CN218074397U - Water intake control module group and intelligent water cup - Google Patents

Abstract

The utility model discloses a water intake control module group and intelligent drinking cup, wherein water intake control module group includes: the touch sensor is arranged at the edge of the drinking water port and used for outputting a touch signal when a user touch event is detected; the drinking water port closing device is arranged in the drinking water amount control module and is used for opening or closing the water flow of the drinking water port according to the touch signal; and the processor is respectively electrically connected with the touch sensor and the drinking water port opening and closing device and is used for controlling the opening and closing device of the drinking water port to be opened or closed according to the touch signal. In addition, the drinking water amount control module also comprises a flow sensor used for detecting the drinking water flow flowing into the drinking water amount control module, and the flow sensor is electrically connected with the processor and transmits the detected drinking water flow data to the processor. The technical scheme of the utility model can carry out the accurate measurement to the true water intake of user to control user water intake, improve quality of life.

Description

Water intake control module group and intelligent water cup

Technical Field

The utility model relates to a drinking cup field especially relates to a but intelligent drinking cup of accurate measurement and control water intake, also relates to an solitary water intake control module group simultaneously.

Background

The intelligent water cup on the existing market generally comprises a temperature measuring module, a water yield detecting module, a display module, a reminding module, a control module and the like, wherein the control module reminds a user of drinking water under certain conditions.

The intelligent water cup comprehensively utilizes a multi-sensor technology to realize dynamic collection of water yield of the water cup, and human-computer interaction is realized through an internet technology.

However, most of the intelligent water cups encourage users to drink water, so as to establish a correct drinking habit, and cannot accurately measure and control the water consumption of the users. For special people, such as people with diseases (chemotherapy people), the daily water consumption needs to be controlled, and the water consumption of the special people cannot be accurately measured and controlled by the existing intelligent water cup or the existing water drinking appliance, so that the physical and psychological health of patients is seriously influenced.

In addition, although the intelligent water cup is provided with the water yield detection module, in the process of drinking water by a user, accidental water outflow caused by misoperation can happen inevitably, and the part of water which flows out accidentally is also measured as the water yield drunk by the user, so that the actual water yield of the user is measured inaccurately.

SUMMERY OF THE UTILITY MODEL

In view of the problem that the background art provided, the utility model provides a can carry out the accurate measurement to the true water intake of user to the device of control user water intake provides the intelligent drinking cup of a steerable water intake simultaneously.

The utility model discloses at first provide a water intake control module group, for reaching above-mentioned purpose, the utility model provides a following technical scheme: the water intake control module group includes:

the touch sensor is arranged at the edge of the drinking water port and used for outputting a touch signal when a user touch event is detected;

the drinking water port opening and closing device is arranged in the drinking water amount control module and is used for opening or closing the water flow of the drinking water port according to the touch signal;

the processor is respectively electrically connected with the touch sensor and the drinking water port opening and closing device and is used for controlling the opening or closing of the drinking water port opening and closing device according to the touch signal;

the drinking water flow control module also comprises a flow sensor arranged in the drinking water flow control module and used for detecting the drinking water flow flowing into the drinking water flow control module, and the flow sensor is electrically connected with the processor and transmits the detected drinking water flow data to the processor. Through the further improvement, the effective drinking amount of the user can be accurately detected.

Through above-mentioned scheme, only have rivers play when the user touches the touch sensor on the mouth of drinking water, can not appear flowing water because of the maloperation.

Preferably, the drinking water port opening and closing device comprises a control motor and a water flow baffle connected with the output end of the control motor, the control motor is electrically connected with the processor, and the water flow baffle can be switched between an opening position and a closing position under the driving of the control motor according to the touch signal.

Preferably, the processor is further provided with a multi-axis attitude sensor for sensing attitude change and change angle of the drinking water amount control module. With this further improvement, the processor may be assisted in determining that the user is performing an effective drinking operation.

Preferably, the processor is configured to:

when the touch sensor detects a user touch event and the multi-axis attitude sensor senses attitude change, the processor drives the drinking water port opening and closing device to open the water flow baffle plate, and water flow can flow out of the drinking water port;

or when the touch sensor does not detect a user touch event or the multi-axis attitude sensor does not sense attitude change, the processor drives the drinking water port opening and closing device to close the water flow baffle, so that water flow cannot flow out of the drinking water port.

