CN214906676U

CN214906676U - Seminal vesicle scope

Info

Publication number: CN214906676U
Application number: CN202121124029.2U
Authority: CN
Inventors: 冯庆兴; 李晟; 程凤
Original assignee: Chinese Peoples Liberation Army Army Specialized Medical Center
Current assignee: Chinese Peoples Liberation Army Army Specialized Medical Center
Priority date: 2021-05-24
Filing date: 2021-05-24
Publication date: 2021-11-30
Anticipated expiration: 2031-05-24

Abstract

The utility model provides a seminal vesicle scope, which comprises a pipeline component, a channel joint, a longitudinal axis rotating mechanism, a transverse axis rotating mechanism, a vertical axis rotating mechanism and a camera; the pipeline assembly comprises a lower pipe body and an upper pipe body which are communicated, and the upper pipe body is an elastic hose; the channel joint is communicated with one end of the lower pipe body, which is far away from the upper pipe body; the longitudinal axis rotating mechanism comprises a placing plate, a longitudinal axis rotating shaft and a longitudinal axis rope rotating assembly, the placing plate is arranged at one end, away from the lower pipe body, of the upper pipe body, the side face of the placing plate is connected with the inner wall of the upper pipe body, and a camera is arranged on the top face of the placing plate; the longitudinal axis rotating shaft is arranged on the bottom surface of the placing plate; the longitudinal axis rope rotating assembly is connected with the placing plate and can drive the placing plate to rotate around the longitudinal axis rotating shaft; the transverse shaft rotating mechanism can enable the placing plate to rotate around the transverse shaft; the vertical shaft rotating mechanism can enable the placing plate to rotate around the axis of the upper pipe body. The tail end of the seminal vesicle scope can rotate at multiple angles as required, and the pathological change part can be observed at multiple angles by the camera.

Description

Seminal vesicle scope

Technical Field

The utility model relates to a crooked technical field of pipeline, concretely relates to seminal vesicle mirror.

Background

In recent years, as the living pressure of people increases, the quality of sperms of men tends to decrease under the influence of the environment, the pollution of estrogen drugs and other factors, and the seminal vesicle problem of men is increasing. In the prior art, due to the lack of a special instrument for examining seminal vesicle, a ureteroscope is commonly used as a substitute for the seminal vesicle, but the front end of the traditional ureteral catheter is straight, the operation is often difficult when the ureteral catheter is operated at an angle, and the lens of the traditional ureteroscope is difficult to rotate, so that the patient is difficult to comprehensively examine.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model provides a seminal vesicle scope to solve the current seminal vesicle scope front end that mentions in the above-mentioned background art and be difficult to rotate and the camera lens is difficult to multi-angle rotating's technical problem.

In order to solve the technical problem, the utility model discloses a scheme is:

a seminal vesicle scope comprises a pipeline assembly, a channel joint, a longitudinal axis rotating mechanism, a transverse axis rotating mechanism, a vertical axis rotating mechanism and a camera;

the pipeline assembly comprises a lower pipe body and an upper pipe body which are communicated, and the upper pipe body is an elastic hose;

the channel joint is communicated with one end of the lower pipe body, which is far away from the upper pipe body;

the longitudinal axis rotating mechanism comprises a placing plate, a longitudinal axis rotating shaft and a longitudinal axis rope rotating assembly, the placing plate is arranged at one end, far away from the lower pipe body, of the upper pipe body, the side face of the placing plate is connected with the inner wall of the upper pipe body, and the top face of the placing plate is provided with the camera; the longitudinal shaft rotating shaft is arranged on the bottom surface of the placing plate; the longitudinal axis rope rotating assembly is connected with the placing plate and can drive the placing plate to rotate around the longitudinal axis rotating shaft;

the transverse shaft rotating mechanism comprises a longitudinal shaft mounting plate, a transverse shaft rotating shaft and a transverse shaft rope rotating assembly, the longitudinal shaft rotating shaft is arranged on the longitudinal shaft mounting plate, the transverse shaft rotating shaft is arranged on the bottom surface of the longitudinal shaft mounting plate, and the transverse shaft rope rotating assembly is connected with the longitudinal shaft mounting plate and can drive the longitudinal shaft mounting plate to rotate around the transverse shaft rotating shaft;

the vertical axis slewing mechanism comprises a cross axis mounting plate, a vertical axis assembly and a vertical axis rope rotating assembly, the cross axis rotating shaft is arranged on the cross axis mounting plate, the vertical axis assembly is arranged on the bottom surface of the cross axis mounting plate and can drive the cross axis mounting plate to wind the axis of the upper pipe body rotates, the vertical axis rope rotating assembly is connected with the vertical axis assembly and can drive the vertical axis assembly to rotate.

