CN107328824B - Intelligent wearable device and information prompting method - Google Patents

Abstract

The embodiment of the invention discloses intelligent wearable equipment and an information prompting method. The intelligent wearable device comprises a wearable device main body and a water quality detection component, wherein the wearable device main body comprises a waterproof shell and a processor, the water quality detection component comprises a water quality detection circuit and a detection electrode pair which are connected, the water quality detection circuit is arranged inside the waterproof shell, and the detection electrode pair is arranged outside the waterproof shell; the water quality detection circuit is connected with the processor and used for acquiring water quality parameters through the detection electrode pairs when the detection electrode pairs are in a water soaking state and sending the water quality parameters to the processor; and the processor is used for generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for the user of the wearable device. This intelligence wearing equipment carries out the suggestion of pertinence through detecting the quality of water in the swimming pool, makes people can know the quality of water parameter and then adjust the swimming plan at any time when swimming, has avoided the health problem because quality of water poor leads to effectively.

Description

Intelligent wearable device and information prompting method

Technical Field

The embodiment of the invention relates to the technical field of information, in particular to intelligent wearable equipment and an information prompting method.

Background

With the coming of summer, many citizens like going to a swimming pool for swimming. Meanwhile, the pollution condition of the water quality of the swimming pool is increasingly prominent, and the understanding of the water quality state is very important.

The domestic swimming pool mainly detects indexes such as total bacteria, escherichia coli, urea, turbidity, pH value and the like, and only detects the water temperature, free residual chlorine and the pH value of the swimming pool due to the fact that chloride is needed for sterilization. The normal swimming pool can use a water quality detector to sample and detect the water quality at regular time (for example, three times in the morning, afternoon and evening), and the water temperature, the free residual chlorine and the PH value of the swimming pool are disclosed on a display board.

In fact, most swimming pools fail to provide regular replacement and maintenance of the water in the pool to maintain the water quality within the standard range according to national standards. People also have doubts about water quality detection data disclosed by the natatorium. However, it is not practical to carry a water quality detector to detect water in the swimming pool when everyone goes to swimming.

Disclosure of Invention

The embodiment of the invention provides intelligent wearing equipment and an information prompting method, so that people can conveniently and quickly know the water quality in a swimming pool in a swimming process.

In a first aspect, an embodiment of the present invention provides an intelligent wearable device, including a wearable device main body and a water quality detection component, where the wearable device main body includes a waterproof housing and a processor, the water quality detection component includes a water quality detection circuit and a detection electrode pair connected to each other, where,

the water quality detection circuit is arranged inside the waterproof shell, and the detection electrode pair is arranged outside the waterproof shell;

the water quality detection circuit is connected with the processor and used for acquiring water quality parameters through the detection electrode pairs when the detection electrode pairs are in a water soaking state and sending the water quality parameters to the processor;

and the processor is used for generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device.

Specifically, the water quality detection component further comprises a bubble water detection circuit;

the bubble water detection circuit is respectively connected with the detection electrode pair and the processor and is used for outputting a detection indication signal to the processor when the detection electrode pair is detected to be in a bubble water state;

the processor is further used for activating the water quality detection circuit to start working according to the detected detection indication signal.

Specifically, the bubble water detection circuit specifically includes: the positive electrode of the first power supply is connected with the first end of the first resistor, the second end of the first resistor is connected with the first electrode of the detection electrode pair, and the second electrode of the detection electrode pair is connected with the negative electrode of the first power supply; the first end of the first resistor is connected with the processor;

when the detection electrode pair is not in a bubble state, the first electrode and the second electrode are disconnected, and the voltage value at the first end of the first resistor is 0; when the detection electrode pair is in a bubble state, the first electrode and the second electrode are conducted, and the voltage value at the first end of the first resistor is the voltage value on the first power supply.

Specifically, the water quality detection circuit includes:

the water quality detection micro-sensor and the detection electrode pair are used for simultaneously detecting the PH value and the chloride ion concentration in the water;

and the temperature sensor is used for detecting the temperature in the water.

Specifically, the wearing equipment main part includes: provided is a smart watch.

Specifically, one side of the waterproof shell is provided with two small holes, the detection electrode pair is arranged at the position of the small hole, and the detection electrode pair is tightly attached to the small holes.

In a second aspect, an embodiment of the present invention further provides an information prompting method, which is applied to the intelligent wearable device provided in any embodiment of the present invention, and the information prompting method includes:

acquiring a water quality parameter sent by a water quality detection circuit;

and generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device.

