CN209884101U

CN209884101U - Electronic oral endoscope

Info

Publication number: CN209884101U
Application number: CN201822230532.0U
Authority: CN
Inventors: 刘宇星
Original assignee: Foshan Kenuo Medical Devices Co
Current assignee: Foshan Kenuo Medical Devices Co
Priority date: 2018-12-28
Filing date: 2018-12-28
Publication date: 2020-01-03
Anticipated expiration: 2028-12-28

Abstract

The utility model provides an electronic oral endoscope, which comprises an endoscope main body, a control processor, a camera module, an illuminating module and a switch control module; the endoscope main body comprises a handheld part, an extending connecting rod and a functional module mounting part; the camera module comprises a macro lens and a CMOS image sensor, and the macro lens is embedded in the front of the functional module mounting part; the LED light ring comprises two groups of LED lamps with different color temperatures, the two groups of LED lamps with different color temperatures alternately form the LED light ring, and the LED light ring is arranged around the macro lens. The color temperature is adjusted through two groups of LED lamps with different color temperatures. The utility model provides an electronic oral endoscope has adjustable colour temperature, easy and simple to handle, has multi-functional, small advantage concurrently.

Description

Electronic oral endoscope

Technical Field

The utility model belongs to the field of medical equipment, especially, relate to an electron oral cavity endoscope.

Background

With the continuous update of medical equipment, electronic oral endoscopes are increasingly used in various hospitals and clinics. The electronic oral endoscope is a specially-structured camera lens, can be inserted into oral cavity, and can display clear and magnified images on the computer or television screen. With the help of the endoscope system, the stomatologist can better find the pathological changes on soft and hard tissues. And the patient can intuitively and comprehensively know the odontopathy and the odontopathy defect which cannot be seen by the patient at ordinary times, such as stains, bacterial plaques, dental calculus, gingivitis and the like on the surfaces of the teeth in the oral cavity.

Although more intelligent and convenient than the traditional oral endoscope, the electronic oral endoscope has the following defects: the color temperature of the illuminating lamp is set to be single, so that the requirements of different scenes of a user cannot be met; button control is mostly adopted, so that the picture is blurred due to shaking during photographing; the endoscope in the oral cavity has single function and can only be used for observing the oral cavity, and the instruments need to be replaced when other treatments are carried out; the volume of the part extending into the oral cavity is too large, so that the operation is inconvenient or the patient feels foreign body; the switch is unreasonable in arrangement, so that the problem of false start exists; the handle is unreasonable in design and uncomfortable to hold.

SUMMERY OF THE UTILITY MODEL

Based on the problems in the prior art, the utility model provides an electronic oral endoscope, which comprises an endoscope main body, a control processor, a camera module, a lighting module and a switch control module; the endoscope main body comprises a handheld part, an extending connecting rod and a functional module mounting part; the camera module comprises a macro lens and a CMOS image sensor, and the macro lens is embedded in the front of the functional module mounting part; the LED light ring comprises two groups of LED lamps with different color temperatures, the two groups of LED lamps with different color temperatures alternately form the LED light ring, and the LED light ring is arranged around the macro lens. The color temperature is adjusted through two groups of LED lamps with different color temperatures. The utility model provides an electronic oral endoscope has adjustable colour temperature, easy and simple to handle, has multi-functional, small advantage concurrently.

The utility model discloses a following detailed technical scheme reaches the purpose:

an electronic oral endoscope comprises an endoscope main body, a control processor, a camera module, an illumination module and a switch control module;

the endoscope main body comprises a handheld part, an extension connecting rod and a functional module mounting part, wherein the upper end of the handheld part is connected with the lower end of the functional module mounting part through the extension connecting rod;

the camera module comprises a macro lens and a CMOS image sensor, and the macro lens is embedded in the front of the functional module mounting part;

the lighting module is embedded in the front of the functional module mounting part, and the switch control module is arranged on the back of the handheld part;

the lighting module is an LED light ring which is embedded in the front of the functional module mounting part and comprises two groups of LED lamps with different color temperatures, the two groups of LED lamps with different color temperatures alternately form the LED light ring, the LED light ring is arranged around the macro lens in a surrounding manner, and the two groups of LED lamps with different color temperatures are mutually connected in parallel;

the switch control module comprises a touch switch and a touch control panel, the touch switch is arranged at the lower part of the handheld part, and the touch control panel is arranged at the upper part of the handheld part;

