CN213883155U - Electronic endoscope - Google Patents

Electronic endoscope Download PDF

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Publication number
CN213883155U
CN213883155U CN202022763587.5U CN202022763587U CN213883155U CN 213883155 U CN213883155 U CN 213883155U CN 202022763587 U CN202022763587 U CN 202022763587U CN 213883155 U CN213883155 U CN 213883155U
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electronic endoscope
connecting portion
lens
handle
shell
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CN202022763587.5U
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Chinese (zh)
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吴群
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Zhejiang University ZJU
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Zhejiang University ZJU
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Abstract

The utility model discloses an electronic endoscope, which comprises a television monitor, a handle and a connecting wire; the connecting wire is used for connecting the television monitor and the handle; the handle comprises a shell and an insertion section arranged on the shell; the insertion section comprises a rigid inner tube arranged on the shell, a lens rotationally connected with the rigid inner tube and a miniature image sensor arranged on the lens. The utility model discloses the electronic lens who constitutes with miniature image sensor etc. has replaced traditional optical structure camera lens for overall structure is more simple, and the handle is more light, greatly reduced clinical use cost, and the image is more clear simultaneously, and resolution ratio is higher.

Description

Electronic endoscope
Technical Field
The utility model belongs to the technical field of neural scope, especially, relate to an electronic endoscope.
Background
Currently, no neurosurgical transnasal skull base inspectoscope exists clinically, and a rigid optical endoscope device used for clinical operation is generally adopted to inspect skull base lesions.
The majority of the current hard endoscopes adopted clinically are optical structure nerve endoscopes based on a Hopkins system, and the working principle of the hard optical endoscope is as follows: the brightness of the light transmitted by the endoscope is in direct proportion to the square of the refractive index of the medium between the lenses, the refractive index of air is 1.0, the refractive index of glass is about 1.5, and if the glass is used as the medium, the light transmission is increased by about 1 time. The classical endoscope is composed of a long metal tube containing a plurality of glass lenses with far intervals, Hopkins reverses the air/glass intervals in the endoscope, and glass is used as a light guide medium, so that light transmission is obviously improved. Endoscopes that employ the Hopkins lens system are occupied for most of their length by rod lenses. After the light is refracted by the objective lens, the light is converged by the relay system, and the aberration is eliminated, and then the image is formed on the ocular lens.
However, the craniofacial inspection scope is not a professional clinical transnasal skull base inspection scope used for neurosurgery, the equipment structure is complex, and an auxiliary matching system is expensive and is not beneficial to use.
Disclosure of Invention
The utility model provides an electronic endoscope with simple structure and low cost, which overcomes the defects of the prior art.
In order to achieve the above purpose, the utility model adopts the following technical scheme: an electronic endoscope comprises a television monitor, a handle and a connecting wire; the connecting wire is used for connecting the television monitor and the handle; the handle comprises a shell and an insertion section arranged on the shell; the insertion section comprises a rigid inner tube arranged on the shell, a lens rotationally connected with the rigid inner tube and a miniature image sensor arranged on the lens.
Through the arrangement of the structure, the electronic lens formed by the miniature image sensor and the like replaces the traditional optical structure lens, so that the whole structure is simpler, the handle is lighter, the burden of the operator on the arm of the endoscope after long-term operation is reduced, and the body health of the operator is protected; meanwhile, the accessories such as the miniature image sensor and the like are mature in domestic industrialization, the cost of production equipment is only one fifth of that of an optical structure, and the clinical use cost is greatly reduced; moreover, images are shot and conducted through the miniature image sensor, and compared with the traditional optical fiber endoscope images, the miniature image sensor is clearer, more vivid in color and higher in resolution.
Furthermore, the shell comprises a first connecting part, a light source part arranged in the first connecting part and a light guide beam used for transmitting light rays emitted by the light source part to the lens. Through the setting of above-mentioned structure, installed light source spare in the handle for the light source is closer from miniature image sensor distance, only can realize light conduction with the leaded light bundle, and cooperates the image recognition throughput of going up the sensor, when making the structure more simple, image display is more clear, and replaced the traditional numerous and diverse light source system, it is littleer to make the equipment volume, convenient to use, and avoided the drawback that former optical fiber structure is not durable, has prolonged life.
Further, the casing still includes the second connecting portion of being connected with first connecting portion can be dismantled and locate logical groove on the second connecting portion, leads to the groove and is used for supplying rigidity inner tube and leaded light bundle to pass through.
Further, the handle comprises an outer sleeve detachably connected with the shell, and the outer sleeve is sleeved outside the insertion section. Through the setting of above-mentioned structure, a overcoat has been cup jointed in the insertion section outside to make the insertion section can not direct and contact such as patient's body fluid, tissue, reduce patient's uncomfortable and feel, simultaneously because the overcoat is detachable, after accomplishing the inspection to a patient, only need the overcoat of renewal, can inspect next patient, need not numerous and diverse disinfection procedure, it is more convenient to use, and the inspection is more high-efficient.
