CN215190784U - Drinking frequency monitoring assembly and drinking frequency monitoring cup - Google Patents

Abstract

The utility model relates to a function container possesses the field, especially relates to drink number of times monitoring subassembly and drink number of times monitoring cup utensil, drinks number of times monitoring subassembly and includes the straw, the straw includes the feed liquor section and goes out the liquid section, be equipped with the device of counting of the number of times that is used for measuring liquid process straw in the settlement time between feed liquor section and the play liquid section, drink number of times monitoring cup utensil and use drink number of times monitoring subassembly. The application provides a drink number of times monitoring subassembly and drink number of times monitoring cup utensil, through count device measurement user's drinking number of times, can remind the reasonable moisture of supply of user and the auxiliary user forms a small amount of drinking water habits many times effectively.

Description

Drinking frequency monitoring assembly and drinking frequency monitoring cup

[ technical field ] A method for producing a semiconductor device

The application relates to the field of functional containers, in particular to a drinking frequency monitoring assembly and a drinking frequency monitoring cup.

[ background of the invention ]

In order to keep a good physical state, a human body needs to supplement sufficient water in one day, most of intelligent water cups in the market can measure the drinking amount, and compared with the drinking amount, healthy drinking habits advocate a small amount for many times, so the drinking times is also an important index, and the development of a water cup capable of measuring the drinking times is urgently needed.

[ summary of the invention ]

The utility model provides a drinking number monitoring subassembly and drinking number monitoring cup utensil, through count device measurement user's drinking number of times, can remind the reasonable moisture of replenishment of user and auxiliary user to form a small amount of drinking water habits many times effectively.

The application is realized by the following technical scheme:

the drinking frequency monitoring assembly comprises a straw, the straw comprises a liquid inlet section and a liquid outlet section, and a counting device used for counting the frequency of liquid passing through the straw in set time is arranged between the liquid inlet section and the liquid outlet section.

The drinking time monitoring assembly further comprises a storage module and a display screen, wherein the storage module is electrically connected with the time counting device to accumulate and store the times of liquid passing through the straw within a set time, and the display screen is connected with the storage module to display the stored times.

The drinking number monitoring assembly further comprises a delay module, wherein the delay module is electrically connected with the counting device and used for limiting the interval time between two adjacent times of metering of the counting device.

The drinking frequency monitoring assembly comprises a energy conversion body, wherein the energy conversion body is internally provided with a communicating cavity for the liquid inlet section and the liquid outlet section, the cavity is internally provided with an energy conversion movable block capable of moving along with the liquid, and one side of the energy conversion body is provided with a detection piece capable of converting the movement of the energy conversion movable block into an electric signal through detection.

The drinking frequency monitoring assembly comprises a rotary energy block and a light-emitting surface, wherein the rotary energy block comprises an impeller and a light-emitting surface which is arranged on one side of the impeller and is perpendicular to a rotating shaft of the impeller, the light-emitting surface is provided with a light-reflecting surface and a light-absorbing surface which are alternately arranged along the rotating direction of the impeller, and the detection piece is a photoelectric coupling element which is opposite to the light-emitting surface.

The drinking frequency monitoring assembly comprises a cavity, a liquid inlet cavity, a liquid outlet cavity and a containing cavity, wherein the liquid inlet cavity is communicated with the liquid inlet section, the liquid outlet cavity is communicated with the liquid outlet section, the containing cavity is provided with an impeller, a rotating plane of the impeller is positioned in a plane vertical to the suction pipe, and the liquid inlet cavity and the liquid outlet cavity are arranged on two opposite sides of the containing cavity so that the liquid inlet section and the liquid outlet section are arranged in an axially staggered mode.

The drinking frequency monitoring assembly comprises a rotating movable block, a cavity, a floating block channel, a gap and a detection piece, wherein the rotating movable block is a floating block, the cavity is used for enabling the floating block to move linearly, a gap capable of allowing liquid to pass is arranged between the floating block and the inner wall of the floating block channel, the floating block can move along the flowing direction of the liquid, and the detection piece is opposite to one end of the floating block channel so as to detect an action signal of the floating block.