the control processor is respectively electrically connected with the camera module, the touch switch and the touch control panel, the two groups of LED lamps with different color temperatures are respectively electrically connected with the touch switch, and the control processor is electrically connected with the external display;

cavities are formed in the handheld part, the extending connecting rod and the functional module mounting part, the cavities are mutually communicated and used for placing connecting cables of electronic components, a through hole is formed in the bottom of the handheld part, and the connecting cables penetrate through the through hole and are connected with an external display;

the touch switch is used for controlling the on or off of two groups of LED lamps with different color temperatures, and a user can select to turn on one group of LED lamps or turn on two groups of LED lamps simultaneously, so that three different illumination modes are provided, and different requirements of stomatologists are met, wherein the color temperatures of the two groups of LED lamps with different color temperatures can be selected in the following different intervals of 2700K ~ 3200K, 3200K ~ 5000K and 5000K ~ 6500K, for example, one group of the LED lamps has the color temperature of 3000K and the other group of the LED lamps has the color temperature of 5800K, or one group of the LED lamps has the color temperature of 3000K and the other group of the LED lamps has the color temperature of 4100K and the other group of the LED lamps has the color temperature of 5800K, and it needs to be noted that three groups or more groups of the LED lamps with;

meanwhile, the influence of shaking on picture taking or real-time image pictures during picture taking or other operations is reduced by using the touch switch and the touch control panel.

The electronic oral endoscope also comprises an ultraviolet curing lamp, the ultraviolet curing lamp is embedded in the front of the functional module mounting part, the ultraviolet curing lamp is arranged below the macro lens and positioned in the LED light ring, and the ultraviolet curing lamp is controlled to be turned on and off by the touch switch; when the curing operation is required by the stomatologist, the curing operation can be directly carried out by using the electronic oral endoscope without replacing the instrument, and the curing degree can be observed by the macro lens.

The electronic oral endoscope also comprises a blue dental caries detection lamp, the blue dental caries detection lamp is embedded in the front of the functional module installation part, the blue dental caries detection lamp is arranged below the macro lens and positioned in the LED light ring, and the blue dental caries detection lamp is controlled to be turned on and off through the touch switch; when an oral physician needs to use the blue-light decayed tooth detection lamp, the blue-light decayed tooth detection lamp on the electronic oral endoscope can be directly used without replacing instruments, and dental plaque or dental calculus has stronger absorption to the blue light of 400-420 nm and can generate a fluorescence signal in a visible red light region of 590-650 nm; by using the polarizing device and the long-wave orange-red filter, the fluorescence signal can be observed by naked eyes, and can be recorded in an image through the CCD and CMOS image sensors, so that the disease tracking analysis is facilitated.

The functional module installation part is an 8-shaped installation part, the LED light ring is an 8-shaped light ring, and the 8-shaped light ring is embedded in the 8-shaped installation part in parallel with the edge of the 8-shaped installation part;

the macro lens is positioned at the upper part of the 8-shaped light ring, namely the upper part of the 8-shaped installation part, and the ultraviolet curing lamp or the blue light decayed tooth detection lamp is positioned at the lower part of the 8-shaped light ring, namely the lower part of the 8-shaped installation part;

through the arrangement of the 8-shaped light ring, the shadow formed by the upper part and the lower part of the installation part of the functional module due to the fact that the LED lamps are too far away is reduced, and the imaging effect of the electronic oral endoscope is improved.

The diameter of one end of the extending connecting rod, which is connected with the handheld part, is larger than that of one end of the extending connecting rod, which is connected with the functional module mounting part, and the diameter of one end of the extending connecting rod, which is connected with the functional module mounting part, is less than or equal to 9 mm;

the width of the front surface of the 8-shaped mounting part is less than or equal to 16mm, and the width of the side surface of the 8-shaped mounting part is less than or equal to 9 mm;

the volume of diameter and 8 font installation departments that lead to reducing to stretch into the connecting rod reduces the volume that electron oral cavity endoscope stretched into patient oral cavity part, reduces patient's foreign matter and feels, improves the comfort level of patient treatment in-process.