Preferably, when the total daily drinking water amount reaches a set threshold, the processor drives the drinking water port opening and closing device to close the water flow baffle plate even when the touch sensor detects a user touch event and/or the multi-axis attitude sensor senses attitude change, and water cannot flow out of the drinking water port. The total drinking water amount of a user can be strictly controlled, and the excessive drinking water amount is avoided.

Preferably, the drinking water port extends downwards to form a cylindrical water flow channel, the water flow baffle is arranged at the lower end of the water flow channel and can be driven by the control motor to close the water flow channel, and the flow sensor is arranged in the water flow channel.

Preferably, the flow sensor may be one, two or more than two. The water flow detected by more than two flow sensors is compared and calculated, so that more accurate water intake data can be detected.

Preferably, the touch sensor is a capacitive touch sensor.

Preferably, a display screen is arranged on the outer surface of the water intake control module and used for displaying one or any combination of the total water intake of the day, the water intake proportion of the day and the water temperature. The drinking water amount information of the user can be more intuitively known by the user, family members and doctors.

The utility model also provides an intelligent water cup, including cup body and above-mentioned water intake control module group, wherein the cup body can be dismantled with water intake control module group and set up or fixed structure as an organic whole.

According to the utility model discloses above technical scheme can be based on user particular case customization water intake threshold value every day, avoids because of the water intake statistics that avoids the maloperation to arouse inaccurate, can the true water intake of accurate measurement user, shows in real time and makes statistics of water intake, makes the user support into exact drinking water custom, improves quality of life, can provide key data for the treatment such as chemotherapy crowd.

Drawings

Fig. 1 is a schematic structural view of an intelligent water cup according to an embodiment of the present invention;

fig. 2 is an exploded schematic view of an intelligent water cup according to an embodiment of the present invention;

FIG. 3 is an exploded view of a water intake control module for a smart cup according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a water intake control module for a smart cup according to an embodiment of the present invention;

FIG. 5 is a flow chart of a drinking process of the intelligent cup according to an embodiment of the present invention;

fig. 6 is an architecture diagram of a terminal control system of an intelligent cup according to an embodiment of the present invention.

In the figure:

1-a cup cover; 100-intelligent water cup; 2-a water intake control module; 200-a server terminal; 210-a drinking port; 211-capacitive touch sensors; 212-temperature band of light; 213-display screen; 214-a sensor circuit board; 215-flow sensor a; 216-control motor; 217-temperature sensor; 218-flow sensor B; 219-water flow baffle; 220-total water intake on the same day; 221-water temperature; 222-water intake ratio on the same day; 223-a main control board; 230-a water flow channel; 3-cup body; 300-mobile phone terminal.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 and 2, the utility model discloses an intelligent water cup 100 includes bowl cover 1, water intake control module 2 and cup body 3, wherein water intake control module 2 can constitute alone, water intake control module 2 upper end and lower extreme all process threaded, the lower extreme can be with the screw-thread fit on the cup body 3 and assemble together, upper end and bowl cover 1 screw-thread fit, water intake control module 2 also can be other any mode with the equipment mode of bowl cover 1 and cup body 3, for example buckle mode, the hinge mode, it is only exemplary here, do not play any limiting action. Optional embodiment, drinking water volume control module group 2 and cup body 3 are fixed as an organic whole structure, and can not dismantle. Certainly, the cup cover 1 is also an optional component, and the cup cover 1 can be omitted in part of the water cup.

The drinking water amount control module 2 will be described in detail with reference to fig. 3 and 4. The drinking water amount control module 2 is provided with a drinking water port 210 at the upper edge, a touch sensor is arranged at the edge of the drinking water port 210, and the touch sensor may be a capacitive touch sensor 211, which is suitable for contacting with the lips and/or the tongue of the user, so that the capacitive touch sensor 211 can detect the touch event of the user and generate a touch signal.

A drinking water port closing device is arranged below the drinking water port 210, the drinking water port closing device comprises a control motor 216 and a water flow baffle 219, an output shaft of the control motor 216 is connected with the water flow baffle 219, the control motor 216 and the output shaft are arranged in the vertical direction, the water flow baffle 219 is preferably disc-shaped, and the water flow baffle 219 can be in any other shape. The output shaft of the control motor 216 is fixed at the edge of the water flow baffle 219, and the control motor 216 drives the water flow baffle 219 to rotate, so as to open or close the water flow of the drinking water port 210. In addition, the water flow baffle 219 can also be set as a turning plate, at this time, the control motor 216 and the output shaft are transversely set, the output shaft transversely passes through the water flow baffle 219 or is fixed at the edge of the water flow baffle 219, the water flow baffle 219 is driven by the control motor 216 to be horizontally turned, and then the water flow of the drinking water port 210 can be opened or closed.

