CN219480191U - Plant imbedding device in minimally invasive channel - Google Patents

Abstract

The utility model relates to the technical field of medical instruments, in particular to a minimally invasive channel internal plant implanter, which comprises an implanter body and an internal plant, wherein the internal plant is detachably connected with the implanter body and is positioned at one side of the implanter body, and the internal plant is provided with two mounting holes; two mounting holes on the interior plant are used for being connected with human bone structure, and interior plant can be detachable installs in one side of implantation ware body, and during the use, installs interior plant in the one end of implantation ware body, then handheld implantation ware body, sends into appointed position with interior plant from the wicresoft passageway, installs interior plant after appointed position, separate interior plant and implantation ware body, with the implantation ware body withdraw from in the wicresoft passageway can to can be convenient separate implantation ware body and interior plant, withdraw from in the wicresoft passageway.

Description

Plant imbedding device in minimally invasive channel

Technical Field

The utility model relates to the technical field of medical instruments, in particular to a plant imbedding device in a minimally invasive channel.

Background

In recent years, arthroscopic surgery rapidly promotes the development of joint minimally invasive surgery, and has the advantages of small trauma, rapid recovery, definite curative effect and the like, and along with the rapid development of arthroscopic surgery, a large number of surgical instruments for joint minimally invasive diagnosis and treatment are developed.

At present, when the endophyte is placed in a joint designated position, the endophyte is generally fixed by adopting an implanter, and the endophyte is placed in the designated position from the minimally invasive channel, but the implanter and the endophyte are inconvenient to separate and withdraw from the minimally invasive channel.

Disclosure of Invention

The utility model aims to provide a plant imbedding device in a minimally invasive channel, which can conveniently separate an imbedding device body from a plant and withdraw the plant from the minimally invasive channel.

In order to achieve the above purpose, the utility model provides a minimally invasive intra-channel plant implanter, which comprises an implanter body and an intra-plant; the endophyte is detachably connected with the implanter body and is positioned on one side of the implanter body, and the endophyte is provided with two mounting holes.

The implant body comprises a first handle, a first thin rod and a first connecting sleeve, wherein the inner plant is provided with a connecting hole, the first thin rod is fixedly connected with the first handle and is positioned on one side of the first handle, and the first connecting sleeve is fixedly connected with the first thin rod, is connected with the inner plant and is positioned in the connecting hole.

The utility model provides a novel disposable implant, including the disposable implant, the disposable implant is characterized by comprising an implant body, a plurality of first handles, a plurality of second thin poles, a plurality of matching adapter, a plurality of second connecting sleeves and connecting wires, the second handles have first through-hole and fastening recess, the second thin pole with second handles fixed connection is located second handle one side, the second thin pole has the second through-hole, the second through-hole with first through-hole intercommunication, the matching adapter has the patchhole, goes up inclined hole and lower inclined hole, the second connecting sleeves with second thin pole fixed connection, and with the matching adapter is connected, and is located the patchhole, the one end of connecting wire passes in proper order first through-hole, the second through-hole the patchhole go up inclined hole the mounting hole with down inclined hole, pass in proper order again the patchhole the second through-hole with first through-hole returns.

According to the plant imbedding device in the minimally invasive channel, the two mounting holes on the plant are used for being connected with a human bone structure, the plant can be detachably mounted on one side of the imbedding device body, when the plant imbedding device is used, the plant imbedding device is mounted at one end of the imbedding device body, then the imbedding device body is held by hand, the plant imbedding device is sent to a designated position from the minimally invasive channel, after the plant imbedding device is mounted at the designated position, the plant imbedding device body and the plant imbedding device body are separated, and the plant imbedding device body can be withdrawn from the minimally invasive channel, so that the plant imbedding device body and the plant imbedding device body can be conveniently separated and withdrawn from the minimally invasive channel.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view showing a structure in which an endophyte is separated from an implanter body according to a first embodiment of the present utility model.

Fig. 2 is a schematic structural view of the connection between the endophyte and the implanter body according to the first embodiment of the present utility model.

Fig. 3 is an overall cross-sectional view of a second embodiment of the present utility model.

Fig. 4 is a schematic structural view of the connection between the endophyte and the implanter body according to the second embodiment of the present utility model.

Fig. 5 is a schematic structural view of a mating adapter according to a second embodiment of the present utility model.

Fig. 6 is a front view of a mating adapter of a second embodiment of the present utility model.

Fig. 7 is a cross-sectional view of fig. 6 taken along A-A.

Fig. 8 is a cross-sectional view of fig. 6 taken along the direction B-B.

