CN210494031U - Novel endoscope of big passageway percutaneous backbone suitable for fuse ware under mirror - Google Patents

Abstract

The utility model discloses a novel endoscope of big passageway percutaneous backbone suitable for fuse ware under mirror, rotate the handle including endoscope body and fuse ware, endoscope body side surface through connection has the insert tube. The utility model discloses in, the user of service installs the fusion cage to fusion cage connecting rod terminal surface, pass the jack and wear out through the insert tube, insert the recess with the connection pad, make connection pad and rolling disc laminating, the connection pad is held to the magnet of rolling disc surface embedding this moment, play the fixed action, user of service accessible handle is controlled the insert tube and is driven the fusion cage connecting rod and arrive the affected part in the lump, after arriving the affected part, it rotates the handle and can rotate fusion cage to suitable angle to rotate fusion cage, user of service can singly hold the handle, another hand rotates fusion cage and rotates the handle, one can operate, and when rotating, do not produce between connection pad and the rolling disc and rock relatively, make things convenient for the user of service to rotate the regulation, and rotate more steadily.

Description

Novel endoscope of big passageway percutaneous backbone suitable for fuse ware under mirror

Technical Field

The utility model relates to an endoscope technical field especially relates to a novel endoscope of big passageway percutaneous backbone suitable for fuse ware under mirror.

Background

The endoscope is a tube equipped with light, it can enter into stomach or enter into the body through other natural pore canals by the oral cavity, and the fusion device is mainly used for treating diseases such as lumbar keyboard protrusion, the fusion device enters into the body of the patient through the pipeline, and is accurately installed to the affected part, the fusion device installation at the present stage is mostly installed by adopting minimally invasive surgery, and the medical endoscope is used in cooperation.

The diameter of the endoscope insertion tube at the present stage is small, the fusion device can not be penetrated, and the traditional endoscope insertion tube is internally connected with connecting equipment such as a guide wire, an optical fiber and the like, so that the fusion device is inconvenient to penetrate, in addition, the fusion cage installation equipment is used separately from the existing endoscope, a plurality of doctors are needed to cooperate, the operation process is complicated, and the medical care resources are wasted, compared with the traditional combined endoscope, when the fusion cage is adjusted in a rotating way, the camera of the endoscope needs to be synchronously rotated, the installation can be carried out only by adjusting the angle of the camera again after the fusion cage is positioned, the use is troublesome, and meanwhile, a gap exists between the traditional combined endoscope and the fusion cage installation equipment, in the process of rotating, the fusion cage installation equipment can collide with the endoscope, so that the angle adjustment is not stable enough, and aiming at the problems, the novel large-channel percutaneous spinal endoscope suitable for the fusion cage under the endoscope is specially provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a novel endoscope of a large channel percutaneous spine, which is suitable for an under-mirror fusion device.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a novel large-channel percutaneous spinal column endoscope suitable for an under-mirror fusion device comprises an endoscope body and a fusion device rotating handle, wherein an insertion tube is connected to the surface of one side of the endoscope body in a through mode, an annular light source is embedded into the surface of the other end of the insertion tube, a camera is embedded into the surface of the other end of the insertion tube between the annular light sources, a light source drive is fixedly connected inside the endoscope body and is electrically connected with the annular light source through a power line, the power line is embedded into the surface wall of the insertion tube, a groove is formed in the surface of the other end of the endoscope body, a rotating groove is formed in the inner surface of the groove, a rotating disc is arranged inside the rotating groove, rotating beads are filled between the rotating disc and the rotating groove, an iron absorbing stone is embedded into the surface of the rotating disc, the fusion device rotating handle is matched with the endoscope body, and the connection pad inserts in the recess, the jack has been seted up to endoscope body other end surface position in recess dead center position, and the jack runs through the endoscope body and insert the pipe through connection, fuse the inside fixedly connected with of ware rotation handle and fuse the ware connecting rod, and fuse the ware connecting rod and run through connection pad central point and put, fuse the ware connecting rod and pass the jack and extend the insert pipe other end.

As a further description of the above technical solution:

the endoscope body is fixedly connected with an image signal conversion module, the image signal conversion module is coupled with the camera through optical fibers, the optical fibers are embedded into the wall of the insertion tube, a display screen is arranged on the top surface of the endoscope body, a handle is fixedly connected to the bottom surface of the endoscope body, the output end of the image signal conversion module is electrically connected with the input end of the display screen, and a storage battery is arranged inside the handle.

As a further description of the above technical solution:

the connecting disc is made of metal materials, and the diameter of the connecting disc is equal to the inner diameter of the groove.

As a further description of the above technical solution:

the inner diameter of the insertion pipe is larger than the diameter of the fusion cage, and the inner diameter of the insertion pipe is equal to the diameter of the insertion hole.

As a further description of the above technical solution:

the light source drive is electrically connected with the storage battery through a lead, and the display screen is electrically connected with the storage battery through a lead.

As a further description of the above technical solution:

the magnet is provided with a plurality of blocks, and the magnet is arranged at equal angles along the circle center of the jack.