The left side and the right side of the handheld part are both provided with convex ridges which are used for assisting the handheld part to hold; when an oral cavity doctor uses the electronic oral endoscope, the holding and operating comfort of the holding part can be improved through the two convex ridges, for example, the oral cavity doctor can flatly place the holding part of the electronic oral endoscope on a middle finger and a tiger's mouth like holding a pen, and a thumb and a forefinger are respectively pressed on the convex ridges on the left side and the right side of the holding part, so that the holding can be facilitated, and meanwhile, the problem of mistakenly touching a touch switch and a touch control panel can be reduced.

The control processor is respectively electrically connected with the touch camera switch, the touch split screen switch and the touch change-over switch, and the touch camera switch, the touch split screen switch and the touch change-over switch are sequentially arranged on the touch control panel and are parallel to the axis of the handheld part;

the functional module mounting part is provided with toughened glass, and the toughened glass covers on the macro lens and the lighting module and is used for protecting the macro lens and the lighting module and preventing foreign matters from scratching or staining the macro lens and the lighting module.

The endoscope comprises a handle part, a base and an endoscope body, wherein the endoscope body is arranged on the base;

a magnet is arranged in the base, a magnetic suction switch is arranged in the handheld part at a position opposite to the magnet, and the magnetic suction switch is electrically connected with the control processor or is connected with the touch switch in series;

when placing in the arc standing groove that the handheld portion of endoscope main part crouched horizontally, the switch is inhaled to magnetism is triggered, and electron oral cavity endoscope is in the unable opening of locking state and can self-closing when electron oral cavity endoscope is in the open mode, and when electron oral cavity endoscope takes off the back from the base, electron oral cavity endoscope can normally open through touch switch, sets up like this and has avoided electron oral cavity endoscope in the current product because forget to close the problem of opening for a long time.

The handheld portion is internally provided with an attitude sensing module, the attitude sensing module is one or a combination of multiple acceleration sensors, a gyroscope, an inclination sensor, an angular velocity sensor and a magnetic field sensor, the attitude sensing module is electrically connected with the control processor, the attitude sensing module can be selectively started according to the needs of an oral doctor, and the control processor can sense the holding attitude of the electronic oral endoscope through the attitude sensing module after the attitude sensing module is started, so that the display angle of pictures and images can be automatically corrected, and the observation of the oral doctor is facilitated.

The utility model adopts the above technical scheme's beneficial effect:

1. the requirements of different illumination modes of the stomatologist are met by arranging a plurality of groups of LED lamps with different color temperatures.

2. The touch switch and the touch control panel are used, so that the influence of shaking on picture taking or real-time image pictures during shooting or other operations is reduced.

3. The ultraviolet curing lamp and the blue light decayed tooth detecting lamp are added, the functions of the electronic oral endoscope are increased, and the inconvenience caused by frequent instrument replacement is reduced.

4. Through the arrangement of the 8-shaped light ring, the shadow formed by the upper part and the lower part of the installation part of the functional module due to the fact that the LED lamps are too far away is reduced, and the imaging effect of the electronic oral endoscope is improved.

5. The volume of the part, extending into the oral cavity of a patient, of the electronic oral endoscope is reduced, foreign body sensation of the patient is reduced, and comfort level of the patient in the treatment process is improved.

6. The raised ridge is added on the hand-held part, so that the holding by the stomatologist is facilitated, and the mistaken touch of the touch switch and the touch control panel is reduced.

7. A magnetic attraction switch is added to serve as a state control switch, and when the electronic oral endoscope is placed on the base, the electronic oral endoscope is automatically locked or closed.

8. And a posture sensing module is added, so that the display angles of pictures and images can be automatically corrected, and the oral cavity doctors can conveniently observe the pictures and the images.

Drawings

Fig. 1 shows a front view (left), a right view (middle), and a rear view (right) of an electronic oral endoscope according to an embodiment of the present invention.

Fig. 2 is an enlarged schematic structure diagram at a in fig. 1.

Fig. 3 is a schematic view of the LED light ring structure according to the embodiment of the present invention.

Fig. 4 is a schematic structural view of an electronic oral endoscope according to an embodiment of the present invention.

Fig. 5 is a schematic view of a base structure according to an embodiment of the present invention.

Fig. 6 shows a front view (left), a right view (middle), and a rear view (right) of the electronic oral endoscope (including the base) according to the embodiment of the present invention.

Fig. 7 is a schematic structural view of an electronic oral endoscope (including a base) according to an embodiment of the present invention.

