CN214104353U - Portable electronic endoscope based on VR technique - Google Patents

Abstract

The utility model discloses a portable electronic endoscope based on VR technique, include: the endoscope assembly comprises an endoscope body, an insertion tube arranged on the right side of the endoscope body, a probe body arranged in the insertion tube, a biopsy channel arranged on the upper part of the endoscope body and a communication box arranged on the top of the endoscope body; the VR component comprises a head-wearing type fixer, a sight glass arranged on the head-wearing type fixer and a VR display arranged on the sight glass through a hinge; the utility model can directly observe the patient body through the eyepiece by conveniently arranging the eyepiece, and the light source adjusting component and the probe adjusting component are arranged on the side wall of the endoscope body, thereby being beneficial to adjusting and adjusting operation when direct observation is convenient; through the setting that adjusting part includes focus probe adjustment button, adjustment button one and screenshot button one, be favorable to carrying out the macro-adjustment and adjust probe definition in real time and make things convenient for direct screenshot operation to the probe.

Description

Portable electronic endoscope based on VR technique

Technical Field

The utility model relates to a medical endoscope technical field specifically is a portable electron endoscope based on VR technique.

Background

The prior electronic endoscope such as a gastrointestinal endoscope is bulky in volume and inconvenient to move due to an external power supply and an external display; the main operator can only operate through observing a display or an endoscope head (such as a bronchoscope), the burden on eyes is large, and the main operator cannot be personally on the scene, and the VR technology can well solve the defect, but communication equipment is not installed on the main body of the existing electronic endoscope, and the main operator cannot be connected with corresponding VR glasses or displays through wifi and the like; at present, the screenshot of the electronic endoscope printing report can only be controlled by the command of a main operator or by moving the electronic endoscope printing report to a main operation table, and the VR glasses can realize that everyone can have the screenshot and store corresponding pictures, so that the screenshot can be responded by the command of the main operator and can also be freely selected. Therefore, we propose a portable electronic endoscope based on VR technology.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable electronic endoscope based on VR technique has solved the problem that proposes in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a portable electronic endoscope based on VR technology, comprising:

the endoscope assembly comprises an endoscope body, an insertion tube arranged on the right side of the endoscope body, a probe body arranged in the insertion tube, a biopsy channel arranged on the upper part of the endoscope body and a communication box arranged on the top of the endoscope body;

the VR component comprises a head-wearing type fixer, a sight glass arranged on the head-wearing type fixer and a VR display arranged on the sight glass through a hinge;

wherein, the VR display of VR subassembly passes through communication box wireless connection with the endoscope subassembly.

Preferably, the endoscope assembly further comprises an eyepiece mounted on the left side of the endoscope body, a light source adjusting knob mounted on the side wall of the endoscope body, and a probe adjusting assembly mounted on the side wall of the endoscope body.

Preferably, the adjusting assembly comprises a probe adjusting button arranged on the side wall of the endoscope body, a first focus adjusting button arranged on the side wall of the endoscope body and a first screenshot button arranged on the side wall of the endoscope body.

Preferably, the VR component further comprises a second focus adjustment button mounted on the side wall of the VR display, a second screenshot button mounted on the side wall of the VR display, a memory card slot arranged on the side wall of the VR display, and a data interface arranged on the side wall of the VR display.

Preferably, the head-mounted fixer is made of elastic bandage materials.

Compared with the prior art, the beneficial effects of the utility model are as follows: the arrangement of the ocular lens is convenient for observing the inside of the patient body directly, and the arrangement of the light source adjusting assembly and the probe adjusting assembly on the side wall of the endoscope body is favorable for facilitating adjustment and adjustment operation during direct observation; the adjusting assembly comprises a focal length probe adjusting button, an adjusting button I and a screenshot button I, so that the micro-distance adjustment of the probe and the real-time adjustment of the definition of the probe are facilitated, and the direct screenshot operation is facilitated; the VR component further comprises a second focus adjusting button installed on the side wall of the VR display, a second screenshot button installed on the side wall of the VR display, a memory card slot arranged on the side wall of the VR display and a data interface arranged on the side wall of the VR display, and is beneficial to screenshot and adjusting the definition of the probe and screenshot operation when the VR is worn in real time, and is beneficial to data transmission and storage.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic diagram of an endoscope assembly of the present invention;

fig. 2 is a diagram of the structure of the VR module of the present invention;

fig. 3 is the VR component of the present invention expands the schematic diagram.

In the figure: 100. the endoscope comprises an endoscope assembly, 110, an endoscope body, 120, an insertion tube, 130, a probe body, 140, a biopsy pipeline, 150, a communication box, 160, an ocular lens, 170, a light source adjusting button, 180, an adjusting assembly, 181, a probe adjusting button, 182, a first focal length adjusting button, 183, a first screenshot button, 200, a VR assembly, 210, a head-mounted fixer, 220, a visual mirror, 230, a VR display, 240, a second focal length adjusting button, 250, a second screenshot button, 260, a memory card slot, 270 and a data interface.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

The invention provides a portable electronic endoscope based on VR technology, which can observe the operation condition of a patient through VR eyes, so that a doctor can obtain a better operation visual angle to be personally on the scene, and the operation information can be conveniently and randomly stored and reported.

Fig. 1-3 show schematic structural views of an embodiment of a portable electronic endoscope based on VR technology according to the present invention, and referring to fig. 1-3, the main body of the portable electronic endoscope based on VR technology of the present embodiment includes an endoscope assembly 100 and a VR assembly 200.