As a further description of the above technical solution:

and one end of the outer surface of the insertion tube is fixedly connected with a fixing plate.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. in the utility model, the connecting disc, the rotating disc, the magnet and the jack are adopted, a user installs the fusion cage on the end face of the connecting rod of the fusion cage, the fusion cage passes through the jack and penetrates out through the insertion tube, the connecting disc is inserted into the groove, so that the connecting disc is jointed with the rotating disc, the magnet embedded in the surface of the rotating disc can absorb the connecting disc to play a role in fixing, the user can control the insertion tube through the handle to drive the connecting rod of the fusion cage to reach the affected part together, after reaching the affected part, the fusion cage can be rotated to a proper angle by rotating the rotating handle of the fusion cage, the user can hold the handle by one hand, the fusion cage can be rotated by the other hand, the operation can be carried out by one person, and when rotating, relative shaking is not generated between the connecting disc and the rotating disc, the rotation adjustment of the user is convenient, the rotation is more, the camera position does not change, and the trouble of readjusting the camera is avoided.

2. The utility model discloses in, set up camera and cyclic annular light source at the insert tube tip, not only monopolize the interior space of insert tube, enlarged the passageway that passes through of fusing the ware connecting rod, conveniently fuse the ware and pass through, adopted cyclic annular light source simultaneously, for traditional punctiform light source, improved lighting efficiency, the person of facilitating the use observes the inside condition, the person of facilitating the use operates.

3. The utility model discloses in, adopted the fixed plate, the insert tube inserts the internal to fixed plate contact patient skin of patient, adopts medical sticky tape to paste the fixed plate on patient skin, can fix the fixed plate, makes the insert tube take out to insert more stably, convenient follow-up operation.

Drawings

FIG. 1 is a schematic structural view of a novel large-channel percutaneous spinal endoscope suitable for an under-mirror fusion cage according to the present invention;

FIG. 2 is a side view of the endoscope body of the present invention;

figure 3 is a side view of the insertion tube of the present invention.

Illustration of the drawings:

1. an endoscope body; 2. driving a light source; 3. a display screen; 4. the fusion cage rotates the handle; 5. a connecting disc; 6. a grip; 7. a power line; 8. an insertion tube; 9. a cage connecting rod; 10. an annular light source; 11. rotating the disc; 12. a magnet; 13. a groove; 14. rotating the beads; 15. a rotating groove; 16. a jack; 17. a camera; 18. an image signal conversion module; 19. and (7) fixing the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a novel large channel percutaneous spinal endoscope suitable for an under-mirror fusion device comprises an endoscope body 1 and a fusion device rotating handle 4, wherein an insertion tube 8 is connected to one side surface of the endoscope body 1 in a through manner, an annular light source 10 is embedded in the other end surface of the insertion tube 8, a camera 17 is embedded between the annular light sources 10 and positioned on the other end surface of the insertion tube 8, a light source driver 2 is fixedly connected inside the endoscope body 1, the light source driver 2 is electrically connected with the annular light source 10 through a power line 7, the power line 7 is embedded inside the surface wall of the insertion tube 8, a groove 13 is formed in the other end surface of the endoscope body 1, a rotating groove 15 is formed in the inner surface of the groove 13, a rotating disc 11 is arranged inside the rotating groove 15, a rotating ball 14 is filled between the rotating disc 11 and the rotating groove 15, and a, the cooperation of endoscope body 1 is used to have the integration ware to rotate handle 4, and the integration ware rotates 4 one end fixedly connected with connection pad 5 of handle, and connection pad 5 inserts in the recess 13, the jack 16 has been seted up to the 1 other end surface of endoscope body in recess 13 positive central point position, and the jack 16 runs through endoscope body 1 and 8 through connections of insert tube, the integration ware rotates the inside fixedly connected with of handle 4 and fuses ware connecting rod 9, and fuses ware connecting rod 9 and runs through connection pad 5 central point and put, fuse ware connecting rod 9 and pass jack 16 and extend the 8 other ends of insert tube.

The endoscope body 1 is fixedly connected with an image signal conversion module 18, the image signal conversion module 18 is coupled with a camera 17 through optical fibers, the optical fibers are embedded into the surface wall of the insertion tube 8, the top surface of the endoscope body 1 is provided with a display screen 3, the bottom surface of the endoscope body 1 is fixedly connected with a handle 6, the output end of the image signal conversion module 18 is electrically connected with the input end of the display screen 3, the handle 6 is internally provided with a storage battery, the connecting disc 5 is made of metal, the diameter of the connecting disc 5 is equal to the inner diameter of the groove 13, the inner diameter of the insertion tube 8 is larger than the diameter of the fusion device, the inner diameter of the insertion tube 8 is equal to the diameter of the insertion hole 16, a light source drive 2 is electrically connected with the storage battery through a lead, the display screen 3 is electrically connected with the storage battery through a lead, the magnet, the rotating disc 11 is made of nonmetal materials, the rotating bead 14 is made of nonmetal materials, the magnet 12 is prevented from influencing the rotation, and the rotating handle 4 of the fusion device can be detached, so that the device can be used as a traditional endoscope.