Furthermore, the casing includes the second connecting portion of being connected with rigid inner tube and the third connecting portion of being connected with the second connecting portion can be dismantled, and the overcoat is fixed in on the casing through the third connecting portion. Through the arrangement of the structure, the detachable connection of the outer sleeve is realized, and the convenience and the rapidness are realized.
Furthermore, a channel for the rigid inner pipe and/or the rigid outer sleeve to pass through is arranged on the third connecting part.
Further, the outer sleeve is made of a flexible transparent material. Through the arrangement of the structure, the micro sensor can conveniently identify images and transmit light rays.
Further, the outer sleeve is made of medical silica gel materials.
Furthermore, an auxiliary device is arranged on the lens.
Further, the light source device is an LED light source.
To sum up, the utility model discloses replaced traditional optical structure camera lens with the electron camera lens of components such as miniature image sensor for overall structure is more simple, and the handle is more light, greatly reduced clinical use cost, the image is more clear simultaneously, and resolution ratio is higher.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic cross-sectional view of the handle.
Fig. 3 is a first partial cross-sectional view of the handle.
Fig. 4 is a second partial cross-sectional view of the handle.
Fig. 5 is a third partial cross-sectional view of the handle.
Fig. 6 is a schematic structural view of the conductive element.
Detailed Description
The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.
As shown in fig. 1-6, a transnasal skull base endoscope comprises a television monitor 3, a handle 1 and a television information system center; the television information system center is installed in the television monitor, and at least plays a role in converting an electric signal into an image to be displayed on the television detector, which is the prior art and therefore is not described herein again.
Specifically, the handle 1 comprises a shell and an insertion section, wherein the insertion section is connected with the shell and used for extending into the body of a patient to check the patient. The casing comprises a first connecting portion 11, a second connecting portion 12, a third connecting portion 13 and a connecting wire 14, the connecting wire 14 comprises a plug wire 141 and a plug 142, one end of the plug wire is connected with one end of the first connecting portion far away from the second connecting portion, the other end of the plug wire is connected with the plug 142, and an interface corresponding to the plug is arranged on the television monitor 3, so that the plug can be detachably connected with the television monitor. The second connecting part 12 is connected with one end of the first connecting part 11 far away from the connecting line 14, and in the embodiment, the two parts are in threaded fit to realize detachability; further, the surface of the second connecting portion 12 is formed in an arc structure, and a connecting member 122 is disposed on one side of the second connecting portion close to the first connecting portion, and the connecting member is a nut. The third connecting portion are connected with the one end that first connecting portion were kept away from to the second connecting portion, and in this embodiment, both are the buckle cooperation, realize simple and convenient dismantlement connection.
In other embodiments, the connection portion 14 and the first connection portion 11 may be detachably connected, such as a plug-and-socket type fitting.
In other embodiments, the first connection portion and the second connection portion may be detachably engaged with each other through other connection structures, such as an insertion, a clamping, a locking, and the like.
In other embodiments, the third connecting portion and the second connecting portion can be detachably engaged with each other through other connecting structures, such as plug-in, clip-in, and lock
Further, the insertion section includes a rigid inner tube 6, a lens 4 and a micro image sensor 41. One end of the rigid inner pipe is connected with the shell, specifically, a through groove is formed in the second connecting part, the rigid inner pipe penetrates through the through groove, and one end of the rigid inner pipe penetrates through the through groove and penetrates into the first connecting part; a conductive piece 111 is arranged in the first connecting part, a through hole 112 is formed in the conductive piece, and a rigid inner pipe can penetrate into the through hole; a connecting table 61 is arranged at one end of the rigid inner tube, which is far away from the second connecting part, and the lens is rotationally connected with the connecting table, so that the lens can rotate relative to the second connecting part; the rotation of the lens can be controlled through the guide steel wire (the prior art), so that an operator can control the lens in the patient body to rotate outside, the miniature image sensor on the lens can see more directions and angles, and the observation range is wider; the micro image sensor is a CCD sensor, which is a prior art and therefore not described herein.
Furthermore, the rigid inner tube is arranged in a hollow cylindrical structure, and the guide steel wire can penetrate into the rigid inner tube to realize the operation of the lens; the micro image sensor is connected to the connection line 14 through a third transmission line 145, so that after the micro image sensor converts the optical signal into an electrical signal, the electrical signal can be transmitted to the television monitor through the third transmission line and the connection line, and the third transmission line is installed in the hollow rigid inner tube.
In some embodiments, the through holes are formed along the axial line direction of the conducting element, and a plurality of rows of slots 113 are circumferentially formed in the side wall of the conducting element, and the slots are non-uniformly distributed along the side wall and have different widths.
In some embodiments, the lens is provided with an auxiliary device 42, which is connected to the connection line 14 through a second transmission line 144; the auxiliary device may be one or more of a video recorder, a camera, an aspirator, and a keyboard for inputting various information and various treatment instruments for diagnostic treatment.