The utility model discloses an intelligence drinking cup still includes the treater, and the treater can set up on cup body 3, also can set up on water intake control module group 2, and the treater includes main control panel 223 and sensor circuit board 214, and the treater passes through battery powered, and the battery still provides electric power for control motor 216, and preferred battery is rechargeable battery, and accessible wireless or USB interface mode charges.

A multi-axis attitude sensor is also provided on the sensor circuit board 214, and the multi-axis attitude sensor can detect the tilt angle. The capacitive touch sensor 211 is electrically connected to the sensor circuit board 214, and the sensor circuit board 214 is electrically connected to the main control board 223, but the main control board 223 and the sensor circuit board 214 may be integrated on a single circuit board. The control motor 216 of the drinking water port opening and closing device is electrically connected to the main control board 223.

In order to accurately measure the daily water intake, the utility model discloses still set up flow sensor, flow sensor sets up between drinking water mouth 210 and rivers baffle 219, and is preferred, and flow sensor is cylindric or the ring form, and of course any other shapes also can, do not play the limiting role here.

The upper end of the flow sensor is connected with the drinking water port 210, and the lower end of the flow sensor is matched with the water flow baffle 219 and can open or close the water flow inlet at the lower end of the flow sensor. Preferably, for more accurate measurement of water consumption, the flow sensors may be arranged as two, i.e., the flow sensor a215 and the flow sensor B218, or more than two flow sensors, and the multi-point flow data at a plurality of different positions are collected, and the collected data may be weighted differently to obtain accurate data closer to the actual water consumption.

Preferably, a cylindrical flow channel 230 is provided between the drinking spout 210 and the flow blocking plate 219, the upper end of the flow channel 230 is connected to the drinking spout 210, and the lower end of the flow channel 230 is capable of cooperating with the flow blocking plate 219 to close the lower end of the flow channel 230 without allowing water to enter the flow channel 230, and the flow sensors 215 and/or 218 are/is provided in the flow channel 230.

Preferably, when the water flow blocking plate 219 is designed to rotate horizontally, the diameter of the water flow blocking plate 219 is larger than the outer diameter of the water flow passage 230 or the flow sensors 215, 218; when the water flow stop 219 is designed as a flap, the diameter of the water flow stop 219 is the same as the inner diameter of the water flow passage or flow sensor 215, 218.

In order to enable a user to visually know the water intake condition, a display screen 213 is arranged on the outer surface of the water intake control module 2, preferably, the display screen 213 is an OLED screen, the display screen 213 is electrically connected with the main control board 223, drinking water flow data detected by the flow sensors 215 and 218 are processed by the main control board 223 and then displayed on the display screen 213, and the displayed data includes the total water intake 220 on the day and the water intake proportion 222 on the day.

In addition, a temperature sensor 217 is disposed on the main control panel 223 for detecting the temperature of the drinking water and displaying the water temperature 221 on the display screen 213 in real time.

Referring to fig. 5, describing the drinking water metering process in detail, when a user needs to drink water, starting the system, enabling lips and/or a tongue of the user to contact the capacitive touch sensor 211, enabling the water cup to incline by a certain angle, transmitting a detected touch signal and a posture change signal of the water cup to the main control board 223 by the sensor circuit board 214, controlling the motor 216 to rotate by the main control board 223 by a certain angle to drive the water flow baffle 219 to open the water flow of the drinking water port 210, recording the drinking water amount by the flow sensors 215 and 218, processing the drinking water amount by the main control board 223 to obtain the total drinking water amount at that time, and displaying the total drinking water amount on the display screen 213; when the lips and/or the tongue of the user leave the capacitive touch sensor 211, the sensor circuit board 214 detects that no touch signal exists, the main control panel 223 controls the motor 216 to rotate for a certain angle, and the water flow baffle 219 is driven to close the drinking port to finish a drinking action.

