CN211022545U - Portable wireless endoscope operation system - Google Patents

Abstract

The utility model provides a light wireless endoscope operation system, include: the host comprises a first cylindrical shell, an optical adapter arranged in the first cylindrical shell, an image acquisition device, a wireless image transmission device, a power supply management device and a battery; the light source comprises a second cylindrical shell, and further comprises a light source switching port, a luminous body and a battery which are arranged in the second cylindrical shell, a power switch is arranged at the third end of the second cylindrical shell, and the opening end of the second cylindrical shell is connected with the light source switching port; the tail end of the endoscope is provided with a connecting assembly, a first interface and a second interface are arranged on the connecting assembly, the first interface is connected with the host, and the second interface is connected with the light source; the utility model discloses a seal cover is nontoxic and can adopt multiple mode sterilization, has greatly reduced the bacterial contamination risk in the operation, simultaneously the utility model discloses small in size is light, and adopts wireless data transmission, is showing improvement its in use's flexibility and operator's antifatigue ability.

Description

Portable wireless endoscope operation system

Technical Field

The utility model relates to the field of medical treatment, especially, relate to a light wireless endoscope operation system.

Background

The current endoscopic surgery system for clinical application consists of a scope part, an illumination system (a cold light source and an optical fiber), and an image system (a camera device, a power supply and data circuit, an image processing device and a display). The physician handheld equipment is connected with the cold light source, the image processing device and the display part through optical fibers and electronic circuits, and the latter is large in size and heavy in connecting circuit, so that the flexibility of a surgeon is greatly reduced when the physician handheld equipment is used. Meanwhile, the camera device and the connecting line are all bacteria-bearing objects, and are connected with an intraoperative sterile instrument and an endoscopic lens, so that a large risk of bacterial pollution exists.

SUMMERY OF THE UTILITY MODEL

In order to overcome prior art's endoscope operation system, the nimble degree and the easy fatigue of line connection when seriously influencing the use have the higher problem of bacterial contamination risk simultaneously, the utility model provides a wireless endoscope operation system, especially a light wireless endoscope operation system, the purpose makes operation in-process data wireless transmission, and surgical instruments uses nimble light, and no bacterial contamination.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

A portable wireless endoscopic surgical system, comprising:

The host comprises a first cylindrical shell, the first cylindrical shell adopts a first sealing sleeve structure, the first cylindrical shell is provided with two ends which are respectively a first end and a second end, the first end is a closed end, the second end is an open end, the outer end face of the first end is provided with a host switch, the host further comprises an optical switching port, an image acquisition device, a wireless image transmission device and a host battery, the optical switching port, the image acquisition device, the wireless image transmission device and the host battery are arranged in the first cylindrical shell, the wireless image transmission device is arranged at the upper left part in the sealing sleeve, the battery is arranged below the wireless image transmission device, the image acquisition device is arranged at the right sides of the wireless image transmission device and the battery, the open end of the first cylindrical shell is connected with the optical switching port, and the optical switching port closes the open end;

The light source is connected with the host and the endoscope; the light source comprises a second cylindrical shell, the second cylindrical shell adopts a second sealing sleeve structure, the light source also comprises a light source switching port, a luminous body and a light source battery which are arranged in the second cylindrical shell, the second cylindrical shell is provided with two ends which are respectively a third end and a fourth end, the third end is a closed end, the fourth end is an open end, the third end of the second cylindrical shell is provided with a power switch, and the second cylindrical open end is connected with the light source switching port;

The endoscope, be provided with coupling assembling on the tail end of endoscope, coupling assembling is cylindrical or rectangle, the last first, two interfaces that are provided with of coupling assembling, first interface sets up coupling assembling's outer terminal surface, first interface links to each other with the host computer, the second interface sets up coupling assembling's side, the second interface links to each other with the light source.

Preferably, the image acquisition device adopts a CCD or CMOS module.

Preferably, the first and second cylindrical housings are cylindrical structures.