10. The handheld portion, 11, the convex ridge, 20, stretch into the connecting rod, 30, the functional module installation department, 41, macro lens, 50, the LED aureole, 60, touch switch, 61, touch control panel, 62, touch-control camera switch, 63, touch-control split screen switch, 64, touch change over switch, 70, ultraviolet curing lamp, 80, base, 81, arc standing groove.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

the endoscope main body comprises a handheld part 10, an extending connecting rod 20 and a functional module mounting part 30, wherein the upper end of the handheld part 10 is connected with the lower end of the functional module mounting part 30 through the extending connecting rod 20;

the camera module comprises a macro lens 41 and a CMOS image sensor, wherein the macro lens 41 is embedded in the front surface of the functional module mounting part 30;

the lighting module is embedded in the front of the functional module mounting part 30, and the switch control module is arranged on the back of the handheld part 10;

the lighting module is an LED light ring 50, the LED light ring 50 is embedded in the front of the functional module installation part 30, the LED light ring 50 comprises two groups of LED lamps with different color temperatures, the two groups of LED lamps with different color temperatures alternately form the LED light ring 50, the LED light ring 50 is arranged around the macro lens 41 in a surrounding manner, and the two groups of LED lamps with different color temperatures are mutually connected in parallel;

the switch control module comprises a touch switch 60 and a touch control panel 61, the touch switch 60 is arranged at the middle lower part of the handheld part 10, and the touch control panel 61 is arranged at the middle upper part of the handheld part 10;

the control processor is respectively electrically connected with the camera module, the touch switch 60 and the touch control panel 61, the two groups of LED lamps with different color temperatures are respectively electrically connected with the touch switch 60, and the control processor is electrically connected with the external display;

cavities are formed in the handheld part 10, the extension connecting rod 20 and the functional module mounting part 30 and used for placing connecting cables of electronic components, a through hole is formed in the bottom of the handheld part 10, and the connecting cables penetrate through the through hole and are connected with an external display;

the touch switch 60 is used for controlling the turning on or off of two groups of LED lamps with different color temperatures, and a user can select to turn on one group of LED lamps or turn on two groups of LED lamps simultaneously, so that three different illumination modes are provided, and different requirements of stomatologists are met, wherein the color temperatures of the two groups of LED lamps with different color temperatures are selected in the following different intervals of 2700K ~ 3200K, 5000K ~ 6500K, for example, one group of the LED lamps is 3000K, the other group of the LED lamps is 5800K, and it needs to be noted that three groups or more groups of LED lamps with different color temperatures can be arranged according to requirements to meet the use requirements of the user;

meanwhile, by using the touch switch 60 and the touch control panel 61, the influence of shaking during photographing or other operations on photographed pictures or real-time image pictures is reduced.

Preferably, the electronic oral endoscope further comprises an ultraviolet curing lamp 70, the ultraviolet curing lamp 70 is embedded in the front surface of the functional module mounting part 30, the ultraviolet curing lamp 70 is arranged below the macro lens 41 and in the LED light ring 50, and the ultraviolet curing lamp 70 is controlled to be turned on or off by the touch switch 60; when the curing operation is required by the stomatologist, the curing operation can be directly carried out by using the electronic oral endoscope without replacing the instrument, and the curing degree can be observed by the macro lens 41.

Preferably, the functional module mounting part 30 is an 8-shaped mounting part, the LED light ring 50 is an 8-shaped light ring, and the 8-shaped light ring is embedded in the 8-shaped mounting part in parallel with the edge of the 8-shaped mounting part;

the macro lens 41 is positioned at the upper part of the 8-shaped halo, namely the upper part of the 8-shaped installation part, and the ultraviolet curing lamp 70 is positioned at the lower part of the 8-shaped halo, namely the lower part of the 8-shaped installation part;

through the arrangement of the 8-shaped light ring, the shadow formed by the upper part and the lower part of the functional module installation part 30 due to the fact that the distance between the LED lamps is too far away is reduced, and the imaging effect of the electronic oral endoscope is improved.

Preferably, the extending connecting rod 20 is a diameter-gradually-changed connecting rod, the diameter of one end of the extending connecting rod 20, which is connected with the handheld part 10, is larger than the diameter of one end of the extending connecting rod 20, which is connected with the functional module mounting part 30, and the diameter of one end of the extending connecting rod 20, which is connected with the functional module mounting part 30, is equal to 9 mm;

the front width of the 8-shaped mounting part is equal to 16mm, and the side width of the 8-shaped mounting part is equal to 9 mm;

the diameter of stretching into connecting rod 20 and the volume of 8 font installation departments are reduced to the general reduction, reduce the volume that electron oral cavity endoscope stretched into patient's oral cavity part, reduce patient's foreign matter and feel, improve the comfort level of patient treatment in-process.

