Toothbrush Having Physiological Sensing Function

Abstract

A toothbrush having a physiological sensing function, comprising a grip part, a head part, and a sensing module. The grip part has an inner space as well as a top end and a tail end opposite to each other in a length direction. The head part is provided at the top end of the grip part. The grip part is further provided with a sensing region. The sensing module is provided in the inner space of the grip part and disposed corresponding to the sensing region. The sensing module executes a physiological sensing function in the sensing region, and generates physiological sensing information. When a user holds the toothbrush to brush teeth, a finger pulp or palm of the user presses on the sensing region, and thus the sensing module can execute the physiological sensing function by means of the sensing region and generate physiological sensing information, so that the user can understand his/her own health information more comprehensively.

Claims

1. A toothbrush comprising: a holding segment having an inner space; a top end; a bottom end being opposite to the top end; the bottom end and the top end arranged along a lengthwise direction of the holding segment; and a sensing area; a sensing module mounted in the inner space of the holding segment and corresponding in position to the sensing area; the sensing module running a physiological sensing function at the sensing area and generating a physiological data; and a brush head segment mounted on the top end of the holding segment.

2. The toothbrush as claimed in claim 1, wherein the physiological sensing function run by the sensing module comprises heart rhythm sensing, blood oxygen sensing, blood pressure sensing, or body temperature sensing.

3. The toothbrush as claimed in claim 1, wherein the toothbrush has a power module mounted in the inner space of the holding segment, electrically connected to the sensing module, and supplying power.

4. The toothbrush as claimed in claim 2, wherein the toothbrush has a power module mounted in the inner space of the holding segment, electrically connected to the sensing module, and supplying power.

5. The toothbrush as claimed in claim 3, wherein the toothbrush has a switch having an on state and an off state; and the power module is electrically connected to the sensing module through the switch.

6. The toothbrush as claimed in claim 4, wherein the toothbrush has a switch having an on state and an off state; and the power module is electrically connected to the sensing module through the switch.

7. The toothbrush as claimed in claim 1, wherein the sensing area of the holding segment has a sensing area opening communicating with the inner space; the toothbrush has a sensing cover mounted in the sensing area opening; and the sensing module corresponds in position to the sensing cover and runs the physiological sensing function via the sensing cover.

8. The toothbrush as claimed in claim 6, wherein the sensing area of the holding segment has a sensing area opening communicating with the inner space; the toothbrush has a sensing cover mounted in the sensing area opening; and the sensing module corresponds in position to the sensing cover and runs the physiological sensing function via the sensing cover.

9. The toothbrush as claimed in claim 5, wherein the sensing module has a sensing unit running the physiological sensing function and generating the physiological data; and a wireless communication unit electrically connected to the sensing unit to receive the physiological data generated by the sensing unit; the wireless communication unit wirelessly connected to an external processing module and sending the physiological data to the external processing module.

10. The toothbrush as claimed in claim 8, wherein the sensing module has a sensing unit running the physiological sensing function and generating the physiological data; and a wireless communication unit electrically connected to the sensing unit to receive the physiological data generated by the sensing unit; the wireless communication unit wirelessly connected to an external processing module and sending the physiological data to the external processing module.

11. The toothbrush as claimed in claim 1, wherein the holding segment has a front side; a back side being opposite to the back side; the back side and the front side arranged along a thickness direction of the holding segment; and the sensing area is mounted on the front side.

12. The toothbrush as claimed in claim 10, wherein the holding segment has a front side; a back side being opposite to the back side; the back side and the front side arranged along a thickness direction of the holding segment; and the sensing area is mounted on the front side.

13. The toothbrush as claimed in claim 3, wherein the holding segment has a main body having an accommodating groove; the sensing module and the power module mounted in the accommodating groove; the accommodating groove having a first opening; and a back cover assembled with the main body and covering the first opening; wherein after the back cover and the main body are assembled, the accommodating groove of the main body forms the inner space of the holding segment.