In the figure: 101-an implanter body, 102-an endophyte, 103-a mounting hole, 104-a first handle, 105-a first thin rod, 106-a first connecting sleeve, 107-a connecting hole, 201-a second handle, 202-a second thin rod, 203-a matching adapter, 204-a second connecting sleeve, 205-a connecting wire, 206-a first through hole, 207-a fastening groove, 208-a second through hole, 209-an inserting hole, 210-an upper inclined hole and 211-a lower inclined hole.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, in the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The first embodiment of the application is as follows:

referring to fig. 1-2, fig. 1 is a schematic diagram showing a structure of an endophyte separated from an implanter body according to a first embodiment of the present utility model, and fig. 2 is a schematic diagram showing a structure of an endophyte connected to an implanter body according to a first embodiment of the present utility model.

The utility model provides a plant imbedding device in a minimally invasive channel, which comprises: comprises an injector body 101 and an endophyte 102; the inner plant 102 has two mounting holes 103; the implanter body 101 comprises a first handle 104, a first thin rod 105 and a first connection sleeve 106; the inner plant 102 has a connection hole 107.

For the present embodiment, the endophyte 102 is detachably connected to the implanter body 101 and is located at one side of the implanter body 101. The two mounting holes 103 on the inner plant 102 are used for being connected with a human bone structure, the inner plant 102 can be detachably mounted on one side of the implanter body 101, when the implant is used, the inner plant 102 is mounted on one end of the implanter body 101, then the implanter body 101 is held by hand, the inner plant 102 is sent to a designated position from a minimally invasive channel, after the inner plant 102 is mounted at the designated position, the inner plant 102 and the implanter body 101 are separated, and the implanter body 101 is withdrawn from the minimally invasive channel, so that the implanter body 101 and the inner plant 102 can be conveniently separated and withdrawn from the minimally invasive channel; it should be noted that the two mounting holes 103 are only an example of the original design features of the endophyte 102 itself, and are not limited to only two mounting holes 103, such as a wire-passable hole structure, but the hole structure is not used for fixing the endophyte 102.

The implanter body 101 includes a first handle 104, a first thin rod 105 and a first connecting sleeve 106, the first thin rod 105 is fixedly connected with the first handle 104 and located at one side of the first handle 104, and the first connecting sleeve 106 is fixedly connected with the first thin rod 105, connected with the endophyte 102 and located in the connecting hole 107. The first handle 104 is used for being held by hand, the first thin rod 105 is used for adapting to a minimally invasive channel, avoiding touching the minimally invasive channel as much as possible, the first connecting sleeve 106 is sleeved at the tail end of the first thin rod 105, the inner plant 102 is provided with a connecting hole 107 adapted to the first connecting sleeve 106, and the connecting mode of the first connecting sleeve 106 and the connecting hole 107 is a mechanical connecting and fixing mode, including but not limited to: the connection modes such as the threaded mechanical connection and the interference fit connection are not limited herein, and after the inner plant 102 is mounted on the first connection sleeve 106 through the connection hole 107, rotation and displacement are not generated, and after the inner plant 102 is sent to the designated position, the first connection sleeve 106 can be withdrawn from the connection hole 107.

In use, the first connecting sleeve 106 is inserted into the connecting hole 107, so that the inner plant 102 is mounted at the end of the first thin rod 105, then the first handle 104 is held by hand, the inner plant 102 is sent to a designated position along the minimally invasive channel, after the inner plant 102 is mounted, the first connecting sleeve 106 is withdrawn from the connecting hole 107, and then the injector body 101 is withdrawn along the minimally invasive channel.

The second embodiment of the present application is:

referring to fig. 3-8 based on the first embodiment, fig. 3 is a cross-sectional view of the second embodiment of the present utility model, fig. 4 is a schematic structural view of the connection of the endophyte and the implanter body of the second embodiment of the present utility model, fig. 5 is a schematic structural view of the mating adapter of the second embodiment of the present utility model, fig. 6 is a front view of the mating adapter of the second embodiment of the present utility model, fig. 7 is a cross-sectional view of fig. 6 along A-A, and fig. 8 is a cross-sectional view of fig. 6 along B-B.

The utility model provides a plant imbedding device in a minimally invasive channel, which comprises a body and a device body, wherein the body is provided with a cavity, a cavity and a cavity, the cavity is provided with a cavity, the: the implanter body 101 comprises a second handle 201, a second slender rod 202, a matching adapter 203, a second connecting sleeve 204 and a connecting wire 205; the second handle 201 has a first through hole 206 and a fastening groove 207; the second pin 202 has a second through hole 208; the mating adapter 203 has an insertion hole 209, an upper inclined hole 210, and a lower inclined hole 211.