The left side and the right side of the handheld part 10 are both provided with convex ridges 11, and the convex ridges 11 are used for assisting the handheld part 10 to hold; when an oral cavity doctor uses the electronic oral cavity endoscope, the comfort level of holding and operation of the handheld part 10 can be improved through the two convex ridges 11, for example, the oral cavity doctor can flatly place the handheld part 10 of the electronic oral cavity endoscope on the middle finger and the tiger's mouth like holding a pen, and the thumb and the forefinger are respectively pressed on the convex ridges 11 on the left side and the right side of the handheld part 10, so that the holding is convenient, and meanwhile, the problem of mistakenly touching the touch switch 60 and the touch control panel 61 can be reduced.

Preferably, the touch control panel 61 is provided with a touch control camera switch 62 for controlling the camera module to take a picture, a touch control split screen switch 63 for controlling the split screen of the external display, and a touch control change-over switch 64 for controlling the image change-over of the external display, the control processor is respectively electrically connected with the touch control camera switch 62, the touch control split screen switch 63, and the touch control change-over switch 64, and the touch control camera switch 62, the touch control split screen switch 63, and the touch control change-over switch 64 are sequentially arranged on the touch control panel 61 and are parallel to the axis of the handheld portion 10;

the functional module mounting part 30 is provided with tempered glass which covers the macro lens 41 and the lighting module to protect the macro lens 41 and the lighting module and prevent foreign objects from scratching or staining the macro lens 41 and the lighting module.

Preferably, the endoscope comprises a base 80 for placing the endoscope body, wherein the base 80 is provided with an arc-shaped placing groove 81, and the endoscope body handheld part 10 is partially placed in the arc-shaped placing groove 81 in a lying manner;

a magnet is arranged in the base 80, a magnetic switch is arranged in the handheld part 10 at a position corresponding to the magnet, and the magnetic switch is electrically connected with the control processor or is connected with the touch switch 60 in series;

when the endoscope main body hand-held part 10 is placed in the arc-shaped placing groove 81 in a horizontal mode, the magnetic suction switch is triggered, the electronic oral endoscope is in a locking state and cannot be opened, and the electronic oral endoscope can be automatically closed when being in an opening state, and after being taken down from the base 80, the electronic oral endoscope can be normally opened through the touch switch 60, so that the problem that the electronic oral endoscope is opened for a long time due to forgetting to close in the existing product is avoided.

Preferably, an attitude sensing module is arranged in the handheld portion 10, the attitude sensing module is one or a combination of multiple acceleration sensors, gyroscopes, tilt sensors, angular velocity sensors and magnetic field sensors, the attitude sensing module is electrically connected with the control processor, the attitude sensing module can be selectively turned on according to needs of the stomatologist, and the control processor can sense the holding attitude of the electronic oral endoscope through the attitude sensing module after the attitude sensing module is turned on, so that the display angle of pictures and images can be automatically corrected, and the observation of the stomatologist is facilitated.

Example 2

The present embodiment is different from the above embodiments in that the ultraviolet curing lamp 70 is replaced by a blue-light caries detection lamp, the electronic oral endoscope may further include a blue-light caries detection lamp embedded in the front of the functional module mounting portion 30, the blue-light caries detection lamp is disposed below the macro lens 41 and within the LED light ring 50, and the on/off of the blue-light caries detection lamp is controlled by the touch switch 60; when an oral physician needs to use the blue-light decayed tooth detection lamp, the blue-light decayed tooth detection lamp on the electronic oral endoscope can be directly used without replacing instruments, and dental plaque or dental calculus has stronger absorption to the blue light of 400-420 nm and can generate a fluorescence signal in a visible red light region of 590-650 nm; by using the polarizing device and the long-wave orange-red filter, the fluorescence signal can be observed by naked eyes, and can be recorded in an image through the CCD and CMOS image sensors, so that the disease tracking analysis is facilitated.

The utility model adopts the beneficial effect of above-mentioned embodiment:

2. The touch switch 60 and the touch control panel 61 are used to reduce the influence of shaking on the photographed image or the real-time image when photographing or other operations are performed.

