of keeping silent at two to realized the automatic meshing correction effect of binding clip rodent structure, can further correct binding clip central point and put, reach the binding clip from the function that coincide, it is supplementary to need not extra assembly process, effectively avoids because the produced tissue of binding clip dislocation tears the defect.

As shown in fig. 2-4, in the present invention, the distal end portion 32 of the control wire 3 has a control wire pin hole 31 which is in interference fit with the driving pin 6, the proximal end of each of the bits 11 has a bit pin hole 15 which is rotatably connected with the driving pin 6, the control wire distal end portion 32 is clamped between the insert structures 12 of the two bit proximal ends, the driving pin 6 radially extends through the bit pin hole 15 and the control wire pin hole 31, and both radial sides of the driving pin 6 protrude out of the outer side surface (the side far away from the longitudinal axis, i.e. the side near the inner surface of the lumen channel 21) of the insert structure 12 of the bit proximal end, and almost contact the inner wall of the lumen channel 21 of the bit 2, thereby maximally restricting the movement of the control wire 3 in the radial direction of the lumen channel 21, and ensuring that the pull rod shaft is always at the central position,

the operation process of the disposable biopsy forceps in the application is basically as follows: referring to fig. 10-11, the control line (not shown) is actuated by the driving module on the handle, so as to open the two jaws 11 of the jaw assembly 1 at the distal end of the biopsy forceps relatively, and then the jaw assembly 1 is driven by an actuating tool such as an endoscope to align the tissue a in the body lumen to be clamped, so that the tissue a enters the space defined by the jaw structures opposite to the two jaws 11, the rodent structures 14 can perform the function of occluding and grasping the tissue at this time, the radially extending structure 43 on the distal surface of the pad 4 abuts against the tissue a and defines the tissue volume entering the internal space of the jaw assembly, and at this time, the jaw assembly 1 is closed by the actuating control line 3 so as to clamp the tissue a, at this time, the rodent structures 14 in the jaw assembly 1 approach each other and are engaged to form the closed state of the jaws, the rodent structures 14 of the jaws in the closed state are automatically engaged and corrected, so as to further correct the central position, the self-inosculation function of the binding clip is achieved, and the defect of tissue tearing caused by dislocation of the binding clip is effectively avoided. Finally, the biopsy forceps are taken out from the endoscope channel by pulling the handle, thereby completing the biopsy sampling. After sampling, the biopsy forceps are discarded and used for one-time use, so that the possibility of cross infection is avoided.

In addition, the assembly process of the disposable biopsy forceps of the present invention is briefly described, but not limited to the following assembly process:

as shown in fig. 12, in step 1, the two bits 11 are mutually inserted and matched to align the bit pin holes 15 on the two bits, the control wire distal end 32 is inserted between the two bit pin holes 15 along the direction of the dotted arrow ① in fig. 12, and the bit pin holes 15 on the two bits are aligned with the control wire pin hole 31 on the control wire distal end, and then, the driving pin 6 is radially and sequentially passed through the bit pin hole 15 of the bit insert structure 12 on one side, the control wire pin hole 31 on the control wire distal end, and the bit pin hole 15 of the bit insert structure 12 on the other side along the direction of the dotted arrow ② in fig. 12, so as to complete the connection between the control wire 3 and the bit assembly (as shown in fig. 12b and 12 c);

in step 2 of fig. 13, the pad 4 is first inserted between the two forceps heads 11 in the direction of the dotted arrow ① in fig. 13 so that the four structures of the slide grooves 13 of the two forceps heads 11 are aligned with the pad pin hole 45 at the distal end side of the pad, then the two forceps heads 11 and the pad are synchronously inserted between the two forceps holder arms 22 of the forceps holder 2 in the direction of the dotted arrow ② in fig. 13 so that the two forceps holder arm pin holes at the distal end of the forceps holder arms are aligned with the four slide grooves 13 and the pad pin hole 45, and finally, the fixing pin 5 is passed through the two forceps head slide grooves 13 at one side, the pad pin hole 45, and the two forceps head slide grooves 13 at the other side from the forceps holder arm pin hole 23 at the distal end of the forceps holder 2 in the direction of the dotted arrow ③ in fig. 13 and then passed out of the forceps holder arm pin hole 23 at the other side and riveted to the forceps holder arm 22, the fixing pin 5 is received in the slide groove 13, thereby realizing the assembly of the disposable biopsy forceps 1.