When the user wants to drink water but the lips and/or the tongue do not contact the capacitive touch sensor 211, or the posture of the water cup does not change, the water flow flap 219 does not open the water drinking hole, and the water drinking amount recorded by the flow sensors 215 and 218 is 0, that is, the user does not actually drink water at this time. Thus, even if the user bumps the cup or is not aligned with the mouth due to misoperation, water cannot flow out of the cup.

The user can also set a daily drinking water total amount threshold value, when the daily drinking water total amount reaches the threshold value, even if the user takes up the water cup, the main control panel 213 receives the touch signal and the posture change signal of the water cup, at the moment, the main control panel 213 cannot control the motor 216 to rotate, and the water flow baffle 219 blocks the water flow to enter the drinking water port 210, so that the user cannot drink water. Therefore, the total drinking amount of the user can be strictly controlled, and the excessive drinking amount is avoided.

The utility model discloses an intelligence drinking cup 100 still includes wireless module, and accessible wireless mode carries out data transmission with server terminal 200 and/or cell-phone terminal 300. The mobile phone terminal 300 can access the server terminal 200 in a wireless mode, and can also perform data transmission with the intelligent water cup 100, and users, family members and doctors can set a total drinking water volume threshold value of the day, browse data such as total drinking water volume and water temperature of each day through small programs on the mobile phone terminal, so that the users can be reminded of drinking water and the water drinking volume of the users can be controlled.

It will be apparent to those skilled in the art that various modifications and variations can be made in the embodiments of the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. The utility model provides a water intake control module group, its upper edge is equipped with the drinking water mouth, its characterized in that includes:

the touch sensor is arranged at the edge of the drinking water port and used for outputting a touch signal when a user touch event is detected;

the drinking water port opening and closing device is arranged in the drinking water amount control module and is used for opening or closing the water flow of the drinking water port according to the touch signal;

the processor is respectively electrically connected with the touch sensor and the drinking water port opening and closing device and is used for controlling the opening or closing of the drinking water port opening and closing device according to the touch signal;

the drinking water flow rate control system is characterized by further comprising a flow sensor arranged in the drinking water flow rate control module and used for detecting the drinking water flow rate flowing into the drinking water flow rate control module, wherein the flow sensor is electrically connected with the processor and transmits the detected drinking water flow rate data to the processor.

2. The drinking water amount control module according to claim 1, wherein the drinking water port opening and closing device comprises a control motor and a water flow baffle connected with an output end of the control motor, the control motor is electrically connected with the processor, and the water flow baffle is driven by the control motor to switch between an open position and a closed position according to the touch signal.

3. The drinking water control module according to claim 1, wherein the processor is further provided with a multi-axis attitude sensor for sensing attitude changes and angle changes of the drinking water control module.

4. The intake control module of claim 3, wherein the processor is configured to:

when the touch sensor detects a user touch event and the multi-axis attitude sensor senses attitude change, the processor drives the drinking water port opening and closing device to open the water flow baffle, and water flow can flow out of the drinking water port;

or when the touch sensor does not detect a user touch event or the multi-axis attitude sensor does not sense attitude change, the processor drives the drinking water port opening and closing device to close the water flow baffle, so that water flow cannot flow out of the drinking water port;

and/or the presence of a gas in the atmosphere,

when the total daily drinking water amount reaches a set threshold value, even if the touch sensor detects a user touch event and/or the multi-axis attitude sensor senses attitude change, the processor drives the drinking water port opening and closing device to close the water flow baffle, and water cannot flow out of the drinking water port.

5. The drinking water amount control module according to claim 2, wherein the drinking water port is provided with a cylindrical water flow passage extending downwards, the water flow baffle is provided at the lower end of the water flow passage and can close the water flow passage under the driving of the control motor, and the flow sensor is provided in the water flow passage.

6. The intake control module of claim 1, wherein the flow sensor may be one or two or more.

7. The intake control module of any one of claims 1-4, wherein the touch sensor is a capacitive touch sensor.

8. The intake control module of claim 3, wherein a display screen is arranged on the outer surface of the intake control module for displaying one or any combination of the total intake of water on the day, the ratio of intake of water on the day and the water temperature.

9. A smart water cup, comprising a cup body and the drinking water amount control module set in any one of claims 1 to 8, wherein the cup body and the drinking water amount control module set are detachably arranged or fixed into an integral structure.

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