14. The toothbrush as claimed in claim 12, wherein the holding segment has a main body having an accommodating groove; the sensing module and the power module mounted in the accommodating groove; the accommodating groove having a first opening; and a back cover assembled with the main body and covering the first opening; wherein after the back cover and the main body are assembled, the accommodating groove of the main body forms the inner space of the holding segment.

15. The toothbrush as claimed in claim 13, wherein the bottom end of the holding segment has a bottom end opening communicating with the inner space; and the holding segment has a bottom cover covering the bottom end opening.

16. The toothbrush as claimed in claim 14, wherein the bottom end of the holding segment has a bottom end opening communicating with the inner space; and the holding segment has a bottom cover covering the bottom end opening.

17. The toothbrush as claimed in claim 15, wherein the holding segment has a sealing unit mounted between a periphery of the first opening of the main body and a periphery of the back cover, and mounted between the bottom end of the holding segment and the bottom cover.

18. The toothbrush as claimed in claim 16, wherein the holding segment has a sealing unit mounted between a periphery of the first opening of the main body and a periphery of the back cover, and mounted between the bottom end of the holding segment and the bottom cover.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 is a perspective view of a toothbrush in accordance with the present invention;

[0010] FIG. 2 is an exploded view of the toothbrush in FIG. 1; and

[0011] FIG. 3 is another exploded view of the toothbrush in FIG. 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0012] With reference to FIG. 1, a toothbrush 10 in accordance with the present invention comprises a holding segment 11, a sensing module 12, and a brush head segment 13. The holding segment 11 has an inner space, a top end 1101, a bottom end 1102, and a sensing area 1103. The top end 1101 and the bottom end 1102 are arranged along a lengthwise direction of the holding segment 11 and are opposite to each other. The sensing area 1103 is formed on a surface of the holding segment. The sensing module 12 is mounted in the inner space of the holding segment 11 and corresponds in position to the sensing area 1103. The sensing module 12 runs a physiological sensing function and generates a physiological data. The brush head segment 13 is mounted on the top end 1101 of the holding segment 11.

[0013] The physiological sensing function run by the sensing module 12 comprises heart rhythm sensing, blood oxygen sensing, blood pressure sensing, or body temperature sensing. The sensing module 12 can be implemented as an optical pulse detection module, an infrared blood oxygen sensing module, a blood pressure sensing module or a temperature sensing module, etc.

[0014] With reference to FIG. 2, in a first embodiment, the toothbrush 10 has a power module 14. The power module 14 is also mounted in the inner space of the holding segment 11, is electrically connected to the sensing module 12, and supplies power to the sensing module 12. The power module 14 can be implemented as a replaceable battery module or a rechargeable battery module.

[0015] With reference to FIG. 2, preferably, the toothbrush 10 has a switch 15. The power module 14 is electrically connected to the sensing module 12 through the switch 15. The switch 15 has an on state and an off state. When the switch 15 is in the on state, the power module 14 supplies power to the sensing module 12 through the switch 15. When the switch 15 is in the off state, the power module 14 cannot supply power to the sensing module 12 such that the sensing module 12 cannot run the physiological sensing function. Preferably, the switch 15 is mounted on the holding segment 11 to facilitate user operation so that the user can easily control the power module 14 to supply power to the sensing module 12 for running the physiological sensing function.

[0016] In a second embodiment, the toothbrush 10 has a sensing cover 16, and the holding segment 11 has a sensing area opening formed on the sensing area 1103. The sensing area opening communicates with the inner space. The sensing cover 16 is mounted in the sensing area opening and the sensing module 12 corresponds in position to the sensing cover 16. The sensing cover 16 protects the sensing module 12. The material of the sensing cover 16 can be determined according to the type of the sensing module 12, such as a transparent cover for optical physiological sensing, or a silicone elastic cover for pressure sensing, etc.

[0017] Preferably, the sensing module 12 has a sensing unit and a wireless communication unit. The sensing unit runs the physiological sensing function and generates the physiological data. The wireless communication unit is electrically connected to the sensing unit to receive the physiological data generated by the sensing unit. The wireless communication unit is wirelessly connected to an external processing module and sends the physiological data to the external processing module.