The drinking number monitoring assembly comprises a cavity and a rotating movable block, wherein the cavity comprises a liquid passing channel capable of passing liquid and a baffle cavity recessed towards the outside of one side of the liquid passing channel, the rotating movable block is a baffle arranged in the baffle cavity, one end of the baffle is hinged to the upper side of the baffle cavity, the baffle turns upwards in the direction of the liquid passing channel when the liquid passes through the liquid passing channel and downwards hangs in the baffle cavity when no liquid passes through the liquid passing channel, and the detection piece is opposite to one side of the baffle cavity to detect an action signal of the baffle turning upwards or hanging downwards.

The application still provides and drinks number of times monitoring cup utensil, include the cup and be used for the closing cap the bowl cover of cup, be equipped with on the bowl cover as above drink number of times monitoring subassembly, the feed liquor section of straw stretches into in the cup.

The drinking frequency monitoring cup comprises a cup cover, a cup body, a cup cover, a positioning hole, a slide way, a convex column and a jacking spring, wherein the cup cover is provided with the positioning hole, the slide way is opposite to the positioning hole, the slide way is internally provided with the convex column which can extend out along the slide way, and the jacking spring is arranged between the convex column and the bottom of the slide way and used for pushing the convex column out of the slide way to extend into the positioning hole.

Compared with the prior art, the method has the following advantages:

the drinking frequency monitoring assembly and the drinking frequency monitoring cup can effectively remind a user of reasonably supplementing water and assist the user to develop a plurality of times of small drinking habits by metering the drinking frequency of the user through the counting device.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic block diagram of a drinking number monitoring module according to embodiment 1 of the present application.

Fig. 2 is an exploded view of the drinking number monitoring assembly according to embodiment 1 of the present application.

Fig. 3 is an exploded view of the drinking number monitoring cup according to embodiment 1 of the present application.

Fig. 4 is a schematic structural diagram of an impeller according to embodiment 1 of the present application.

Fig. 5 is an exploded view 2 of the drinking number monitoring cup according to embodiment 1 of the present application.

Fig. 6 is a front view of a schematic structural diagram of embodiment 2 of the present application.

Fig. 7 is a left side view of a schematic structural diagram of embodiment 2 of the present application.

Fig. 8 is a front view of a schematic structural diagram of embodiment 3 of the present application.

Fig. 9 is a left side view of a schematic structural diagram of embodiment 3 of the present application.

Fig. 10 is a front view of a schematic configuration diagram of embodiment 4 of the present application.

Fig. 11 is a left side view of a schematic structural diagram of embodiment 4 of the present application.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present application more clear and obvious, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Example 1

As shown in figures 1 to 5, this application embodiment provides drink number of times monitoring cup utensil, include cup 10 and be used for the closing cap cup 10's bowl cover 20, be equipped with on the bowl cover 20 and drink number of times monitoring subassembly, it includes straw 1 to drink number of times monitoring subassembly, straw 1 includes feed liquor section 11 and play liquid section 12, the feed liquor section 11 of straw 1 stretches into in the cup 10, be equipped with between feed liquor section 11 and the play liquid section 12 and be used for measuring the counting device 2 of the number of times of liquid process straw 1 in the settlement time.

Specifically, the setting time may be set to 24 hours, or may be set to 8 am to 11 pm as needed, and the counting means may reset to zero at the beginning of each counting period to recalculate the drinking number with the setting time as a counting period. The counting device 2 is used for counting the drinking times of the user, so that the user can be effectively reminded of reasonably supplementing water and assisted to develop a small amount of drinking habits for many times.

The drinking frequency monitoring assembly further comprises a storage module 4 and a display screen 3, wherein the storage module 4 is electrically connected with the counting device 2 to accumulate and store the frequency of liquid passing through the straw 1 within a set time, and the display screen 3 is connected with the storage module 4 to display the stored frequency. The measured drinking water frequency data can be displayed through a display screen, and can be displayed in a voice broadcasting mode and the like, and in order to increase interestingness, the measured drinking water frequency data can include the drinking frequency in one day and the total accumulated drinking frequency.