3. The ultraviolet curing lamp 70 and the blue light decayed tooth detecting lamp are added, so that the functions of the electronic oral endoscope are increased, and the inconvenience caused by frequent instrument replacement is reduced.

4. Through the arrangement of the 8-shaped light ring, the shadow formed by the upper part and the lower part of the functional module installation part 30 due to the fact that the distance between the LED lamps is too far away is reduced, and the imaging effect of the electronic oral endoscope is improved.

6. The raised ridge 11 is added to the handle 10 to facilitate the holding by the oral practitioner, while reducing the possibility of accidental touching of the touch switch 60 and the touch control panel 61.

7. A magnetic attraction switch is added to serve as a state control switch, and when the electronic oral endoscope is placed on the base 80, the electronic oral endoscope is automatically locked or closed.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. An electronic oral endoscope is characterized by comprising an endoscope main body, a control processor, a camera module, an illuminating module and a switch control module;

the lighting module is an LED light ring which is embedded in the front of the functional module mounting part and comprises two groups of LED lamps with different color temperatures, the two groups of LED lamps with different color temperatures alternately form the LED light ring, and the LED light ring is arranged around the macro lens in a surrounding manner;

the control processor is respectively electrically connected with the camera module, the touch switch and the touch control panel, the two groups of LED lamps with different color temperatures are respectively electrically connected with the touch switch, and the control processor is electrically connected with the external display.

2. The electronic oral endoscope of claim 1, further comprising an ultraviolet curing lamp embedded in the front of the functional module mounting portion, the ultraviolet curing lamp being disposed below the macro lens and within the LED light ring; the functional module installation part is an 8-shaped installation part, the LED light ring is an 8-shaped light ring, and the 8-shaped light ring is embedded in the 8-shaped installation part in parallel with the edge of the 8-shaped installation part;

the macro lens is positioned at the upper part of the 8-shaped halo, namely the upper part of the 8-shaped installation part, and the ultraviolet curing lamp is positioned at the lower part of the 8-shaped halo, namely the lower part of the 8-shaped installation part.

3. The electronic oral endoscope of claim 1, further comprising a blue-light caries detection lamp embedded in the front of the functional module mounting portion, the blue-light caries detection lamp being disposed below the macro lens and within the LED light ring; the functional module installation part is an 8-shaped installation part, the LED light ring is an 8-shaped light ring, and the 8-shaped light ring is embedded in the 8-shaped installation part in parallel with the edge of the 8-shaped installation part;

the macro lens is positioned at the upper part of the 8-shaped halo, namely the upper part of the 8-shaped installation part, and the blue light decayed tooth detection lamp is positioned at the lower part of the 8-shaped halo, namely the lower part of the 8-shaped installation part.

4. The electronic oral endoscope of claim 2 or 3, wherein the extending connecting rod is a diameter-gradually-changing connecting rod, the diameter of one end of the extending connecting rod connected with the handheld part is larger than that of one end of the extending connecting rod connected with the functional module mounting part, and the diameter of one end of the extending connecting rod connected with the functional module mounting part is smaller than or equal to 9 mm;

the left side and the right side of the handheld portion are provided with convex ridges which are used for assisting the handheld portion to hold.

5. The electronic oral endoscope of claim 4, wherein the touch control panel is provided with a touch control camera switch for controlling the camera module to take a picture, a touch control split screen switch for controlling the split screen of the external display, and a touch control switch for controlling the image switching of the external display, and the control processor is electrically connected with the touch control camera switch, the touch control split screen switch and the touch control switch respectively;

the functional module installation part is provided with toughened glass, and the toughened glass covers on the macro lens and the lighting module and is used for protecting the macro lens and the lighting module.

6. The electronic oral endoscope of any one of claims 1, 2, 3 and 5, further comprising a base for placing the endoscope body, wherein the base is provided with an arc-shaped placing groove, and the endoscope body hand-holding part is placed in the arc-shaped placing groove in a lying manner;

the base is internally provided with a magnet, a magnetic suction switch is arranged in the handheld part at a position opposite to the magnet, and the magnetic suction switch is electrically connected with the control processor or is connected with the touch switch in series.

7. The electronic oral endoscope of claim 6, wherein the hand-held portion is provided therein with a posture sensing module, the posture sensing module is one or a combination of acceleration sensor, gyroscope, tilt sensor, angular velocity sensor and magnetic field sensor, and the posture sensing module is electrically connected with the control processor.