The endoscope assembly 100 is used for direct peeking detection, and specifically, the endoscope assembly 100 comprises an endoscope body 110, an insertion tube 120 installed on the right side of the endoscope body 110, a probe body 130 installed inside the insertion tube 120, a biopsy channel 140 installed on the upper portion of the endoscope body 110, and a communication box 150 installed on the top of the endoscope body 110, when in use, firstly, the probe body 130 is inserted into a patient through the insertion tube 120, the environment in the patient is illuminated by light from the probe and the signal is collected by the probe and transmitted to the probe body 130, then, the signal is transmitted to the communication box 150 through the probe body 130, the signal is transmitted to the VR assembly 200 through the communication box 150, the condition in the patient is observed through the VR assembly 200, and when living tissue detection is needed, only sampling operation is needed through the biopsy channel 140 and the insertion tube 120;

the VR assembly 200 is used for real-time wireless detection of the condition in the patient, and specifically, the VR assembly 200 includes a head-mounted holder 210, a sight glass 220 mounted on the head-mounted holder 210, and a VR display 230 mounted on the sight glass 220 through a hinge; VR display 230 of VR subassembly 200 passes through communication box 150 wireless connection with endoscope subassembly 100, in use, communication box 150 through endoscope subassembly 100 will look screen signal transmission for VR display 230, only need with VR subassembly 200 wear through head-mounted fixer 210 and observe can, only need to upwards lift up VR display 230 and the sight glass 220 is ninety degrees contained angle and lifts up when needs communicate with doctor's patient, can, make VR display 230 not influence the operation, make and need not lift down VR subassembly 200 and can carry out other work, doctor's work efficiency is greatly improved.

The endoscope assembly 100 further comprises an eyepiece 160 mounted on the left side of the endoscope body 110, a light source adjusting button 170 mounted on the side wall of the endoscope body 110, and a probe adjusting assembly 180 mounted on the side wall of the endoscope body 110, so that the inside of a patient body can be observed directly through the eyepiece 160 due to the arrangement of the eyepiece 160, and the adjustment operation can be performed conveniently during direct observation due to the arrangement of the light source adjusting assembly 180 and the probe adjusting assembly 180 on the side wall of the endoscope body 110; the adjusting assembly 180 comprises a probe adjusting button 181 arranged on the side wall of the endoscope body 110, a first focus adjusting button 182 arranged on the side wall of the endoscope body 110 and a first screenshot button 183 arranged on the side wall of the endoscope body 110, and through the first focus adjusting button, the first adjusting button and the first screenshot button 183, the micro-distance adjustment and the real-time adjustment of the probe can be facilitated, and the direct screenshot operation can be facilitated; the VR component 200 further includes a second focus adjustment button 240 mounted on the sidewall of the VR display 230, a second screenshot button 250 mounted on the sidewall of the VR display 230, a memory card slot 260 disposed on the sidewall of the VR display 230, and a data interface 270 disposed on the sidewall of the VR display 230, so that screenshot can be conveniently performed in real time when the VR is worn, the definition of the probe can be adjusted, screenshot can be conveniently performed, and data transmission and storage can be conveniently performed; the head-mounted fixer 210 is made of elastic bandage material, which is beneficial to doctors with different head circumference.

The working principle is as follows: when the portable electronic endoscope based on VR technology is used, the device is powered firstly (the endoscope body can be powered by a battery or an external power supply); a communication box 150 is loaded on the endoscope assembly (which can be connected with corresponding display equipment through wifi or 5G and the like), so that the endoscope assembly is wirelessly connected with the VR assembly 200; the report can be saved at any time by loading a screenshot button on the endoscope component; through adding a plurality of VR subassemblies 200 at the endoscope body, can let the operation of main operation hand in person, this VR subassembly 200 can realize flip function simultaneously (a flip will with not taking glasses the same), 2 to 3 VR subassemblies 200 all can link to each other with the endoscope main part, and VR subassembly 200 itself has the screenshot function, no matter be main operation hand or vice hand all can be preserved the picture of oneself interest, realize wireless transmission simultaneously.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. A portable electronic endoscope based on VR technique, comprising:

the endoscope assembly (100) comprises an endoscope body (110), an insertion tube (120) arranged on the right side of the endoscope body (110), a probe body (130) arranged in the insertion tube (120), a biopsy channel (140) arranged on the upper part of the endoscope body (110) and a communication box (150) arranged on the top of the endoscope body (110);

a VR assembly (200) including a head-mounted holder (210), a sight glass (220) mounted on the head-mounted holder (210), a VR display (230) mounted on the sight glass (220) by a hinge;

wherein, VR display (230) of VR subassembly (200) and endoscope subassembly (100) pass through communication box (150) wireless connection.

2. The VR technology based portable electronic endoscope of claim 1, wherein the endoscope assembly (100) further includes an eyepiece (160) mounted on a left side of the endoscope body (110), a light source adjustment knob (170) mounted on a side wall of the endoscope body (110), and a probe adjustment assembly (180) mounted on a side wall of the endoscope body (110).

3. The VR technology based portable electronic endoscope of claim 2, wherein the adjustment assembly (180) comprises a probe adjustment knob (181) mounted on a side wall of the endoscope body (110), a first focus adjustment knob (182) mounted on the side wall of the endoscope body (110), and a first screenshot button (183) mounted on the side wall of the endoscope body (110).

4. The VR-technology-based portable electronic endoscope of claim 1, wherein the VR assembly (200) further comprises a second focus adjustment button (240) mounted on a side wall of the VR display (230), a second screenshot button (250) mounted on the side wall of the VR display (230), a memory card slot (260) disposed on the side wall of the VR display (230), and a data interface (270) disposed on the side wall of the VR display (230).

5. The VR technology based portable electronic endoscope of claim 1, where the head-mounted holder (210) is made of elastic band material.

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