Preferably, the central axes of the main machine and the endoscope are positioned on the same straight line.

Preferably, the central axis of the light source is perpendicular to the central axis of the connection assembly.

preferably, the light emitter adopts L ED light source.

Preferably, the host further comprises a power management device for charging the battery, and the power management device is composed of a charging and discharging chip and a voltage regulating device.

Preferably, the optical interface comprises: the lens comprises a cylindrical connecting sleeve and a lens arranged in the connecting sleeve, wherein the center line of the lens is superposed with the center line of the cylindrical connecting sleeve.

Preferably, the portable wireless endoscopic surgery system further comprises a wireless receiving device and a display terminal, wherein the wireless receiving device receives the signal transmitted by the wireless image transmission device, and the wireless receiving device is connected with the display terminal.

The technical scheme has the following beneficial effects: the utility model provides a pair of light wireless endoscope operation system compares endoscope operation system in the past, the utility model discloses a wireless device transmission data has got rid of optic fibre, data connection line and power connecting wire, very big improvement operation doctor's nimble degree during the use, simultaneously, the seal cover that uses is nontoxic and can adopt multiple modes such as high pressure, hot vapor, ethylene oxide, gamma ray, electron beam to disinfect, has greatly reduced the bacterial contamination risk in the operation, simultaneously the utility model discloses small in size is light, about the medicine bottle size, and weight 100-150g, and adopt wireless data transmission, the improvement that is showing that its in use's flexibility and operator's antifatigue ability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is an exploded view of a portable wireless endoscopic surgical system according to the present invention;

FIG. 2 is a schematic diagram of a host of a portable wireless endoscopic surgical system of the present invention;

Fig. 3 is a schematic view of the light source of a portable wireless endoscopic surgical system of the present invention.

Reference numerals: 1-a host switch, 2-a first sealing sleeve, 3-a wireless image transmission device, 4-a host battery, 5-a power management device, 6-an image acquisition device, 7-an optical adapter, 8-a light source adapter, 9-a luminous body, 10-a light source battery, 11-a light source switch, 12-a second sealing sleeve, 13-a host, 14-a light source and 15-an endoscope.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, 2 and 3, fig. 1, 2 and 3 are schematic structural views of the present invention.

The utility model provides a light wireless endoscope operation system, include:

The host 13 comprises a first cylindrical shell, the first cylindrical shell adopts a first sealing sleeve 2 structure, the first cylindrical shell has two ends, namely a first end and a second end, the first end is a closed end, the second end is an open end, the outer end face of the first end is provided with a host switch 1, the host further comprises an optical switching port 7 arranged in the first cylindrical shell, an image acquisition device 6, a wireless image transmission device 3, a power supply management device 5 and a battery 4, the wireless image transmission device 3 is arranged at the upper left part in the sealing sleeve 2, the battery 4 is arranged below the wireless image transmission device 3, the image acquisition device 6 is arranged at the right side of the wireless image transmission device 3 and the battery 4, the image acquisition device 6 is provided with a photosensitive element for receiving light transmitted by an endoscope, and the image acquisition device 6 converts acquired images into digital or analog image signals, the collection and transmission of signals are convenient.

The image acquisition device 6 transmits image data to the wireless image transmission device 3 through a data line, the wireless image transmission device 3 serves as a wireless transmitting end and transmits the image data in a wireless signal mode, and a wireless receiving device outside the host machine receives and processes the signals and displays images through a display; the open end of the first cylindrical shell is connected with the optical adapter 7, the optical adapter 7 closes the open end, and the optical adapter 7 plays a role in projecting light rays or images and also plays a role in connecting the first sealing sleeve 2; the image acquisition device 6, the wireless image transmission device 3, the host battery 4 and the power management device 5 are integrated in a closed shell with the size of only one medicine bottle and are connected with the endoscope apparatus 15 through the connecting component, so that the flexibility of the doctor operation and the fatigue resistance degree of the wireless image transmission device can be better improved.