According to the scheme, the upper pipe body of the utility model is an elastic hose, and the side surface of the placing plate is connected with the inner wall of the upper pipe body, namely, the upper pipe body can rotate along with the rotation of the placing plate; the placing plate is connected with the longitudinal shaft rotating shaft and can be driven by the longitudinal shaft rope rotating assembly to rotate around the longitudinal shaft rotating shaft, namely, the placing plate can rotate around the longitudinal shaft; the longitudinal shaft rotating shaft is arranged on the longitudinal shaft mounting plate, and the longitudinal shaft mounting plate can rotate around the transverse shaft under the driving of the transverse shaft rope rotating assembly, namely, the longitudinal shaft rotating shaft can rotate around the transverse shaft, and further the placing plate can be pushed out and can also rotate around the transverse shaft; the transverse shaft rotating shaft is arranged on the transverse shaft mounting plate, and the transverse shaft mounting plate can rotate around the vertical shaft under the driving of the vertical shaft assembly, namely, the longitudinal and transverse rotating shafts can rotate around the vertical shaft, and further the placing plate can be pushed out and can also rotate around the vertical shaft; to sum up, place the board and can rotate around axis of ordinates, cross axle, vertical axis to drive the body and rotate, and place and still be equipped with the camera on the board, the camera can rotate around axis of ordinates, cross axle, vertical axis promptly, realizes multi-angle pivoted demand.

Further, the longitudinal axis rope rotating assembly comprises a longitudinal axis rotating rope and a longitudinal axis rope communicating pipe; the two longitudinal axis rope communicating pipes are oppositely arranged on the outer surface of the channel joint and are communicated with the inner side and the outer side of the channel joint; the two longitudinal shaft rotating ropes are arranged, one ends of the two longitudinal shaft rotating ropes are respectively oppositely arranged at two ends of the placing plate, the other ends of the two longitudinal shaft rotating ropes penetrate through the longitudinal shaft rope communicating pipe to extend outwards, and the placing plate can rotate around the longitudinal shaft rotating shaft by pulling the longitudinal shaft rotating ropes. The direction of the placing plate around the longitudinal axis rotating shaft is more conveniently controlled by the two longitudinal axis rotating ropes penetrating through the different longitudinal axis rope communicating pipes.

Furthermore, the longitudinal axis mounting plate is a U-shaped plate, and two ends of the longitudinal axis rotating shaft are respectively connected with two U-shaped side surfaces of the longitudinal axis mounting plate. The structure through the U-shaped plate makes the turned angle of placing the board bigger, more is suitable for.

Furthermore, the transverse shaft rope rotating assembly comprises two transverse shaft rotating ropes and two transverse shaft rope communicating pipes which are oppositely arranged on the outer surface of the channel joint and communicated with the inner side and the outer side of the channel joint; the number of the transverse shaft rotating ropes is two, one ends of the two transverse shaft rotating ropes are respectively oppositely arranged at two ends of the longitudinal shaft mounting plate, the other ends of the two transverse shaft rotating ropes penetrate through the transverse shaft rope communicating pipe to extend outwards, and the transverse shaft rotating ropes are pulled to enable the longitudinal shaft mounting plate to rotate around the transverse shaft rotating shaft. The structure more conveniently controls the direction of the longitudinal axis mounting plate around the transverse axis through the two transverse axis rotating ropes passing through different transverse axis rope communicating pipes.

Furthermore, the cross shaft mounting plate is a U-shaped plate, and two ends of the cross shaft rotating shaft are respectively connected with two U-shaped side surfaces of the cross shaft mounting plate. The structure through the U-shaped plate makes the turned angle of the longitudinal axis installation plate bigger, and is more applicable.