[0018] The external processing module can be implemented as a cloud server, a wireless receiving and display module, or a smart mobile device. In the case of the smart mobile device, the smart mobile device is wirelessly connected to the wireless communication unit of the toothbrush 10. The smart mobile device receives the physiological data generated by the sensing unit via the wireless communication unit, and then performs data analysis, such as curve analysis, abnormal surge value analysis, etc., and provides results of analysis to the user through the display screen to remind the user to pay attention to his/her health.

[0019] With reference to FIG. 1, in a third embodiment, the holding segment 11 has a front side and a back side arranged along a thickness direction and being opposite to each other. The sensing area 1103 is preferably mounted on the front side of the holding segment 11, so as to conform to the holding posture of general users, which is clamping the holding segment 11 by the thumb and index finger front and back. Therefore, when brushing teeth, the thumb or the index finger of the user will touch the sensing area 1103 so that the sensing module 12 can run the physiological sensing function. The sensing area 1103 can also be mounted on the back side, or there are multiple said sensing areas 1103 respectively configured with multiple said sensing modules 12 so as to increase the number of sensing samples and improve the accuracy of sensing. The bristles of the brush head segment 13 extend toward the front side.

[0020] With reference to FIGS. 2 and 3, in a fourth embodiment, a main body 111 and a back cover 112 are assembled to form the holding segment 11. The main body 111 faces toward the front side, and the back cover 112 faces toward the back side. The main body 111 has an accommodating groove 1111. The sensing module 12 and the power module 14 are mounted in the accommodating groove 1111. The accommodating groove 1111 has a first opening 1110, and the first opening 1110 faces toward the back side. A peripheral contour of the back cover 112 conforms to that of the first opening 1110. The back cover 112 is mounted on a periphery of the first opening 1110 to cover and seal the first opening 1110 and is assembled with the main body 111 to form the holding segment 11. After the main body 111 and the back cover 112 are assembled, the accommodating groove 1111 of the main body 111 forms the inner space of the holding segment 11.

[0021] In a fifth embodiment, the holding segment 11 has a bottom end opening 110 and a bottom cover 113, and the power module 14 is implemented as a replaceable battery module. The bottom end opening 110 communicates with the inner space, and the bottom cover 113 is sleeved on the bottom end 1102 to cover the bottom end opening 110. The bottom cover 113 can be detached for the user to replace the battery in the inner space. The replaceable battery can be carbon-zinc batteries, alkaline batteries, lithium batteries, etc.

[0022] Preferably, the holding segment 11 has a sealing unit 17 mounted between the main body 111, the back cover 112, and the bottom cover 113 to seal the gap between the main body 111, the back cover 112, and the bottom cover 113 and to ensure water resistance during use. The sealing unit 17 is preferably a sealing gasket made of rubber. The sealing unit 17 has a first opening sealing segment 171. The periphery of the first opening 1110 and the periphery of the back cover 112 are both concaved to form an engaging groove. The engaging groove extends along the periphery of the first opening 1110 and the periphery of the back cover 112. When assembling the sealing unit 17, the first opening sealing segment 171 of the sealing unit 17 is mounted into the engaging groove and is tightly fit in the engaging groove. The sealing unit 17 covers the junction between the periphery of the first opening 1110 and the periphery of the back cover 112 in order to prevent liquid from leaking into the inner space of the holding segment 11 and damaging the power module 14 or the sensing module 12. Further, the sealing unit 17 has a bottom end opening sealing segment 172 sleeved on an outer wall of the bottom end 1102 of the holding segment 11. When the bottom cover 113 covers the bottom end 1102, the bottom end opening sealing segment 172 is tightly mounted between an outer wall of the holding segment 11 and an inner wall of the bottom cover 113 to prevent liquid from leaking into the inner space of the holding segment 11.

[0023] Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and features of the invention, the disclosure is illustrative only. Changes may be made in the details, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.