For this embodiment, the second thin rod 202 is fixedly connected to the second handle 201 and is located at one side of the second handle 201, the second through hole 208 is communicated with the first through hole 206, the second connecting sleeve 204 is fixedly connected to the second thin rod 202 and is connected to the matching adapter 203 and is located in the insertion hole 209, and one end of the connecting wire 205 sequentially passes through the first through hole 206, the second through hole 208, the insertion hole 209, the upper inclined hole 210, the mounting hole 103 and the lower inclined hole 211, and sequentially passes through the insertion hole 209, the second through hole 208 and the first through hole 206 to return. The second handle 201 has a first through hole 206, the second thin rod 202 has a second through hole 208, which are communicated to form a hollow channel for the connection wire 205 to pass through, the matching adapter 203 is provided with an insertion hole 209 adapted to the second adapter sleeve 204, the second adapter sleeve 204 may be inserted into the insertion hole 209, the matching adapter 203 is mounted at the end of the second thin rod 202, and the connection manner between the second adapter sleeve 204 and the insertion hole 209 includes but is not limited to: the connection modes such as screw mechanical connection and interference fit connection are not limited herein, the insertion hole 209 is also used for the connection wire 205 to pass through, the upper inclined hole 210 and the lower inclined hole 211 are also used for the connection wire 205 to pass through, the fastening groove 207 is used for binding the connection wire 205, when in use, the connection wire 205 is passed through the inner plant 102 to be close to one mounting hole 103 of the matching adapter 203, so that the inner plant 102 is positioned at the middle part of the connection wire 205, two ends of the wire are passed through the upper inclined hole 210, one end is passed through the lower inclined hole 211, two ends are converged to pass through the insertion hole 209, and the two ends are converged to pass through the second through hole 208 and the first through hole 206 in sequence, so that the second connecting sleeve 204 is inserted into the insertion hole 209, the matching adapter 203 is mounted at the end of the second thin rod 202, the endophyte 102 is tied at the side edge of the matching adapter 203, then two ends of the connecting wire 205 are tied on the fastening groove 207, then the second handle 201 is held by hand, the endophyte 102 is sent to a designated position along a minimally invasive channel, after the endophyte 102 is mounted, two ends of the connecting wire 205 are loosened from the fastening groove 207, the second handle 201 is held by hand and slowly removed from the minimally invasive channel, so that the matching adapter 203 and the endophyte 102 are separated, then any end of the connecting wire 205 is pulled, the connecting wire 205 is pulled slowly, the whole connecting wire 205 is pulled out, then the second handle 201 is slowly withdrawn, and the matching adapter 203 is carried together.

In use, the connecting wire 205 is inserted into the insertion hole 209 through the connecting wire 102 near one of the mounting holes 103 of the matching adapter 203, so that the inner plant 102 is located at the middle of the connecting wire 205, two ends of the wire are led through the upper inclined hole 210, one end of the wire is led through the lower inclined hole 211, two ends of the wire are converged and led out of the insertion hole 209, and are led through the second through hole 208 and the first through hole 206 in sequence, the second connecting sleeve 204 is inserted into the insertion hole 209, the matching adapter 203 is mounted at the tail end of the second thin rod 202, the inner plant 102 is bound at the side edge of the matching adapter 203, two ends of the connecting wire 205 are bound on the fastening groove 207, then the second handle 201 is held, the two ends of the connecting wire 205 are loosened from the fastening groove 207 after the inner plant 102 is mounted, the second handle 205 is held, the connecting wire 201 is slowly pulled out of the matching adapter 203, and the whole connecting wire 201 is slowly pulled out, and the matching adapter 203 is slowly pulled out, and the whole connecting wire is slowly pulled out of the matching adapter 203.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present utility model, and it is not intended to limit the scope of the claims herein, as it will be understood by those skilled in the art that all or part of the procedures described above may be performed, and equivalents may be substituted for elements thereof, which are included within the scope of the utility model.

Claims (2)

1. A plant imbedding device in a minimally invasive channel is characterized in that,

comprises an imbedding device body and an endophyte;

the inner plant is detachably connected with the implanter body and is positioned at one side of the implanter body, and the inner plant is provided with two mounting holes; the implant body comprises a first handle, a first thin rod and a first connecting sleeve, wherein the interior plant is provided with a connecting hole, the first thin rod is fixedly connected with the first handle and is positioned on one side of the first handle, and the first connecting sleeve is fixedly connected with the first thin rod, is connected with the interior plant and is positioned in the connecting hole.

2. A minimally invasive intrachannel plant applicator according to claim 1, wherein,

the utility model discloses a syringe, including the syringe body, the syringe body includes second handle, second thin pole, matches adapter, second adapter sleeve and connecting wire, the second handle has first through-hole and fastening recess, the second thin pole with second handle fixed connection is located second handle one side, the second thin pole has the second through-hole, the second through-hole with first through-hole intercommunication, match adapter has the patchhole, goes up inclined hole and lower inclined hole, the second adapter sleeve with second thin pole fixed connection, and with match adapter is connected, and is located the patchhole, the one end of connecting wire passes in proper order first through-hole, the second through-hole the patchhole go up inclined hole the mounting hole with lower inclined hole, pass again in proper order the patchhole the second through-hole with first through-hole returns.