Further, the vertical shaft assembly comprises a vertical shaft rotating shaft, a rotating gear, a gear rotating shaft and a gear mounting rod; the vertical shaft rotating shaft is a straight rod with a bevel gear at the bottom end and is fixedly arranged on the bottom surface of the transverse shaft mounting plate; the gear mounting rod is arranged on the inner side wall of the upper pipe body, the gear rotating shaft is rotatably arranged on the gear mounting rod, the rotating gear is a bevel gear meshed with the bevel gear of the vertical shaft rotating shaft, and the rotating gear is fixedly arranged on the gear rotating shaft and is coaxial; rotating the rotating gear enables the vertical shaft to rotate. The horizontal shaft mounting plate can be stably rotated by the engagement of the vertical shaft rotating shaft and the rotating gear.

Further, the vertical shaft rope rotating assembly comprises a gear wheel rotating rope and a gear rope communicating pipe; the gear rope communicating pipe is arranged on the outer surface of the channel joint and penetrates through the inner side and the outer side of the channel joint; the middle part of the gear rotation rope is wound on the gear rotating shaft, and two ends of the gear rotation rope extend outwards and penetrate through the gear rope communicating pipe; pulling the gear rotation rope can enable the rotation gear to rotate. This structure changes rope drive transmitting gear through the gear of pulling winding in gear shaft and rotates, and the gear changes the both ends of restricting and pass gear rope communicating pipe, rotates the both ends of restricting through the pulling gear and can adjust transmitting gear's direction of rotation more conveniently.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings used in the embodiments will be briefly described below. In all the drawings, the elements or parts are not necessarily drawn to actual scale.

Fig. 1 is a schematic view of a seminal vesicle scope according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view A-A shown in FIG. 1;

fig. 3 is a schematic view of the vertical axis assembly shown in fig. 2.

Reference numerals:

1-a pipe assembly; 11-feeding the tube body; 12-a lower pipe body;

2-a channel joint;

3-a longitudinal axis rotation mechanism; 31-placing a plate; 32-longitudinal axis of rotation; 33-longitudinal axis roping assembly; 331-longitudinal axis rotating rope; 332-longitudinal axis rope communication tube;

4-a horizontal axis rotation mechanism; 41-longitudinal axis mounting plate; 42-horizontal axis shaft; 43-transverse axis rope-turning assembly; 431-a transverse rotating rope; 432-transverse axis rope communicating tube;

5-a vertical axis rotation mechanism; 51-transverse axis mounting plate; 52-a vertical axis assembly; 521-vertical axis shaft; 522-a turning gear; 523-gear rotating shaft; 524 a gear mounting bar; 53 vertical axis swivel rope assembly; 531-gear rope turning; 532-gear rope communicating pipe;

6-camera.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

Referring to fig. 1-3, a seminal vesicle scope includes a tube assembly 1, a channel connector 2, a longitudinal axis rotation mechanism 3, a transverse axis rotation mechanism 4, a vertical axis rotation mechanism 5 and a camera 6.

The pipe assembly 1 comprises a lower pipe body 12 and an upper pipe body 11 which are communicated, and the upper pipe body 11 is an elastic hose. It should be understood that the lower tubular body 12 is generally a rigid tube and configured with different lengths according to different application requirements, and the elastic hose of the upper tubular body 11 has certain support and straight tube without external force, and can be bent and deformed when being subjected to external force or extrusion.

The channel joint 2 and the lower pipe body 12 communicate with each other at an end away from the upper pipe body 11. It will be appreciated that the access fitting 2 is a rigid tube through which an associated instrument such as a guide wire may be inserted through the access fitting 2.

The longitudinal axis rotating mechanism 3 comprises a placing plate 31, a longitudinal axis rotating shaft 32 and a longitudinal axis rope rotating assembly 33, the placing plate 31 is arranged at one end of the upper tube body 11 far away from the lower tube body 12, the side surface of the placing plate 31 is connected with the inner wall of the upper tube body 11, and the top surface of the placing plate 31 is provided with a camera 6; the longitudinal axis rotating shaft 32 is arranged on the bottom surface of the placing plate 31; the longitudinal axis rope rotating assembly 33 is connected with the placing plate 31 and can drive the placing plate 31 to rotate around the longitudinal axis rotating shaft 32. The upper tube 11 is an elastic hose, and the side of the placing plate 31 is connected to the inner wall of the upper tube 11, that is, the upper tube 11 can rotate with the rotation of the placing plate 31; the placing plate 31 is connected to the longitudinal axis rotating shaft 32 and can be driven to rotate around the longitudinal axis rotating shaft 32 by the longitudinal axis rope rotating assembly 33, namely, the placing plate 31 can rotate around the longitudinal axis.