The light source 14 comprises a second cylindrical shell, the second cylindrical shell adopts a second sealing sleeve 12 structure, the second cylindrical shell is provided with two ends which are respectively a third end and a fourth end, the third end is a closed end, the fourth end is an open end, the third end of the second cylindrical shell is provided with a power switch 11, the light source further comprises a light source switching port 8, a luminous body 9 and a light source battery 10 which are arranged in the second cylindrical shell, and the open end of the second sealing sleeve 12 is connected with the light source switching port 8; the light source adapter port 8 plays a role in projecting light and also plays a role in connecting the second sealing sleeve 12; the luminous body 9, the light source battery 10 and the light source switch 11 form an independent illuminating device, are also packaged in an independent shell and are independently connected with the endoscope 15, so that illumination is provided for the endoscope 15, and the flexibility and the fatigue resistance of the doctor operation can be better improved.

The endoscope 15 is provided with a connecting assembly at the tail end of the endoscope 15, the connecting assembly is provided with a first interface and a second interface, the first interface is arranged on the outer end face of the connecting assembly, the first interface is connected with the host 13, the second interface is arranged on the side face of the connecting assembly, the second interface is connected with the light source 14, and the endoscope 15 is a mainstream commercial product; the endoscope 15 can be purchased directly in a mature product, and is convenient to replace after being worn, and the connecting component is an integral part of the endoscope 15.

The image is projected on a photosensitive element of the image acquisition device 6 by the endoscope 15 and the optical adapter 7, the image acquisition device 6 generates a digital or analog image signal, the image signal is transmitted by the wireless image transmission device 3, and the wireless receiving device receives the wireless signal, analyzes the wireless signal into an image and finally outputs the image to a display for display.

Further, the first sealing sleeve 2 is of a cylindrical structure, which is beneficial to sterilizing the main machine 13.

Further, the second sealing sleeve 12 is cylindrical, which facilitates sterilization of the light source 14.

Further, the main unit 13, the light source 14, the first sealing sleeve 2, and the second sealing sleeve 12 are not necessarily cylindrical in appearance, and may have other shapes such as rectangular shapes in some cases.

Further, the central axes of the main unit 13 and the endoscope 15 are located on the same straight line, which is beneficial to the transmission of light and images in the operation.

Further, the central axis of the light source 14 is perpendicular to the central axis of the connection assembly. Thus, the light source 14 can provide illumination without affecting image transmission, and the heat generated by the light source 14 does not affect the host 13 and the endoscope 15.

Furthermore, the axes of the host 13 and the endoscope 15 are not necessarily consistent, the axis of the light source 14 is not necessarily perpendicular to the connecting component, the relationship between the image acquisition module and the illuminant and the endoscope is correct, and the internal components of the host 13 and the light source 14 can be arranged in other manners.

Further, the image acquisition device 6 adopts a high-definition CCD module, image acquisition is not limited to CCD, other image acquisition modules can be used, and the image acquisition device 6 generates digital or analog image signals, facilitating signal acquisition and transmission.

Further, the wireless image transmission device 3 adopts a wireless transmission chip on the market, and adopts high-frequency signal transmission, wherein the high-frequency signal comprises a 1.2/2.4GHz analog signal, WiFi or Bluetooth digital signal, so that the signal acquisition and transmission are facilitated.

furthermore, the luminous body 9 adopts a high-brightness L ED light source or a cold light source, the power is 3w-11w, the imaging quality in the operation can be effectively improved, and the heat productivity can be effectively dissipated by the light source shell.

Furthermore, the host computer still includes power management device 5 for battery charging, power management device 5 comprises charge-discharge chip, voltage adjusting device, and its charging mode can adopt two kinds of modes of metal contact or wireless charging device, has got rid of the interface that charges, can directly carry out disinfection processing to the host computer, has effectually reduced the bacterial contamination risk in the operation. The power management device 5 may be compatible with or used in wireless chargers such as tulas, antique, first guards, joys, mophi, and the like on the market.