Further, the drinking number monitoring assembly further comprises a time delay module 5, wherein the time delay module 5 is electrically connected with the counting device 2 and is used for limiting the interval time between two adjacent times of counting of the counting device 2, for example, the interval time is set to be 30 minutes. Because the user may drink one or more mouths in the process of drinking at every time, and every mouth can trigger the counting device to act through the straw, through setting up the delay module, no matter how many mouths of water are drunk in the interval time, the counting of drinking times can be more reasonable.

Correspondingly, the device 2 of counting includes the energy conversion body 21, be equipped with the intercommunication in the energy conversion body 21 the cavity 22 of feed liquor section 11 and play liquid section 12, be equipped with the energy conversion movable block 23 that can move along with liquid process in the cavity 22, one side of the energy conversion body 21 is equipped with through the detection the action of energy conversion movable block 23 is converted into the measuring piece 24 of signal of telecommunication. The counting device 2 counts 1 time when the detecting element 24 detects that the action of the rotary motion block 23 is started and stopped once, and certainly, if the action is set at an interval time under the intervention of the delay module 5, the counting is only performed once no matter how many times the rotary motion block is started and stopped. Furthermore, the action of the rotary energy block 23 can be rotation or linear motion, when a user drinks a beverage in the cup, the kinetic energy of the liquid passing through the straw is converted into the kinetic energy of the rotary energy block 23, and then the kinetic energy is converted into an electric signal by the detection piece 24, so that the drinking amount can be measured.

Further, the rotation-enabling block 23 includes an impeller 231 and a light-displaying surface 232 disposed on one side of the impeller 231 and perpendicular to the rotation axis of the impeller 231, the light-displaying surface 232 is provided with a light-reflecting surface 2321 and a light-absorbing surface 2322 alternately disposed along the rotation direction of the impeller 231, for example, the light-reflecting surface 2321 is a white surface, the light-absorbing surface 2322 is a black surface, and the detecting element 24 is a photoelectric coupling element facing the light-displaying surface 232. The photodiode in the photoelectric coupling element is a light source emitting light to the light-emitting surface 232, the light-reflecting surface 2321 can reflect the light source, the light-absorbing surface 2322 does not reflect the light source, the reflected light forms an intermittent electric signal and can reflect whether the impeller is in a rotating state, and when the impeller is started and stopped once in rotation, the counting device counts once. And the water intake can be counted, and the rotation angle of the impeller and the water flow are in a direct proportion relation after testing, so that the passing liquid flow, namely the water intake, can be calculated by detecting the times of the emitted light and the times of the received reflected light. Theoretically, the more the number of blades of the impeller and the number of the reflecting surfaces, the higher the precision of the drinking amount measurement.

Furthermore, the cavity 22 includes a liquid inlet cavity 221 communicated with the liquid inlet section 11, a liquid outlet cavity 222 communicated with the liquid outlet section 12, and an accommodating cavity 223 provided with the impeller 231, a rotation plane of the impeller 231 is located in a plane perpendicular to the straw 1, and the liquid inlet cavity 221 and the liquid outlet cavity 222 are disposed on two opposite sides of the accommodating cavity 223, so that the liquid inlet section 11 and the liquid outlet section 12 are axially staggered. The impeller in the technical scheme can be transversely placed in the cup, so that the cup is more compact in structure.

In order to ensure the sealing performance of the energy converter 21 and enable the detection element 24 to transmit optical signals with the light-displaying surface, the surface of the energy converter 21 opposite to the detection element 24 is made of transparent material.

