CN213282827U - Portable novel laryngoscope - Google Patents

Abstract

The utility model discloses a portable novel laryngoscope, which comprises a shell, a protective cover, a conduit which can stretch into the throat, an information acquisition device which can acquire image information in the throat, a wireless transmission device which can transmit the image information to a mobile end, and a disinfection device which can disinfect the conduit and the information acquisition device, wherein the conduit is connected with one end of the shell, the other end of the conduit is a detection end and is provided with the information acquisition device, the wireless transmission device is positioned in the shell, the disinfection device is positioned in the shell, the protective cover can be connected with the shell to form a disinfection space, and the information acquisition device and the conduit are positioned in the disinfection space; compared with the prior art, portable novel laryngoscope easily carries, does not need often to go to the hospital and carries out the professional inspection, and teachers and students can follow the doctor's advice at school and accomplish the detection by oneself, and it is convenient to detect to conveniently observe every student's vocal cords, thereby the pertinence carries out pronunciation training to the student, and instrument itself possesses the disinfection function in addition, has reduced the sterile complicated procedure of manual operation.

Description

Portable novel laryngoscope

Technical Field

The utility model relates to a portable novel laryngoscope.

Background

In the selection and cultivation of vocals of colleges and universities, scientific voice detection and identification are guarantee of vocals learning, and are very complex and professional problems for carrying out careful voice detection and auditory identification analysis. As a human body musical instrument, the vocal musical instrument cannot be seen, students can learn vocalization completely by imagination and metaphor teaching of teachers, teaching vocal teachers cannot accurately know and master the vocal physiological structures (because the students cannot see), vocal conditions and lack of medical sound health knowledge, conditions cannot be given to correspondingly match the style and type of singing works, and the vocal musical instrument cannot be scientifically detected and identified comprehensively for vocal voices of the vocal students. The voice condition and the voice rule of the students are not respected, the students are scientific, individual, education according to the situation, and no uniform professional terms exist in vocal music teaching, so that voice diseases of the students are easily caused, or the disease condition is more worsened; eventually, students are confused if they do not have the proper definitions of the vocal parts and characters and the teacher training goals. Repetitive training greatly prolongs the culture period of vocal talents, and reduces the learning efficiency of students. However, the existing laryngoscopes are generally used for medical examination, are complex in structure, inconvenient to carry and not suitable for frequently used vocal cord examination for students.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model provides a portable novel laryngoscope to solve at least one problem that exists among the prior art.

According to one aspect of the utility model, a novel portable laryngoscope is provided, which comprises a shell, a protective cover, a conduit capable of extending into the throat, an information acquisition device capable of acquiring image information in the throat, a wireless transmission device capable of transmitting the image information to a mobile end, and a disinfection device capable of disinfecting the conduit and the information acquisition device, wherein the conduit is connected with one end of the shell, the other end of the conduit is a detection end and is provided with the information acquisition device, the wireless transmission device and the disinfection device are both positioned in the shell, the protective cover can be connected with the shell to form a disinfection space, and the information acquisition device and the conduit are positioned in the disinfection space; the information acquisition device comprises a rotatable camera for acquiring image data in the throat in an all-dimensional manner, an LED illuminating lamp and a power supply, wherein the power supply is arranged in the shell, and the rotatable camera and the LED illuminating lamp are arranged at the detection end of the catheter and are electrically connected with the power supply; the guide pipe is a telescopic pipe; the wireless transmission device comprises a microcontroller and a wireless device which can be wirelessly connected with the mobile terminal, the output end of the rotary camera is connected with the input end of the microcontroller, and the input end of the wireless device is connected with the output end of the microcontroller.

Preferably, the interior of the conduit is of a hollow structure, and the rotary camera and the LED illuminating lamp are embedded in the detection end of the conduit.

Preferably, the detection end of the guide tube can be a beveled surface or a bent tube.

Preferably, the catheter comprises a fixing part, a telescopic part and a telescopic device, one end of the telescopic part is fixed in one end of the fixing part through the telescopic device, the other end of the fixing part is connected with the shell, and the other end of the telescopic part is a detection end.