Specifically, before acquiring the water quality parameter sent by the water quality detection component, the method further comprises:

and activating the water quality detection circuit to start working according to the detection indication signal output by the water soaking detection circuit so as to enable the water quality detection circuit to start acquiring the water quality parameters.

Specifically, after acquiring the water quality parameter sent by the water quality detection circuit, the method further includes:

after the interval of the first waiting time, controlling the water quality detection circuit to end working;

after a second waiting time, if the detection indicating signal can be continuously detected, the water quality detection circuit is reactivated to start working, and new water quality parameters sent by the water quality detection circuit are obtained;

and after the first waiting time of the execution interval is returned, controlling the water quality detection circuit to end working until the detection indication signal cannot be detected continuously.

Specifically, the information prompting method further includes:

recording the duration of the detection indication signal continuously output by the soaking detection circuit, and taking the duration as the continuous soaking time of the wearing user;

generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device, wherein the water quality related prompt information comprises:

calculating the residual water soaking time of the user of the wearable device according to the water quality parameters obtained at different times and the continuous water soaking time of the user of the wearable device;

and displaying the residual water soaking time in a screen of the wearable device main body.

The embodiment of the invention provides intelligent wearable equipment and an information prompting method, wherein the intelligent wearable equipment comprises a wearable equipment main body and a water quality detection part, the water quality detection part comprises a water quality detection circuit and a detection electrode pair which are connected, and the water quality detection circuit is used for acquiring water quality parameters through the detection electrode pair and sending the water quality parameters to a processor when the detection electrode pair is in a water soaking state; and the processor is used for generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device. Intelligent wearing equipment makes people know the quality of water parameter at any time when swimming through detecting the quality of water in the swimming pool and carry out the suggestion of pertinence, and then adjusts the swimming plan, has avoided the health problem because quality of water poor results in effectively.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent wearable device in a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a water quality detecting unit according to a first embodiment of the present invention;

fig. 3 is a flowchart of an information prompting method in the second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a schematic structural diagram of an intelligent wearable device according to an embodiment of the present invention, and a person may wear the intelligent wearable device according to this embodiment when, for example, swimming or attending a water entertainment project, and determine the time for swimming or water entertainment according to a prompt generated by the intelligent wearable device according to a water quality parameter. As shown in fig. 1, the intelligent wearable device includes a wearable device main body 110 and a water quality detection component 120, the wearable device main body includes a waterproof housing 111 and a processor 112, and the water quality detection component 120 includes a water quality detection circuit 121 and a detection electrode pair 122 connected to each other.

The intelligent wearable device can be a bracelet, a watch or a telephone watch, has waterproof performance, is convenient to wear when swimming or participating in water entertainment projects, and can also have a swimming mode detection function, such as the function of recording swimming distance, swimming speed, swimming times, swimming frequency and the like. The wearable device main body comprises a processor, and the processor is used for realizing basic functions of the intelligent wearable device, such as time display, voice prompt, vibration prompt, voice call and the like. The water quality detection part is used for detecting water quality and increasing the function of water quality detection for the intelligent wearable device.

Wherein:

the water quality detection circuit 121 is disposed inside the waterproof housing 111, and the detection electrode pair 122 is disposed outside the waterproof housing 111.

The detection circuit is arranged in the waterproof shell and is isolated from water, the detection circuit is prevented from being damaged due to water inflow, and the electrode pair needs to be arranged on the outer side of the waterproof shell and is used for being in contact with water to obtain water quality parameters. Preferably, the electrode pair may be partially disposed outside the waterproof case and partially disposed inside the waterproof case.

The water quality detection circuit 121 is connected to the processor 112, and configured to obtain a water quality parameter through the detection electrode pair 122 when the detection electrode pair 122 is in a water soaking state, and send the water quality parameter to the processor 112;

and the processor 112 is configured to generate corresponding water quality related prompt information according to the water quality parameter, and provide the prompt information to a user of the wearable device.

When the detection electrode pair is immersed in water, the water quality detection circuit acquires water quality parameters through the detection electrode pair and sends the corresponding water quality parameters to the processor, and the processor generates corresponding water quality association prompt information to a user of the wearable device according to the water quality parameters, so that the user can decide swimming or water entertainment time according to the corresponding water quality information.

Usually, three items of water quality parameter information, namely the water temperature of a swimming pool, free residual chlorine and the pH value, are disclosed in domestic swimming pools. Wherein the water temperature of the swimming pool is proper within the range of 22-26 ℃, the swimming residual chlorine is 0.4-0.6mg/L, the chemical residual chlorine is more than 1.0mg/L, and the PH value is within the range of 6.5-8.5, so that the sterilizing effect of the disinfectant is more effective.