The detection piece 24 is arranged on the cup cover, and for ensuring the relative position of the detection piece and the energy conversion body 21, the peripheral side of the energy conversion body 21 is provided with a positioning hole 210, a slide way 201 opposite to the positioning hole 210 is arranged on the cup cover 20, a convex column 202 capable of extending along the slide way 201 is arranged in the slide way 201, and a top extending spring for pushing the convex column 202 out of the slide way 201 to extend into the positioning hole 210 is arranged between the bottom of the convex column 202 and the bottom of the slide way 201. When the energy conversion body 21 is assembled with the cup cover, the convex column 202 extends into the positioning hole 210 under the action of the jacking spring so as to limit the circumferential position of the energy conversion body 21.

Example 2

As shown in fig. 6 and 7, in embodiment 2, this embodiment is basically the same as embodiment 1, and for the sake of convenience, only the difference between the main structure thereof and embodiment 1 will be described. The parts not described in this example are the same as example 1, except that: the plane of rotation of the impeller 231 is parallel to the axis of the straw 1 so that the impeller is vertically disposed within the cup.

Example 3

As shown in fig. 8 and 9, in embodiment 3, this embodiment is basically the same as embodiment 1, and for the sake of convenience, only the difference between the main structure thereof and embodiment 1 will be described. The parts not described in this example are the same as example 1, except that: the rotary movable block 23 is a floating block, the cavity 22 is a floating block channel for supplying the floating block to perform linear motion, a gap through which liquid can pass is formed between the inner wall of the floating block channel, the floating block can move along the flowing direction of the liquid, the detection piece 24 is right aligned to one end of the floating block channel so as to detect an action signal of the floating block, and in the embodiment, the detection piece 24 is right aligned to the upper end of the floating block channel. When a user drinks a beverage in the cup through the straw, the liquid in the straw drives the floating block to move upwards to be opposite to the detection piece 24, the surface of the floating block opposite to the detection piece 24 is a light reflecting surface, the detection piece 24 obtains an action signal of upwards moving the floating block through the light reflecting surface and starts to calculate the drinking amount at the moment, and the stay time of upwards moving the floating block is in a direct proportional relation with the flow under the condition that the speed is unchanged after testing. It should be noted that the flow rate in the straw can be limited to be constant in a very short time, and the flow rate of the liquid in the straw can be detected by the flow meter. The number of times of drinking is counted by detecting the floating block moving up and resetting once.

Example 4

As shown in fig. 10 and 11, in embodiment 4, this embodiment is basically the same as embodiment 1, and for the sake of convenience, only the difference between the main structure thereof and embodiment 1 will be described. The parts not described in this example are the same as example 1, except that: the cavity 22 comprises a liquid passing channel through which liquid can pass and a baffle cavity 224 which is concave towards the outside of one side of the liquid passing channel, the rotary movable block 23 is a baffle arranged in the baffle cavity 224, one end of the baffle is hinged to the upper side of the baffle cavity 224, the baffle turns upwards in the direction of the liquid passing channel when liquid passes through the liquid passing channel and hangs downwards in the baffle cavity 224 when no liquid passes through the liquid passing channel, and the detection piece 24 is opposite to one side of the baffle cavity 224 to detect an action signal that the baffle turns upwards or hangs downwards.

When a user drinks a beverage in the cup through the straw, according to the Bernoulli principle, the liquid flowing in the straw drives the baffle to turn upwards, the surface, which is opposite to the detection piece 24 when the baffle drops, is a light reflecting surface, and the time when the detection piece 24 loses the reflected light when the baffle turns upwards is the drinking time. Through tests, under the condition that the speed is unchanged, the upturning time of the baffle is in direct proportion to the flow, so that the flow passing through, namely the drinking amount, can be calculated by detecting the upturning time of the baffle. It should be noted that the flow rate in the straw can be limited to be constant in a very short time, and the flow rate of the liquid in the straw can be detected by the flow meter. And the number of times of drinking is counted by detecting that the baffle is turned up and down once.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms disclosed. Similar or identical methods, structures, etc. as used herein, or several technical inferences or substitutions made on the concept of the present application should be considered as the scope of the present application.