The working principle is as follows: when in use, a user installs the fusion cage on the end face of the fusion cage connecting rod 9, the fusion cage passes through the jack 16 and penetrates out of the insertion tube 8, the connecting disc 5 is inserted into the groove 13, the connecting disc 5 is attached to the rotating disc 11, at the moment, the magnet 12 embedded in the surface of the rotating disc 11 sucks the connecting disc 5 to play a role in fixing, the user can control the insertion tube 8 to drive the fusion cage connecting rod 9 to arrive at an affected part through the handle 6, the fusion cage rotating handle 4 is rotated to rotate the fusion cage to a proper angle after arriving at the affected part, the user can hold the handle 6 with one hand and rotate the fusion cage rotating handle 4 with the other hand, the fusion cage can be operated by one person, in addition, relative shaking is not generated between the connecting disc 5 and the rotating disc 11, the rotation adjustment of the user is convenient, the rotation is more stable, the rotation of the fusion cage is more accurate and convenient, position change does not take place for camera 17 position, the trouble of camera 17 readjustment has been avoided, and simultaneously, camera 17 and annular light source 10 set up at 8 tip of insert tube, not only monopolize 8 inner spaces of insert tube, the passageway that passes through of fusing ware connecting rod 9 has been enlarged, the convenient ware that fuses passes through, annular light source 10 has been adopted simultaneously, for traditional punctiform light source, the lighting efficiency has been improved, the person of facilitating the use observes the inside condition, convenient to use person operates, in addition, insert tube 8 inserts the patient internally, fixed plate 19 contact patient's skin, adopt medical sticky tape to paste fixed plate 19 on patient's skin, can fix fixed plate 19, it is more stable to make insert tube 8 take out and insert, make things convenient for follow-up operation.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A novel large-channel percutaneous spinal column endoscope suitable for an under-mirror fusion device comprises an endoscope body (1) and a fusion device rotating handle (4), and is characterized in that an insertion tube (8) is connected to the surface of one side of the endoscope body (1) in a penetrating manner, an annular light source (10) is embedded into the surface of the other end of the insertion tube (8), a camera (17) is embedded into the surface of the other end of the insertion tube (8) between the annular light sources (10), a light source driver (2) is fixedly connected inside the endoscope body (1), the light source driver (2) is electrically connected with the annular light source (10) through a power line (7), the power line (7) is embedded inside the surface wall of the insertion tube (8), a groove (13) is formed in the surface of the other end of the endoscope body (1), a rotating groove (15) is formed in the inner surface of the groove (13), and a rotating disc (11) is, a rotating ball (14) is filled between the rotating disc (11) and the rotating groove (15), and a magnet (12) is embedded in the surface of the rotating disc (11), the fusion device rotating handle (4) is matched with the endoscope body (1), one end of the fusion device rotating handle (4) is fixedly connected with a connecting disc (5), the connecting disc (5) is inserted into the groove (13), the other end surface of the endoscope body (1) is provided with an insertion hole (16) at the center of the groove (13), the insertion hole (16) penetrates through the endoscope body (1) and is communicated with the insertion tube (8), the interior of the fusion cage rotating handle (4) is fixedly connected with a fusion cage connecting rod (9), and the fusion cage connecting rod (9) penetrates through the center of the connecting disc (5), and the fusion cage connecting rod (9) penetrates through the jack (16) and extends out of the other end of the insertion pipe (8).

2. The novel large-channel percutaneous spinal endoscope suitable for the under-mirror fusion cage is characterized in that the endoscope body (1) is fixedly connected with an image signal conversion module (18), the image signal conversion module (18) is coupled with a camera (17) through an optical fiber, the optical fiber is embedded into the inside of the surface wall of the insertion tube (8), the top surface of the endoscope body (1) is provided with a display screen (3), the bottom surface of the endoscope body (1) is fixedly connected with a handle (6), the output end of the image signal conversion module (18) is electrically connected with the input end of the display screen (3), and a storage battery is arranged inside the handle (6).

3. The novel large-channel percutaneous spine endoscope suitable for the under-mirror fusion cage as claimed in claim 1, wherein the connecting disc (5) is made of metal, and the diameter of the connecting disc (5) is equal to the inner diameter of the groove (13).

4. The novel large channel percutaneous spinal endoscope suitable for an endoscopic fusion cage according to claim 1, wherein the inner diameter of the insertion tube (8) is larger than the diameter of the fusion cage, and the inner diameter of the insertion tube (8) is equal to the diameter of the insertion hole (16).

5. The novel large-channel percutaneous spinal endoscope suitable for the under-mirror fusion cage is characterized in that the light source driver (2) is electrically connected with the storage battery through a lead, and the display screen (3) is electrically connected with the storage battery through a lead.

6. The novel large-channel percutaneous spine endoscope suitable for the under-mirror fusion cage as claimed in claim 1, wherein the magnet (12) is provided with a plurality of pieces, and the magnet (12) is arranged along the circle center of the insertion hole (16) at equal angles.

7. The novel large channel percutaneous spine endoscope suitable for the under-mirror fusion cage as claimed in claim 1, wherein a fixing plate (19) is fixedly connected to one end of the outer surface of the insertion tube (8).

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