The embodiment provides an intelligent wearable device, which comprises a wearable device main body and a water quality detection component, wherein the water quality detection component comprises a water quality detection circuit and a detection electrode pair which are connected, the water quality detection circuit is used for acquiring water quality parameters through the detection electrode pair when the detection electrode pair is in a water soaking state, and sending the water quality parameters to a processor; and the processor is used for generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device. The intelligent wearable device can know water quality parameters at any time during swimming or water entertainment by detecting the water quality in the swimming pool and carrying out targeted prompt, so that the swimming or water entertainment time plan is adjusted, and the health problem caused by poor water quality is effectively avoided.

Fig. 2 is a schematic structural diagram of a water quality detecting component according to a first embodiment of the present invention.

Specifically, as shown in fig. 2, the water quality detection unit further includes a bubble water detection circuit 123;

the bubble water detection circuit 123 is respectively connected to the detection electrode pair 122 and the processor 112, and is configured to output a detection indication signal to the processor 112 when detecting that the detection electrode pair 122 is in a bubble water state;

the processor 112 is further configured to activate the water quality detecting circuit 121 to start operation according to the detected detection indication signal.

Bubble water detection circuitry is used for detecting whether paper detection part (that is intelligent wearing equipment) is in aqueous, only when intelligence was dressed and is immersed in aqueous, just can carry out water quality testing. The bubble water detection circuit is connected with the detection electrode pair, and whether the intelligent wearable device is in water or not is judged by utilizing the principle that the two electrodes can be conducted in water. The bubble water detection circuit is also connected with the processor and used for outputting a detection indication signal to the processor so that the processor can confirm whether the intelligent wearable device is in water.

The processor is also used for activating the water quality detection circuit according to the detection indication signal provided by the water soaking detection circuit, if the water is in the water, the water quality detection circuit is activated, otherwise, the water quality detection circuit is not activated. If the intelligent wearable device is immersed in water all the time, the processor can activate the water quality detection circuit at regular time, the water quality detection circuit is not needed to detect in real time, and the reduction of the energy consumption of the water quality detection circuit is facilitated.

Specifically, the bubble water detection circuit includes a first power source 210 and a first resistor 220, wherein a positive electrode of the first power source 210 is connected to a first end 221 of the first resistor 220, a second end 222 of the first resistor 220 is connected to a first electrode 1221 of the detection electrode pair 122, and a second electrode 1222 of the detection electrode pair 122 is connected to a negative electrode of the first power source 210; a first end 221 of the first resistor 220 is connected to the processor 112;

when the detection electrode pair 122 is not in the bubble state, the first electrode 1221 is disconnected from the second electrode 1222, and the voltage value at the first end 221 of the first resistor 220 is 0; when the detection electrode pair 122 is in the bubble state, the first electrode 1221 and the second electrode 1222 are conducted, and the voltage value at the first end 221 of the first resistor 220 is the voltage value at the first power source 210.

The power supply, the resistor and the detection electrode pair in the bubble water detection circuit form a series circuit, when the intelligent wearable equipment is immersed in water, the two electrodes are conducted, and correspondingly, the series circuit is conducted; when the intelligent wearable device is not immersed in water, the two electrodes are disconnected, and correspondingly, the series circuit is disconnected. The potential of the resistor end connected with the positive electrode of the power supply changes along with the change, namely the high potential represents that the resistor end is immersed in water, the low potential represents that the resistor end is not immersed in water, the processor is connected with the resistor end, and whether the intelligent wearable device is in water or not can be judged by obtaining the potential value of the point.

On the basis of the above technical solutions, the water quality detection circuit may include:

the water quality detection micro-sensor and the detection electrode pair are used for simultaneously detecting the PH value and the chloride ion concentration in the water;

and the temperature sensor is used for detecting the temperature in the water.

The water quality detection micro-sensor and two electrodes act together to realize simultaneous detection of the centered pH value and the centered chloride ion concentration, wherein one ion sensitive electrode and one reference electrode. When these electrodes are immersed in the liquid, they will generate electric potential and change with the change of ion activity in the liquid, so that the ion concentration in the liquid can be detected. In order to solve the problem that the internal electrode cannot be stabilized for a long time due to ion elution, a reference electrode with a microfluidic channel is selected, and a solid oxygen gasification iridium electrode and a silver chloride electrode which are directly manufactured on a silicon substrate are connected and jointed with the reference electrode to be used as finger electrodes of a pH value and a chloride ion concentration respectively.