Claims (9)

1. The drinking frequency monitoring assembly is characterized by comprising a straw (1), wherein the straw (1) comprises a liquid inlet section (11) and a liquid outlet section (12), and a frequency counting device (2) for counting the frequency of liquid passing through the straw (1) in a set time is arranged between the liquid inlet section (11) and the liquid outlet section (12);

drink number of times monitoring subassembly still includes storage module (4) and display screen (3), storage module (4) with count device (2) electric connection in order to accumulate and store the number of times that liquid passes through straw (1) in the set time, display screen (3) with storage module (4) are connected in order to show the number of times of storage.

2. A drinking number monitoring assembly according to claim 1, further comprising a time delay module (5), the time delay module (5) being electrically connected to the counting device (2) for defining an interval between two adjacent measurements of the counting device (2).

3. The drinking number monitoring assembly according to claim 1, wherein the number counting device (2) comprises a rotation energy body (21), a cavity (22) communicated with the liquid inlet section (11) and the liquid outlet section (12) is arranged in the rotation energy body (21), a rotation energy block (23) capable of moving along with the passing of liquid is arranged in the cavity (22), and a detection piece (24) capable of detecting the movement of the rotation energy block (23) and converting the movement into an electric signal is arranged on one side of the rotation energy body (21).

4. The drinking number monitoring assembly according to claim 3, wherein the rotary energy block (23) comprises an impeller (231) and a light-emitting surface (232) which is arranged on one side of the impeller (231) and is perpendicular to the rotating shaft of the impeller (231), the light-emitting surface (232) is provided with a light-reflecting surface (2321) and a light-absorbing surface (2322) which are alternately arranged along the rotating direction of the impeller (231), and the detecting member (24) is a photoelectric coupling element facing the light-emitting surface (232).

5. A drinking number monitoring assembly according to claim 4, wherein the cavity (22) comprises a liquid inlet chamber (221) communicated with the liquid inlet section (11), a liquid outlet chamber (222) communicated with the liquid outlet section (12) and a containing chamber (223) provided with the impeller (231), the rotation plane of the impeller (231) is positioned in a plane perpendicular to the straw (1), and the liquid inlet chamber (221) and the liquid outlet chamber (222) are arranged on two opposite sides of the containing chamber (223), so that the liquid inlet section (11) and the liquid outlet section (12) are axially staggered.

6. The drinking number monitoring assembly according to claim 4, wherein the rotary movable block (23) is a floating block, the cavity (22) is a floating block channel for the floating block to move linearly, a gap for passing liquid is arranged between the floating block and the inner wall of the floating block channel, the floating block can move along the flowing direction of the liquid, and the detecting member (24) faces one end of the floating block channel to detect the action signal of the floating block.

7. The drinking number monitoring assembly according to claim 4, wherein the cavity (22) comprises a liquid passing passage through which liquid can pass and a baffle cavity (224) recessed to the outside of one side of the liquid passing passage, the rotary motion block (23) is a baffle plate arranged in the baffle cavity (224), one end of the baffle plate is hinged to the upper side of the baffle cavity (224), the baffle plate turns upwards in the direction of the liquid passing passage when the liquid passes through the liquid passing passage and turns downwards to be perpendicular to the inside of the baffle cavity (224) when the liquid does not pass through the liquid passing passage, and the detecting piece (24) faces one side of the baffle cavity (224) to detect the action signal that the baffle plate turns upwards or hangs downwards.

8. Drinking frequency monitoring cup, comprising a cup body (10) and a cup cover (20) for sealing the cup body (10), characterized in that the cup cover (20) is provided with a drinking frequency monitoring assembly according to any one of claims 3-7, and the liquid inlet section (11) of the straw (1) extends into the cup body (10).

9. The drinking frequency monitoring cup set according to claim 8, wherein a positioning hole (210) is formed in the periphery of the energy conversion body (21), a slide way (201) opposite to the positioning hole (210) is formed in the cup cover (20), a convex column (202) capable of extending along the slide way (201) is arranged in the slide way (201), and a jacking spring for jacking the convex column (202) out of the slide way (201) to extend into the positioning hole (210) is arranged between the convex column (202) and the bottom of the slide way (201).

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