The utility model discloses in can realize the assembly of biopsy pincers through two simple steps, just can realize the cooperation of each part through a riveting process and connect, simplify the assembly process of current biopsy pincers greatly, provide assembly efficiency.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (9)

1. A disposable biopsy forceps at least comprises the following structures:

the forceps head assembly comprises at least two forceps heads of which the distal ends can be opened or closed relatively;

the near end of the forceps head is connected with the far end of the forceps base through a connecting piece;

a control wire, the distal end of which is connected with the proximal end of the forceps head assembly to drive the forceps head assembly to open or close,

the method is characterized in that:

the clamp is characterized by further comprising a spacer, the distal end side of the spacer is connected with the clamp seat through the connecting piece, the proximal end side of the spacer is provided with two extending parts which are oppositely arranged and extend towards the proximal end, an extending channel is formed between the two extending parts, and the distal end of the control wire moves in the extending channel.

2. The disposable bioptome of claim 1, wherein:

the near end of the forceps head is of an inserting piece structure with a sliding groove, a connecting piece positioned at the far end of the forceps base is accommodated in the sliding groove, and when the control wire moves back and forth along the longitudinal axis direction of the biopsy forceps, the connecting piece moves along the sliding groove to open or close the forceps head assembly.

3. The disposable bioptome of claim 2, wherein:

the near end of each tong head is provided with two parallel inserting sheet structures with sliding grooves, and the sliding grooves on the two inserting sheet structures are in mirror symmetry; the inserting sheet structures at the near ends of the two oppositely arranged forceps heads are mutually inserted and matched.

4. The disposable bioptome of claim 1, wherein:

the spacer distal side has a tissue constraint extending distally along the biopsy forceps longitudinal axis, the tissue constraint having a radially extending configuration at a distal end thereof.

5. The disposable bioptome of claim 4, wherein:

the distal end face of the radial extension structure is a plane, a convex surface or a concave surface, and the shape of the distal end face is rectangular, circular or elliptical.

6. The disposable bioptome of claim 1, wherein:

the proximal end of the forceps holder is provided with a lumen channel, and the control wire is positioned in the lumen channel and extends from the proximal end to the distal end; the far end of the forceps base is symmetrically provided with two forceps base arms extending towards the far end, and the connecting piece connects the gasket and the near end of the forceps head to the forceps base arms.

7. The disposable bioptome of claim 6, wherein:

the proximal end of the extension is received within the lumen channel of the jaw housing to limit radial movement of the control wire.

8. The disposable bioptome of any one of claims 1 to 7, wherein:

the connecting piece is a fixed pin shaft, the gasket far-end side is provided with a gasket pin shaft hole in interference fit with the fixed pin shaft, and the gasket pin shaft hole is open or closed.

9. The disposable bioptome of any one of claims 1 to 7, wherein:

the remote end of the control line is connected with the near end of the tong head assembly through a drive pin shaft, the remote end of the control line is provided with a control line pin shaft hole in interference fit with the drive pin shaft, each tong head near end is provided with a tong head pin shaft hole in rotary connection with the drive pin shaft, the remote end of the control line is clamped between the two tong head near ends, the drive pin shaft radially extends through the tong head pin shaft hole and the control line pin shaft hole, and the two radial sides of the drive pin shaft protrude out of the outer side surface of the tong head near end to limit the radial movement of the control line.

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