On the basis of the detection electrode pair, the water quality detection circuit can detect the PH value, the chloride ion concentration and the temperature in water through the water quality detection micro-sensor and the temperature sensor. The wearer of the intelligent wearable device can detect the three key parameters of the water quality at any time, and then the quality of the water quality is judged.

On the basis of each technical scheme, the wearing equipment main part includes: provided is a smart watch.

On the intelligent wrist-watch that receives people's favor doubly, add water quality testing function, can let people detect convenient and fast to quality of water that is not reassured at any time.

On the basis of the technical schemes, specifically, one side surface of the waterproof shell is provided with two small holes, the detection electrode pair is arranged at the position of the small hole, and the detection electrode pair is tightly attached to the small hole.

Take the intelligent wrist-watch as an example, in the side of the waterproof case of intelligent wrist-watch (being the screen above the intelligent wrist-watch), can be not with any side of arm contact, set up two apertures, two apertures are used for placing the detection electrode pair, make detection electrode pair and external contact, can immerse the aquatic and then detect quality of water. Wherein, the detection electrode pair needs closely laminate with the aperture, prevents to have water to soak the inside damage that causes intelligent wrist-watch basic function of intelligent wrist-watch through the aperture, and the detection electrode pair can bulge in the side of intelligent wrist-watch, also can flush with the side of intelligent wrist-watch. Under the condition of keeping the appearance of the intelligent watch basically unchanged, the water quality detection function is added.

Example two

Fig. 3 is a flowchart of an information prompting method provided in the second embodiment of the present invention, where the method is applied to an intelligent wearable device provided in any embodiment of the present invention, and executed by a processor in the intelligent wearable device, and includes the following steps:

and S310, acquiring the water quality parameters sent by the water quality detection circuit.

Wherein, the water quality parameters comprise the PH value, the chloride ion concentration and the water temperature in the water.

And S320, generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device.

The water quality related prompt information can be provided for the wearable device user in various forms, for example, a specific numerical value of the water quality parameter can be displayed on a screen of the intelligent wearable device; voice reminding, vibration reminding or indicator light reminding can be carried out when at least one water quality parameter is unqualified; grade division can be carried out according to the unqualified degree of the water quality parameters, and each grade corresponds to different voice reminding, different frequency vibration reminding or different colors of indicator light reminding; the remaining swimming time or the water entertainment time can be reminded by integrating the water quality grade and the soaking time.

The embodiment provides an information prompting method, which comprises the steps of obtaining water quality parameters sent by a water quality detection circuit; according to the water quality parameters, corresponding water quality related prompt information is generated and provided for a user of the wearable device, so that people can know the water quality parameters at any time during swimming or water entertainment, and then adjust a swimming or water entertainment time plan, and health problems caused by poor water quality are effectively avoided.

Specifically, before acquiring the water quality parameter sent by the water quality detection component, the method further comprises:

and S330, activating the water quality detection circuit to start working according to the detection indication signal output by the water soaking detection circuit, so that the water quality detection circuit starts to acquire the water quality parameters.

The processor activates the water quality detection circuit according to the detection indication signal provided by the water soaking detection circuit, if the water is in water, the water quality detection circuit is activated to work, otherwise, the water quality detection circuit is not activated. If the intelligent wearable device is immersed in water all the time, the processor can activate the water quality detection circuit at regular time, the water quality detection circuit is not needed to detect in real time, and the reduction of the energy consumption of the water quality detection circuit is facilitated.

Specifically, after acquiring the water quality parameter sent by the water quality detection circuit, the method further includes:

s340, after the first waiting time is set, controlling the water quality detection circuit to end working;

after a second waiting time, if the detection indicating signal can be continuously detected, the water quality detection circuit is reactivated to start working, and new water quality parameters sent by the water quality detection circuit are obtained;

and after the first waiting time of the execution interval is returned, controlling the water quality detection circuit to end working until the detection indication signal cannot be detected continuously.

After the processor acquires the water quality parameters sent by the water quality detection circuit once, after a period of time, for example, 5s or 10s, the water quality detection circuit is controlled to stop detecting, and after a period of time, for example, 10min or 15min, if the intelligent wearable device is judged to be immersed in water, the water quality is detected again, so that the operation is executed circularly, and the function of detecting the water quality at regular time is realized until the intelligent wearable device is not detected to be immersed in water.

On the basis of the above embodiments, the information prompting method further includes:

recording the duration of the detection indication signal continuously output by the soaking detection circuit, and taking the duration as the continuous soaking time of the wearing user;

generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device, wherein the water quality related prompt information comprises:

calculating the residual water soaking time of the user of the wearable device according to the water quality parameters obtained at different times and the continuous water soaking time of the user of the wearable device;

and displaying the residual water soaking time in a screen of the wearable device main body.