Preferably, the telescopic device comprises a slide rail and a linear motor, the slide rail is arranged on the inner wall of the fixing part, the linear motor is positioned on the slide rail, and the output end of the linear motor is connected with one end of the telescopic part.

Preferably, degassing unit is equipped with the disinfection bottle installing port including disinfection bottle, electronic atomizer, the disinfection hole that is equipped with the antiseptic solution on the casing, is equipped with electronic atomizer in the disinfection bottle installing port, and the disinfection bottle is detachable to be installed in the disinfection bottle installing port, and the disinfection hole sets up and is connected the face at pipe and casing, and the disinfection hole is connected with electronic atomizer output through a hose.

Preferably, a sealing cover is arranged at the mounting opening of the disinfection bottle.

Preferably, the protective cover is connected with the shell to form a sealing strip.

Preferably, the wireless device may be a wireless transmitter.

Preferably, the shell is provided with a first switch for controlling the linear motor, a second switch for controlling the LED illuminating lamp and the rotary camera, and a third switch for controlling the electric atomizing nozzle.

The beneficial effects of the utility model reside in that: portable novel laryngoscope easily carries, does not need often to go to the hospital and carries out the professional inspection, and teachers and students can follow the doctor's advice at school and accomplish the detection by oneself, and it is convenient to detect to conveniently observe every student's vocal cords, thereby the pertinence pronounces the training to the student, and instrument itself possesses the disinfection function in addition, has reduced the sterile complicated procedure of manual operation.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a bent tube at the detection end of the catheter;

FIG. 3 is a schematic view showing a state during sterilization;

FIG. 4 is a schematic diagram of the present invention;

in the figure, the device comprises a shell 1, a shell 2, a protective cover 3, a wireless device 4, a microcontroller 5, a power supply 6, a linear motor 7, a fixing part 8, a telescopic part 9, a rotary camera 10, an LED illuminating lamp 11, a bent pipe 12, a disinfection hole 13, a hose 14, an electric atomization nozzle 15, a sealing cover 16, a rubber cap 17, a disinfection bottle 18 and a moving end.

Detailed Description

The invention will be further explained below with reference to the drawings and some embodiments.

In fig. 1-4, a novel portable laryngoscope comprises a casing 1, a protective cover 2, a conduit capable of extending into the throat, an information acquisition device capable of acquiring image information in the throat, a wireless transmission device capable of transmitting the image information to a movable end 18, and a disinfection device capable of disinfecting the conduit and the information acquisition device, wherein the conduit is connected with one end of the casing 1, the other end of the conduit is a detection end and is provided with the information acquisition device, the wireless transmission device is positioned in the casing 1, the disinfection device is positioned in the casing 1, the protective cover 2 can be connected with the casing 1 to form a disinfection space, and the information acquisition device and the conduit are positioned in the disinfection space; the information acquisition device comprises a rotary camera 9, an LED illuminating lamp 10 and a power supply 5, wherein the rotary camera 9 can rotate to acquire image data inside the throat in an all-dimensional manner, the power supply 5 is arranged inside the shell 1, and the rotary camera 9 and the LED illuminating lamp 10 are both arranged at the detection end of the catheter and are both electrically connected with the power supply 5; the guide pipe is a telescopic pipe; the wireless transmission device comprises a microcontroller 4 and a wireless device 3 which can be wirelessly connected with a mobile terminal 18, the output end of the rotary camera 9 is connected with the input end of the microcontroller 4, and the input end of the wireless device 3 is connected with the output end of the microcontroller 4.

In this embodiment, the inside of the conduit is a hollow structure, and the rotary camera 9 and the LED lighting lamp 10 are embedded in the detection end of the conduit.

In this embodiment, the detecting end of the catheter may be a beveled surface or a bent tube 11, and the beveled surface or the bent tube 11 is designed to adapt to the throat of a human body.

In this embodiment, the purpose of using the rotary camera 9 is to observe the specific structure of the throat in all directions, and the collection range of the image information is wide.