In other aspects, the longitudinal axis rotation rope assembly 33 further includes a longitudinal axis rotation rope 331 and a longitudinal axis rope communicating tube 332; two longitudinal axis rope communicating pipes 332 are arranged and oppositely arranged on the outer surface of the channel joint 2, and the longitudinal axis rope communicating pipes 332 are communicated with the inner side and the outer side of the channel joint 2; two longitudinal axis rotating ropes 331 are provided, one ends of the two longitudinal axis rotating ropes 331 are respectively and oppositely provided at both ends of the placing plate 31, the other ends thereof pass through the longitudinal axis rope communicating tube 332 and extend outward, and pulling the longitudinal axis rotating ropes 331 enables the placing plate 31 to rotate around the longitudinal axis rotating shaft 32. The above structure more conveniently controls the direction of the placing plate 31 around the longitudinal axis rotating shaft 32 by the two longitudinal axis rotating ropes 331 passing through the different longitudinal axis rope communicating pipes 332. One of the vertical axis rotating strings 331 controls the placing board 31 to rotate clockwise about the vertical axis rotating shaft 32, and the other vertical axis rotating string 331 controls the placing board 31 to rotate counterclockwise about the vertical axis rotating shaft 32.

The transverse shaft rotating mechanism 4 comprises a longitudinal shaft mounting plate 41, a transverse shaft rotating shaft 42 and a transverse shaft rope rotating assembly 43, the longitudinal shaft rotating shaft 32 is arranged on the longitudinal shaft mounting plate 41, the transverse shaft rotating shaft 42 is arranged on the bottom surface of the longitudinal shaft mounting plate 41, and the transverse shaft rope rotating assembly 43 is connected with the longitudinal shaft mounting plate 41 and can drive the longitudinal shaft mounting plate 41 to rotate around the transverse shaft rotating shaft 42; the vertical shaft 32 is disposed on the vertical shaft mounting plate 41, and the vertical shaft mounting plate 41 can rotate around the horizontal shaft under the driving of the horizontal shaft rope rotating assembly 43, that is, the vertical shaft 32 can rotate around the horizontal shaft, and further, the placing plate 31 can also rotate around the horizontal shaft.

As a further scheme, the longitudinal axis mounting plate 41 may also be a U-shaped plate, and two ends of the longitudinal axis rotating shaft 32 are respectively connected to two sides of the U-shaped longitudinal axis mounting plate 41. The structure through the U-shaped board makes the turned angle of placing board 31 bigger, more suitable. And the longitudinal axis rotating shaft 32 may be disposed near the uppermost portion of the U shape of the longitudinal axis mounting plate 41 in order to make the rotatable angle sufficiently large.

In other embodiments, the transverse-axis rope rotating assembly 43 includes two transverse-axis rotating ropes 431 and two transverse-axis rope communicating pipes 432, the two transverse-axis rope communicating pipes 432 are oppositely disposed on the outer surface of the channel joint 2, and the transverse-axis rope communicating pipes 432 communicate the inner side and the outer side of the channel joint 2; two transverse rotating ropes 431 are provided, one ends of the two transverse rotating ropes 431 are respectively and oppositely arranged at two ends of the longitudinal shaft mounting plate 41, the other ends of the two transverse rotating ropes 431 penetrate through the transverse shaft rope communicating pipe 432 to extend outwards, and the longitudinal shaft mounting plate 41 can rotate around the transverse shaft rotating shaft 42 by pulling the transverse rotating ropes 431. The above structure more conveniently controls the direction of the vertical axis mounting plate 41 around the horizontal axis rotation shaft 42 by the two horizontal axis rotation ropes 431 passing through the different horizontal axis rope communication pipes 432. One of the horizontal axis rotation strings 431 controls the placing plate 31 to rotate clockwise about the horizontal axis rotation shaft 42, and the other horizontal axis rotation string 431 controls the placing plate 31 to rotate counterclockwise about the horizontal axis rotation shaft 42.