Detect the length of time of indicating signal through recording bubble water detection circuitry output, also be the length of time that intelligent wearing equipment soaked, will record this moment into wearing user's duration bubble water time. The remaining water soaking duration can be calculated according to the preset healthy water soaking duration by referring to the water quality parameters acquired at different times and the duration of the continuous water soaking of the wearable user, and the remaining water soaking duration is displayed on a screen of the wearable device main body and can be referred by the wearable user.

The method can be applied to the products provided by any embodiment of the invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (6)

1. The utility model provides an intelligence wearing equipment, its characterized in that includes, wearing equipment main part and water quality testing part, wearing equipment main part includes waterproof casing and treater, water quality testing part is including the water quality testing circuit and the detection electrode pair that are connected, wherein:

the water quality detection circuit is arranged inside the waterproof shell, and the detection electrode pair is arranged outside the waterproof shell;

the water quality detection circuit is connected with the processor and used for acquiring water quality parameters through the detection electrode pairs when the detection electrode pairs are in a water soaking state and sending the water quality parameters to the processor;

the processor is used for generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device;

the water quality detection component also comprises a water soaking detection circuit;

the bubble water detection circuit is respectively connected with the detection electrode pair and the processor and is used for outputting a detection indication signal to the processor when the detection electrode pair is detected to be in a bubble water state;

the processor is also used for activating the water quality detection circuit to start working according to the detected detection indication signal;

recording the duration of the detection indication signal continuously output by the soaking detection circuit, and taking the duration as the continuous soaking time of the wearing user;

generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device, wherein the water quality related prompt information comprises:

calculating the residual water soaking time of the user of the wearable device according to the water quality parameters obtained at different times and the continuous water soaking time of the user of the wearable device;

and displaying the residual water soaking time in a screen of the wearable device main body.

2. The intelligent wearable device according to claim 1, wherein the bubble water detection circuit specifically comprises: the positive electrode of the first power supply is connected with the first end of the first resistor, the second end of the first resistor is connected with the first electrode of the detection electrode pair, and the second electrode of the detection electrode pair is connected with the negative electrode of the first power supply; the first end of the first resistor is connected with the processor;

when the detection electrode pair is not in a bubble state, the first electrode and the second electrode are disconnected, and the voltage value at the first end of the first resistor is 0; when the detection electrode pair is in a bubble state, the first electrode and the second electrode are conducted, and the voltage value at the first end of the first resistor is the voltage value on the first power supply.

3. The intelligent wearable device according to any one of claims 1 to 2, wherein the water quality detection circuit comprises:

the water quality detection micro-sensor and the detection electrode pair are used for simultaneously detecting the PH value and the chloride ion concentration in the water;

and the temperature sensor is used for detecting the temperature in the water.

4. The smart wearable device according to claim 1, wherein the wearable device main body includes: provided is a smart watch.

5. The intelligent wearable device according to claim 4, wherein one side of the waterproof housing has two small holes, the detection electrode pair is disposed at the small hole, and the detection electrode pair is closely attached to the small holes.

6. An information prompting method applied to the intelligent wearable device as claimed in any one of claims 1 to 5, comprising:

acquiring a water quality parameter sent by a water quality detection circuit;

generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device;

before obtaining the water quality parameter that water quality testing part sent, still include:

activating the water quality detection circuit to start working according to the detection indication signal output by the water soaking detection circuit so as to enable the water quality detection circuit to start acquiring the water quality parameters;

after obtaining the water quality parameter that water quality testing circuit sent, still include:

after the interval of the first waiting time, controlling the water quality detection circuit to end working;

after a second waiting time, if the detection indicating signal can be continuously detected, the water quality detection circuit is reactivated to start working, and new water quality parameters sent by the water quality detection circuit are obtained;

after the first waiting time of the execution interval is returned, controlling the water quality detection circuit to end working until the detection indication signal cannot be detected continuously;

recording the duration of the detection indication signal continuously output by the soaking detection circuit, and taking the duration as the continuous soaking time of the wearing user;

generating corresponding water quality related prompt information according to the water quality parameters and providing the prompt information for a user of the wearable device, wherein the water quality related prompt information comprises:

calculating the residual water soaking time of the user of the wearable device according to the water quality parameters obtained at different times and the continuous water soaking time of the user of the wearable device;

and displaying the residual water soaking time in a screen of the wearable device main body.

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