Disclosure of Invention
The invention aims to solve the defects in the prior art and provides a biological detection electric toothbrush.
The invention relates to a technical scheme that:
the biological detection electric toothbrush comprises a brush handle, a connecting sleeve, a transparent brush head, a sensor PCB arranged in the brush head, a motor driving the sensor PCB to vibrate, a brush head PCB, a biological sensor for detecting microorganisms, a photosensitive sensor, a video sensor and a power supply control PCB, wherein one end of the connecting sleeve is detachably connected with the brush handle; the biosensor, photosensitive sensor, video sensor respectively with sensor PCB fixed connection, and biosensor, video sensor is close to the brush hair side of brush head respectively, and biosensor, photosensitive sensor, video sensor are connected with brush head PCB through the wire respectively, and brush head PCB is connected with power control PCB through the connecting terminal electricity that is equipped with, power control PCB passes through wifi, 4G, 5G, bluetooth, antenna or radio frequency and mobile terminal's APP is connected.
The preferred scheme is that a gyroscope sensor, a humidity sensor, a temperature sensor, an acceleration sensor and an infrared distance sensor are further fixed on the sensor PCB, and the gyroscope sensor, the acceleration sensor and the infrared distance sensor are respectively and electrically connected with the brush head PCB through wires.
The preferred scheme is that a mounting rack is arranged in a brush handle, the mounting rack is provided with a fixing groove for fixing a battery and a mounting groove for mounting a power supply control PCB, the side wall of the mounting groove is provided with a buckle, the side wall of the power supply control PCB is provided with a clamping groove, and when the power supply control PCB is mounted in the mounting groove, the buckle and the clamping groove are clamped with each other; a battery is fixed in the fixing groove and is electrically connected with the power supply control PCB.
The preferred scheme is that the connecting sleeve is of a hollow structure, the lower end of the brush head is inserted into the connecting sleeve and is in sealing connection with the connecting sleeve, the lower end of the connecting sleeve is inserted into the brush handle and is in sealing connection with the brush handle, and the connecting terminal is fixedly arranged in the connecting sleeve.
The preferred scheme is that the biological detection electric toothbrush further comprises an LED lamp, wherein the LED lamp is arranged in the brush head and is electrically connected with the power supply control PCB, a key is arranged on the side wall of the brush handle, and the key is electrically connected with the power supply control PCB.
One preferred embodiment is that the connection terminals are USB terminals or TPEY-C terminals, and at least two of the connection terminals are connected.
In combination with the technical scheme, the invention has the beneficial effects that: the method comprises the steps that a biosensor, a photosensitive sensor and a video sensor are arranged in a brush head, wherein the biosensor detects the types and the numbers of microorganisms in an oral cavity, the video sensor collects image signals in the oral cavity, the photosensitive sensor detects whether the brush head is in the oral cavity, the corresponding sensors respectively transmit corresponding signals to a power supply control PCB, the power supply control PCB processes the corresponding signals, the results are transmitted to an APP of a mobile terminal, and the APP of the mobile terminal displays the processing results; because the eccentric motor is arranged in the brush head, the vibration energy is absorbed by the brush head, and the tooth brushing effect is good.
The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention, as well as the preferred embodiments thereof, together with the following detailed description of the invention, given by way of illustration only, together with the accompanying drawings.
Detailed Description
As shown in fig. 1 to 4, a biological detection electric toothbrush comprises a brush handle 10, a connecting sleeve 20, a transparent brush head 30, a sensor PCB40 arranged in the brush head 30, a motor 41 driving the sensor PCB40 to vibrate, a brush head PCB42, a biological sensor 43 for detecting microorganisms, a photosensitive sensor 44, a video sensor 45 and a power supply control PCB50, wherein one end of the connecting sleeve 20 is detachably connected with the brush handle 10, and the other end is detachably connected with the brush head 30; the biosensor 43, the photosensitive sensor 44, the video sensor 45 respectively with sensor PCB40 fixed connection, and biosensor 43, photosensitive sensor 44, the video sensor 45 is close to the brush hair 31 side of brush head 30 respectively, biosensor 43, photosensitive sensor 44, video sensor 45 are connected with brush head PCB42 through the wire respectively, brush head PCB42 is connected with power control PCB50 through the connecting terminal 60 electricity that is equipped with, power control PCB50 is connected with mobile terminal's APP70 through wifi, 4G, 5G, bluetooth, antenna or radio frequency 80, wherein, mobile terminal is the cell-phone. The connection terminals 60 are USB terminals or TPEY-C terminals, and at least two of the connection terminals 60 are made of a hardware material, the connection terminals 60 are made of a metal material.