The vertical shaft rotating mechanism 5 comprises a horizontal shaft mounting plate 51, a vertical shaft assembly 52 and a vertical shaft rope rotating assembly 53, wherein the horizontal shaft rotating shaft 42 is arranged on the horizontal shaft mounting plate 51, the vertical shaft assembly 52 is arranged on the bottom surface of the horizontal shaft mounting plate 51 and can drive the horizontal shaft mounting plate 51 to rotate around the axis of the upper pipe body 11, and the vertical shaft rope rotating assembly 53 is connected with the vertical shaft assembly 52 and can drive the vertical shaft assembly 52 to rotate. The horizontal shaft 42 is provided on the horizontal shaft mounting plate 51, and the horizontal shaft mounting plate 51 can rotate around the vertical shaft under the driving of the vertical shaft assembly 52, that is, the vertical shaft and the horizontal shaft can rotate around the vertical shaft, and further, the placing plate 31 can be pushed out and can also rotate around the vertical shaft.

To sum up, the placing plate 31 can rotate around the longitudinal axis, the transverse axis and the vertical axis and drive the upper tube body 11 to rotate, and the placing plate 31 is further provided with the camera 6, that is, the camera 6 can rotate around the longitudinal axis, the transverse axis and the vertical axis.

Further, the horizontal shaft mounting plate 51 is a U-shaped plate, and both ends of the horizontal shaft 42 are connected to both sides of the U-shaped horizontal shaft mounting plate 51. The structure of the U-shaped plate enables the rotation angle of the longitudinal shaft mounting plate 41 to be larger and more applicable. In order to make the pivoting angle sufficiently large, the horizontal axis shaft 42 may be disposed at the uppermost of the U-shape near the horizontal axis mounting plate 51.

In other aspects, the vertical shaft assembly 52 further includes a vertical shaft rotating shaft 521, a rotating gear 522, a gear rotating shaft 523 and a gear mounting rod 524; the vertical shaft rotating shaft 521 is a straight rod with a bevel gear at the bottom end and is fixedly arranged on the bottom surface of the horizontal shaft mounting plate 51; the gear installation rod 524 is arranged on the inner side wall of the upper pipe body 11, the gear rotating shaft 523 is rotatably arranged on the gear installation rod 524, the rotating gear 522 is a bevel gear meshed with the bevel gear of the vertical shaft rotating shaft 521, and the rotating gear 522 is fixedly arranged on the gear rotating shaft 523 and is coaxial; the vertical axis rotation shaft 521 can be rotated by rotating the rotation gear 522. The horizontal shaft mounting plate 51 can be stably rotated by the engagement of the vertical shaft 521 and the rotary gear 522.

In other aspects, the vertical axis swing rope assembly 53 includes a gear swing rope 531 and a gear rope communication pipe 532; the gear rope communicating pipe 532 is arranged on the outer surface of the channel joint 2 and penetrates through the inner side and the outer side of the channel joint; the middle part of the gear rotation rope 531 is wound on the gear rotation shaft 523, and both ends of the gear rotation rope 531 extend outwards and penetrate through the gear rope communicating pipe 532; pulling the gear rotation cord 531 causes the rotation gear 522 to rotate. This structure changes rope 531 through the pulling winding at gear pivot 523 and drives the rotation gear 522 to rotate, and gear changes the both ends of rope 531 and passes gear rope communicating pipe 532, changes the both ends of rope 531 and can adjust the rotation direction of rotation gear 522 more conveniently through the pulling gear. One end of the gear rotating rope 531 is pulled to enable the rotating gear 522 to rotate clockwise, the other end of the gear rotating rope 531 enables the rotating gear 522 to rotate counterclockwise, and in order to facilitate the operation, in this embodiment, two gear rope communicating pipes 532 are provided, the two gear rope communicating pipes 532 are respectively arranged on the outer surface of the channel interface and communicate the inner side and the outer side of the channel interface, and two gear rope communicating pipes 532 are respectively passed through two ends of the gear rotating rope 531.