Further, a light source part 2 is installed in the first connecting part, and the light source part is an LED light source and can be various forms of LED light sources such as an LED lamp panel or an LED lamp bead; the light source element is connected to the connection line 14 through a first transmission line 143. Still be connected with leaded light bundle 3 on the light source spare, this leaded light bundle one end is connected with the light source spare, arranges in on the outer wall of conduction spare, and the other end passes the logical groove on the second connecting portion, arranges in near miniature image sensor, conducts near miniature image sensor with the light that light source spare sent, provides the illumination for miniature image sensor can be better discernment patient internal picture.
In some embodiments, the light guide bundle is helically coiled around or otherwise conformed to the outer wall of the rigid inner tube in the axial direction of the rigid inner tube.
Further, the outer side of the insertion section is sleeved with an outer sleeve 43, the outer sleeve is sleeved on the outer side of the insertion section, and components such as a lens, a miniature image sensor, a light guide bundle and a rigid inner tube are all sleeved with the outer sleeve, so that the components are protected by the outer sleeve to avoid direct contact with organism tissues of a patient, and the outer sleeve 43 is made of transparent flexible materials, so that image recognition of the miniature image sensor cannot be influenced, and illumination of light rays cannot be influenced.
In some embodiments, the outer sleeve can be made of medical silica gel materials, or medical plastic materials or other transparent flexible materials; it is also possible that the body is made of a flexible material and that the end near the miniature image sensor is made of a transparent material.
Specifically, overcoat and casing are for dismantling the connection, and the convenience is accomplishing the back to the detection of a patient, the new overcoat of quick replacement to in to next patient's detection, need not loaded down with trivial details disinfection procedure, use more convenient and fast.
In some embodiments, a channel is formed in the third connecting portion, the insertion section can pass through the channel, namely the outer sleeve is sleeved on the insertion section, the insertion section passes through the channel on the third connecting portion, at the moment, the third connecting portion can play a role of smoothing out the outer sleeve, when the third connecting portion is connected with the second connecting portion, part of the body at the opening of the outer sleeve can be pressed between the third connecting portion and the second connecting portion, the outer sleeve is fixed, and meanwhile, the outer sleeve is convenient to detach and replace.
In some embodiments, a clamping groove may be formed on an outer surface of the third connecting portion, and the outer sleeve is fixed in the clamping groove by a binding tape or a tying band, and the outer sleeve may also be detachably connected.
When the device is used, the rigid inner tube extends into the nose under the protection of the outer sleeve, the light guide beam conducts light rays of the LED light source to the lens, the CCD sensor converts light signals into electric signals, and the electric signals are displayed on a screen of a television monitor after being processed by the image processor; the operator can adjust the angle of the lens by pulling the guide steel wire, so as to detect and observe different angles; after the use, the jacket can be detached and replaced, and then the subsequent use can be carried out.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.
Although a large number of terms are used here more, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. An electronic endoscope comprises a television monitor, a handle and a connecting wire; the connecting wire is used for connecting the television monitor and the handle; the method is characterized in that: the handle comprises a shell and an insertion section arranged on the shell; the insertion section comprises a rigid inner tube arranged on the shell, a lens rotationally connected with the rigid inner tube and a miniature image sensor arranged on the lens.
2. The electronic endoscope of claim 1, wherein: the shell comprises a first connecting part, a light source part arranged in the first connecting part and a light guide beam used for transmitting light rays emitted by the light source part to the lens.
3. The electronic endoscope of claim 2, wherein: the casing still includes the second connecting portion of being connected with first connecting portion can be dismantled and locate logical groove on the second connecting portion, and this logical groove is used for supplying rigidity inner tube and leaded light bundle to pass through.
4. The electronic endoscope of claim 1, wherein: the handle includes the overcoat of being connected with the casing can be dismantled, and the insertion section outside is located to this overcoat cover.
5. The electronic endoscope of claim 4, wherein: the casing includes the second connecting portion of being connected with the rigidity inner tube and the third connecting portion of being connected with the second connecting portion can be dismantled, and the overcoat is fixed in on the casing through the third connecting portion.
6. The electronic endoscope of claim 5, wherein: the third connecting part is provided with a channel for the rigid inner pipe and/or the outer sleeve to pass through.
7. The electronic endoscope of claim 6, wherein: the outer sleeve is made of a flexible transparent material.
8. The electronic endoscope of claim 7, wherein: the outer sleeve is made of medical silica gel material.
9. The electronic endoscope of claim 1, wherein: an auxiliary device is arranged on the lens.
10. The electronic endoscope of claim 2, wherein: the light source is an LED light source.
CN202022763587.5U 2020-11-25 2020-11-25 Electronic endoscope Active CN213883155U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022763587.5U CN213883155U (en) 2020-11-25 2020-11-25 Electronic endoscope

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022763587.5U CN213883155U (en) 2020-11-25 2020-11-25 Electronic endoscope

Publications (1)

Publication Number Publication Date
CN213883155U true CN213883155U (en) 2021-08-06

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022763587.5U Active CN213883155U (en) 2020-11-25 2020-11-25 Electronic endoscope

Country Status (1)

Country Link
CN (1) CN213883155U (en)

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