In this embodiment, as shown in fig. 2, when the detection of the catheter is to bend the tube 11, a rubber cap 16 is added to one end of the protective cover 2 to ensure that the whole catheter is sealed, so as to sterilize the catheter, isolate the catheter from the outside and prevent bacteria from entering the catheter.

In this embodiment, the catheter comprises a fixed part 7, a telescopic part 8 and a telescopic device, wherein one end of the telescopic part 8 is fixed in one end of the fixed part 7 through the telescopic device, the other end of the fixed part 7 is connected with the shell 1, and the other end of the telescopic part 8 is a detection end; the telescopic device comprises a slide rail and a linear motor 6, the slide rail is arranged on the inner wall of the fixed part 7, the linear motor 6 is positioned on the slide rail, and the output end of the linear motor 6 is connected with one end of the telescopic part 8; the purpose of the telescopic catheter is to adapt to the difference of throat structures of different detected persons; the telescopic structure of the conduit is the same as the structure and the principle of the existing telescopic rod.

In this embodiment, the disinfection device includes a disinfection bottle 17 filled with disinfection liquid, an electric atomizer 14 and a disinfection hole 12, a disinfection bottle mounting opening is arranged on the housing 1, the electric atomizer 14 is arranged in the disinfection bottle mounting opening, the disinfection bottle 17 is detachably mounted in the disinfection bottle mounting opening, the disinfection hole 12 is arranged on the connecting surface of the conduit and the housing 1, and the disinfection hole 12 is connected with the output end of the electric atomizer 14 through a hose 13; the purpose of setting up the degassing unit lies in: the used conduit portion can be sterilized and the electric atomizer head 14 has the same structure and principle as the electric atomizer head 14 commonly used in the art.

In this embodiment, the mounting opening of the disinfection bottle is provided with a sealing cover 15, and the connection manner of the sealing cover 15 and the mounting opening of the disinfection bottle is a commonly used technical means in the prior art, and can be a cover body which is opened by rotation or a cover body which is screwed out by screwing; the protective cover 2 is connected with the shell 1 to form a sealing strip, and the purpose of sealing is to prevent external bacteria from entering the guide pipe when the protective cover is idle, so that pollution is avoided.

In this embodiment, the wireless device 3 may be a wireless transmitter or bluetooth, and both the wireless transmitter and the bluetooth are technical means for wireless transmission in the prior art, and those skilled in the art should understand that details are not repeated herein.

In the embodiment, a first switch for controlling the linear motor 6, a second switch for controlling the LED lighting lamp 10 and the rotary camera 9, and a third switch for controlling the electric atomizer 14 are provided on the housing 1; the first switch includes an extend switch that extends the conduit and a shorten switch that shortens the conduit.

In this embodiment, the power source 5 may be a rechargeable battery; the type of the microcontroller 4 is a programmable single chip microcomputer of AT89C2051 or TMS320VC5509A and the like; the model of the rotary camera 9 can be JX018427 or JX 018446.

In the embodiment, when the detector holds the outside of the housing 1, the second switch is turned on, the rotating camera and the LED lighting lamp 10 are turned on, the conduit is slowly inserted into the mouth of the detector, the length of the conduit is finely adjusted by the telescopic conduit, the position of the linear motor 6 is adjusted by adjusting the extension switch and the shortening switch, so as to adjust the length of the conduit to a proper length (the length is different from person to person, depending on the specific operation), in the process of adjusting the length of the conduit, the camera 9 is rotated to collect image information, the image is transmitted to the microcontroller 4, the microcontroller 4 converts the image signal into an electric signal and transmits the electric signal to the wireless device 3, the wireless device 3 transmits the electric signal to the moving end 18, the moving end 18 converts the received electric signal into an image signal to display, the detector can adjust the telescopic length of the conduit according to the image signal, so as to avoid the injury to the detected person caused by the adjustment of the length, or the structure such as vocal cords can not be observed when the adjustment is short; after the inspector finishes being surveyed person's observation position image acquisition, take out the back with the pipe from the throat by the user, close the second switch, and through adjusting extension switch and shorten the switch, adjust linear electric motor 6's position, make the pipe resume original length, then cover safety cover 2, and open sealed lid 15, dock disinfection bottle 17 bottleneck and disinfection bottle 17 installing port, at this moment, start the third switch, open electronic atomizer 14, can make the antiseptic solution enter into safety cover 2 through disinfection hole 12, thereby disinfect to the pipe part, disinfect after the completion (disinfection time can be adjusted by oneself), close the third switch, and take out disinfection bottle 17, close sealed lid 15.