Further, the first sealing sleeve 2 or the second sealing sleeve 12 is made of medical silica gel, a PP material, stainless steel or aluminum alloy and the like, so that the sealing sleeves can be directly sterilized, and the risk of bacterial contamination in the operation is effectively reduced.

Further, the optical adapter 7 or the light source adapter 8 includes: the adapter sleeve of tube-shape and the lens of setting in the adapter sleeve, the excircle of lens with the inner wall of adapter sleeve links to each other, and the central line of lens coincides with the central line of the adapter sleeve of tube-shape, can the effectual imaging quality who improves in the operation, lens include shell and optical lens, have the screw thread on the shell can with coupling assembling links to each other, optical lens has spotlight, throws and clear transmission light's function.

Furthermore, the portable wireless endoscopic surgery system also comprises a wireless receiving device and a display terminal, wherein the wireless receiving device receives the signal transmitted by the wireless image transmission device, and the wireless receiving device is connected with the display terminal. For example, the portable wireless endoscopic surgical system further comprises: the mobile phone, the computer and the Ipad are internally provided with a wireless receiving device and a display terminal.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. A portable wireless endoscopic surgical system, comprising:

The host comprises a first cylindrical shell, the first cylindrical shell adopts a first sealing sleeve structure, the first cylindrical shell is provided with two ends which are respectively a first end and a second end, the first end is a host closed end, the second end is a host open end, the outer end face of the first end is provided with a host switch, the host further comprises an optical switching port, an image acquisition device, a wireless image transmission device and a host battery, the optical switching port is arranged in the first cylindrical shell, the wireless image transmission device is arranged at the upper left part in the sealing sleeve, the battery is arranged below the wireless image transmission device, the image acquisition device is arranged at the right sides of the wireless image transmission device and the battery, the host open end of the first cylindrical shell is connected with the optical switching port, and the optical switching port closes the host open end;

The light source is connected with the host and the endoscope; the light source comprises a second cylindrical shell, the second cylindrical shell adopts a second sealing sleeve structure, the light source also comprises a light source switching port, a luminous body and a light source battery which are arranged in the second cylindrical shell, the second cylindrical shell is provided with two ends which are respectively a third end and a fourth end, the third end is a light source closed end, the fourth end is a light source open end, the third end of the second cylindrical shell is provided with a power switch, and the light source open end of the second cylindrical shell is connected with the light source switching port;

The endoscope, be provided with coupling assembling on the tail end of endoscope, be provided with first, two interfaces on the coupling assembling, first interface sets up coupling assembling's outer terminal surface, first interface links to each other with the host computer, the second interface sets up coupling assembling's side, the second interface links to each other with the light source.

2. A portable wireless endoscopic surgical system according to claim 1, wherein said image capturing device is a CCD or CMOS module.

3. A portable wireless endoscopic surgical system according to claim 1, wherein said first and second cylindrical housings are cylindrical in configuration.

4. A portable wireless endoscopic surgical system according to claim 1, wherein the central axes of said main body and said endoscope are aligned.

5. A portable wireless endoscopic surgical system according to claim 1, wherein a central axis of said light source is perpendicular to a central axis of said connection assembly.

6. a portable wireless endoscopic surgical system according to claim 1, wherein said light source is an L ED light source.

7. A portable wireless endoscopic surgery system according to claim 1, wherein the host further comprises a power management device for charging the battery, and the power management device comprises a charging/discharging chip and a voltage regulating device.

8. A portable wireless endoscopic surgical system according to claim 1, wherein said optical interface comprises: the lens comprises a cylindrical connecting sleeve and a lens arranged in the connecting sleeve, wherein the center line of the lens is superposed with the center line of the cylindrical connecting sleeve.

9. A portable wireless endoscopic surgery system according to claim 1, further comprising a wireless receiving device and a display terminal, wherein the wireless receiving device receives the signal transmitted by the wireless image transmission device, and the wireless receiving device is connected to the display terminal.

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