As shown in fig. 1 to 4, the biosensor 43 is used to detect the kind and quantity of microorganisms in the oral cavity, and then transmits the signal to the power control PCB50, and the power control PCB50 processes and analyzes the signal and transmits the processed result to the APP70 of the mobile terminal, and the APP70 of the mobile terminal displays the processed result. While the mobile terminal may also control the bio-sensor 43 for detecting the kind and quantity of micro-organisms in the oral cavity.
As shown in fig. 1 to 4, when the brush head 30 is positioned in the oral cavity for brushing teeth, the light intensity is detected by the light sensor 44, and then the signal is transmitted to the power control PCB50, the power control PCB50 processes and analyzes the signal and controls the motor 41 to operate, and when the brush head 30 is positioned outside the oral cavity, the light intensity is detected by the light sensor 44, and then the signal is transmitted to the power control PCB50, and the power control PCB50 processes and analyzes the signal and controls the motor 41 to stop operating; and transmitting the processing result to the APP70 of the mobile terminal, and displaying the processing result by the APP70 of the mobile terminal. The APP70 of the mobile terminal controls the motor 41 to run or stop.
As shown in fig. 1 to 4, the video sensor 45 detects an image signal in the oral cavity, and then transmits the signal to the power control PCB50, the power control PCB50 processes and analyzes the signal, and transmits the processing result to the APP70 of the mobile terminal, and the APP70 of the mobile terminal displays the processing result. The APP70, which may be a mobile terminal, may also control the video sensor 45 to capture images of the oral cavity. Therefore, the biological detection electric toothbrush can comprehensively and effectively detect basic conditions in the oral cavity, and the APP70 of the mobile terminal controls the corresponding sensor to detect basic information in the oral cavity.
As shown in fig. 1 to 4, the present invention can actually acquire information in the oral cavity and transmit the information to the APP70 of the mobile terminal, and can read from the APP70 of the mobile terminal the brushing habits, tooth health conditions, oral cavity cleanliness, and harmful bacteria.
As shown in fig. 1 to 4, a gyroscope sensor 46, a humidity sensor, a temperature sensor 49, an acceleration sensor 47 and an infrared distance sensor 48 are also fixed on the sensor PCB40, and the gyroscope sensor 46, the acceleration sensor 47 and the infrared distance sensor 48 are electrically connected with the brush head PCB42 through wires provided respectively. The temperature sensor 49 and the photosensor 44 can acquire whether or not to be put into the oral cavity. The acceleration sensor 47 can acquire the brushing motion. The gyro sensor 46 can acquire the position at the time of brushing.
As shown in fig. 1 to 4, an MCU module is provided in the power control PCB50, processes signals collected by the bio-sensor 43, the photo-sensor 44, the video sensor 45, the gyro sensor 46, the temperature sensor 49, the acceleration sensor 47 and the infrared distance sensor 48, and transmits the processed result to the APP70 of the mobile terminal.
As shown in fig. 1 to 4, the brush holder 10 has a hollow structure, a detachable bottom cover 17 is arranged at the tail of the brush holder 10, and a mounting frame 11 and a positive and negative connecting sheet 18 are arranged in the brush holder 10. The mounting bracket 11 is equipped with the fixed slot 12 of fixed battery 15 and the mounting groove 13 of installation power control PCB50, and the lateral wall of mounting groove 13 is equipped with buckle 14, and power control PCB50 lateral wall is equipped with draw-in groove 52, and when power control PCB50 was installed at mounting groove 13, buckle 14 and draw-in groove 52 chucking each other, make things convenient for the change and the installation of power control PCB50, fixed slot 12 internal fixation has battery 15, and battery 15 is connected with power control PCB50 electricity.
As shown in fig. 1 to 4, the connecting sleeve 20 is of a hollow structure, the lower end of the brush head 30 is inserted into the connecting sleeve 20 and is connected with the connecting sleeve 20 in a sealing manner, the lower end of the connecting sleeve 20 is inserted into the brush handle 10 and is connected with the brush handle 10 in a sealing manner, and the connecting terminal 60 is fixedly arranged in the connecting sleeve 20.
As shown in fig. 1 to 4, the bio-detection electric toothbrush further comprises an LED lamp 17, the LED lamp 17 is disposed in the brush head 30, the LED lamp 17 is electrically connected with the power control PCB50, the side wall of the brush holder 10 is provided with a key 16, and the key 16 is electrically connected with the power control PCB 50. The brush head 30 is provided with the LED lamp 17, so that the invention can be used as a flashlight.
As shown in fig. 1 to 4, the motor 41 is an eccentric motor provided in the brush head 30, and the eccentric motor drives the brush head 30 to vibrate, thereby achieving brushing. Because the eccentric motor is arranged in the brush head 30, vibration energy is absorbed by the brush head 30, and the tooth brushing effect is good.
The foregoing is a specific embodiment of the invention, it will be appreciated by those skilled in the art that modifications and variations may be made without departing from the principles of the invention, and such modifications and variations are to be regarded as being within the scope of the invention.