It will be appreciated that the seminal vesiculoscope described above is sufficiently thin and there is sufficient access space on either side of the camera head 6 for the relevant operations.

Referring to fig. 1-3, the application process of the seminal vesicle scope of the present invention is:

the upper tube body 11 is inserted through the urethra, the camera 6 is used for observing, when the upper tube body 11 needs to be bent, the corresponding transverse axis rope rotating assembly 43 or the corresponding longitudinal axis rope rotating assembly 33 or the corresponding vertical axis assembly 52 is operated, so that the upper tube body 11 can rotate according to a required angle, and the same principle is used for observing the pathological changes.

The tail end of the seminal vesicle scope can rotate at multiple angles as required, and the pathological change position can be observed at multiple angles by the camera.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should 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 substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims

1. A seminal vesicle scope is characterized by comprising a pipeline assembly, a channel joint, a longitudinal axis rotating mechanism, a transverse axis rotating mechanism, a vertical axis rotating mechanism and a camera;

2. The seminal vesicle scope according to claim 1, wherein the longitudinal axis rotation string assembly comprises a longitudinal axis rotation string and a longitudinal axis string communicating tube; the two longitudinal axis rope communicating pipes are oppositely arranged on the outer surface of the channel joint and are communicated with the inner side and the outer side of the channel joint; the two longitudinal shaft rotating ropes are arranged, one ends of the two longitudinal shaft rotating ropes are respectively oppositely arranged at two ends of the placing plate, the other ends of the two longitudinal shaft rotating ropes penetrate through the longitudinal shaft rope communicating pipe to extend outwards, and the placing plate can rotate around the longitudinal shaft rotating shaft by pulling the longitudinal shaft rotating ropes.

3. The seminal vesicle scope according to claim 2, wherein the longitudinal axis mounting plate is a U-shaped plate, and both ends of the longitudinal axis rotation shaft are respectively connected with both sides of the U-shape of the longitudinal axis mounting plate.

4. The seminal vesicle scope according to claim 3, wherein the transverse axis rotation rope assembly comprises two transverse axis rotation ropes and two transverse axis rope communicating pipes, the two transverse axis rope communicating pipes are oppositely arranged on the outer surface of the channel joint, and the transverse axis rope communicating pipes communicate the inner side and the outer side of the channel joint; the number of the transverse shaft rotating ropes is two, one ends of the two transverse shaft rotating ropes are respectively oppositely arranged at two ends of the longitudinal shaft mounting plate, the other ends of the two transverse shaft rotating ropes penetrate through the transverse shaft rope communicating pipe to extend outwards, and the transverse shaft rotating ropes are pulled to enable the longitudinal shaft mounting plate to rotate around the transverse shaft rotating shaft.

5. The seminal vesicle scope according to claim 4, wherein the cross shaft mounting plate is a U-shaped plate, and both ends of the cross shaft are respectively connected with the U-shaped two side surfaces of the cross shaft mounting plate.

6. The seminal vesicle scope according to claim 5, wherein the vertical shaft assembly comprises a vertical shaft rotating shaft, a rotating gear, a gear rotating shaft and a gear mounting rod; the vertical shaft rotating shaft is a straight rod with a bevel gear at the bottom end and is fixedly arranged on the bottom surface of the transverse shaft mounting plate; the gear mounting rod is arranged on the inner side wall of the upper pipe body, the gear rotating shaft is rotatably arranged on the gear mounting rod, the rotating gear is a bevel gear meshed with the bevel gear of the vertical shaft rotating shaft, and the rotating gear is fixedly arranged on the gear rotating shaft and is coaxial; rotating the rotating gear enables the vertical shaft to rotate.

7. The seminal vesicle scope according to claim 6, wherein the vertical axis rotation string assembly comprises a gear rotation string and a gear string communicating tube; the gear rope communicating pipe is arranged on the outer surface of the channel joint and penetrates through the inner side and the outer side of the channel joint; the middle part of the gear rotation rope is wound on the gear rotating shaft, and two ends of the gear rotation rope extend outwards and penetrate through the gear rope communicating pipe; pulling the gear rotation rope can enable the rotation gear to rotate.