It is worth mentioning that: in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise. In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; may be a mechanical connection; the circuits described in the present invention are all commonly used circuits in the field, and other related components are all commonly used components, and for those skilled in the art, the specific meanings of the above terms in the present invention can be understood according to specific situations.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented 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.

Claims (10)

1. A portable novel laryngoscope is characterized by comprising a shell, a protective cover, a catheter which can extend into the throat, an information acquisition device which can acquire image information in the throat, a wireless transmission device which can transmit the image information to a moving end, and a disinfection device which can disinfect the catheter and the information acquisition device, wherein the catheter is connected with one end of the shell, the other end of the catheter is a detection end and is provided with the information acquisition device, the wireless transmission device and the disinfection device are both positioned in the shell, the protective cover can be connected with the shell to form a disinfection space, and the information acquisition device and the catheter are positioned in the disinfection space; the information acquisition device comprises a rotatable camera for acquiring image data in the throat in an all-dimensional manner, an LED illuminating lamp and a power supply, wherein the power supply is arranged in the shell, and the rotatable camera and the LED illuminating lamp are arranged at the detection end of the catheter and are electrically connected with the power supply; the guide pipe is a telescopic pipe; the wireless transmission device comprises a microcontroller and a wireless device which can be wirelessly connected with the mobile terminal, the output end of the rotary camera is connected with the input end of the microcontroller, and the input end of the wireless device is connected with the output end of the microcontroller.

2. A portable novel laryngoscope according to claim 1, wherein: the inside hollow structure that is of pipe rotates camera, LED light and all embeds in the sense terminal of pipe.

3. A portable novel laryngoscope according to claim 2, wherein: the detection end of the guide pipe can be a bevel cut surface or a bent pipe.

4. A portable novel laryngoscope according to claim 3, wherein: the pipe includes fixed part, pars contractilis and telescoping device, and pars contractilis one end is passed through the telescoping device and is fixed in fixed part one end, and the fixed part other end is connected with the casing, and the pars contractilis other end is the sense terminal.

5. A novel portable laryngoscope according to claim 4, wherein: the telescopic device comprises a slide rail and a linear motor, the slide rail is arranged on the inner wall of the fixed part, the linear motor is positioned on the slide rail, and the output end of the linear motor is connected with one end of the telescopic part.

6. A portable novel laryngoscope according to claim 1, wherein: the sterilizing device comprises a sterilizing bottle, an electric atomizing nozzle and a sterilizing hole, wherein the sterilizing bottle, the electric atomizing nozzle and the sterilizing hole are filled with sterilizing liquid, a sterilizing bottle mounting opening is formed in the shell, the electric atomizing nozzle is arranged in the sterilizing bottle mounting opening, the sterilizing bottle is detachably mounted in the sterilizing bottle mounting opening, the sterilizing hole is formed in the connecting surface of the guide pipe and the shell, and the sterilizing hole is connected with the output end of the electric atomizing nozzle through a hose.

7. A novel portable laryngoscope according to claim 6, wherein: the mounting opening of the disinfection bottle is provided with a sealing cover.

8. A portable novel laryngoscope according to claim 1, wherein: the protective cover is connected with the shell to form a sealing strip.

9. A portable novel laryngoscope according to claim 1, wherein: the wireless device may be a wireless transmitter.

10. A portable novel laryngoscope according to claim 8, wherein: the shell is provided with a first switch for controlling the linear motor, a second switch for controlling the LED illuminating lamp and the rotary camera, and a third switch for controlling the electric atomizing nozzle.

Images