CN114035414A - Intelligent alarm clock watch and driving method thereof - Google Patents

Abstract

The invention belongs to the technical field of watches, and particularly relates to an intelligent alarm clock watch and a driving method thereof. The watch is convenient to use, only when the watch is normally used, the user is effectively awakened through the constraint sense generated by pressure, the generated pressure can be automatically adjusted, and when the ringing function is not used, only the wearer is awakened, and no interference is caused to other people.

Description

Intelligent alarm clock watch and driving method thereof

Technical Field

The invention belongs to the technical field of watches, and particularly relates to an intelligent alarm clock watch and a driving method thereof.

Background

The development of each industry is driven by the progress of modern science and technology, and the product is upgraded by the development of the industry. The development of modern intelligent industry promotes the upgrading of watch equipment. Watch devices have evolved from automation to intellectualization. People need not only be limited to seeing the time to clock and watch's needs to and the symbol of collocation and identity, pay more attention to the experience that science and technology felt, but present wrist-watch, science and technology felt to experience relatively poorly at present.

Disclosure of Invention

In order to overcome the defect of lacking intellectualization in the prior art, the invention provides an intelligent alarm clock watch and a driving method thereof.

The technical scheme of the invention is as follows:

an intelligent alarm clock watch comprises a watch mirror, a minute hand, an hour hand, a dial plate, an electronic movement, a watch crown, a key A, a key B, a watch ear and a living ear, wherein an inflating device A and an inflating device B are additionally arranged, a miniature sphygmomanometer, an inflating device channel, a hollow cavity, an inflatable watch band and a vibrating device.

The electronic watch comprises a miniature sphygmomanometer, a vibrating device, an inflating device A, an inflating device B, a dial plate and an inflatable watchband, wherein the vibrating device is arranged below the electronic movement, the inflating device A and the inflating device B are respectively arranged below and above the vibrating device, the inflating device A and the inflating device B are connected with the miniature sphygmomanometer through circuits, an inflating device channel is arranged inside the dial plate, a hollow cavity is arranged inside the inflatable watchband, and the inflating device channel is communicated with the hollow cavity.

Further, the gas transmission port of the inflating device A is tightly attached and sealed with the inflating device channel of the watch, the gas transmission port is communicated with the second air chamber, a gas hole switch is arranged between the second air chamber and the first air chamber, a partition plate is arranged between the second air chamber and the third air chamber, a sealing device is arranged on the lower portion of the third air chamber, a gas outlet is formed in the lower portion of the third air chamber, a knob is embedded in the top of the inflating device A, and the bottom of the knob is connected with a gas pressure adjusting valve.

Furthermore, the miniature sphygmomanometer comprises an integrated gas circuit and a gas pressure sensor which are connected through circuits.

Furthermore, a cam is installed at the head of a micro motor of the vibration device, and a rubber sleeve is wrapped outside the micro motor.

A driving method of an intelligent alarm clock watch is characterized in that a crystal oscillator captures micro vibration generated by beating of a human heart, signals are transmitted to a micro sphygmomanometer and a vibrating device, and the micro sphygmomanometer measures heart rate; the cam in the vibrating device starts to operate after receiving signals to drive the micro motor to vibrate, when the heart rate and the pulse reach a certain value, data are transmitted to the electronic core, the electronic core sends signals to the inflating device A and the inflating device B, the inflating device channel is communicated with the middle of the hollow cavity, and gas enters the inflating device A from the gas inlet, so that the inflatable watchband continuously expands and contracts, and the purpose of awakening a user is achieved.

Compared with the prior art, the invention has the beneficial effects that:

(1) effectively arouse the user through the restraint sense that pressure produced, the pressure of production can be adjusted by oneself, when not using the ringing function, only arouses the person of wearing, can not cause the interference to others.

(2) The watch is convenient to use and only needs to be used as a watch normally.

(3) The alarm clock is started and closed automatically according to the time set by the user and the pulse change of the user, and the user does not need to close the alarm clock through complex actions.

(4) The user can be put into normal life and work quickly while the user is awakened, and time does not need to be spent on the alarm clock.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a middle sectional view of the smart watch;

FIG. 2 is a right side view of the smart watch;

FIG. 3 illustrates a driving mechanism of the smart watch;

FIG. 4 is an inflator in the present smart watch;

FIG. 5 is a crystal oscillator in the present smart watch;

FIG. 6 is a diagram of a barometric pressure sensor in the present smart watch;

FIG. 7 illustrates a vibrating device of the smart watch;

fig. 8 shows the conductive rubber in the smart watch.

The reference numbers in the figures are as follows: 1. watch mirror, 2, minute hand, 3, hour hand, 4, dial, 4.1, LCD liquid crystal screen, 4.2, conductive rubber, 4.3, crystal oscillator, 5, electronic movement, 6, inflator a, 7, micro-sphygmomanometer, 7.1, integrated gas circuit, 7.2, gas pressure sensor, 8, inflator channel, 9, hollow cavity, 10, inflatable watchband, 11, crown, 12, button a, 13, vibrating device, 13.1, micro-motor, 13.2, cam, 13.3, rubber sleeve, 14, watch ear, 14.1, watchcase, 15, ear, 16, button B, 17, inflator B, 010, gas transmission port, 011, gas pressure regulating valve, 012, knob 013, gas chamber three, 014, gas hole switch, 015, sealing device, 016, gas outlet, 017, partition, gas inlet, 018, gas chamber one, 020, gas chamber two, 030, driving device, 031, knob, connecting device.

Detailed Description

The invention is described in more detail below with reference to specific examples, without limiting the scope of the invention. Unless otherwise specified, the experimental methods adopted by the invention are all conventional methods, and experimental equipment, materials, reagents and the like used in the experimental method can be obtained from commercial sources.

To difficult crowd of getting up and science and technology accuse crowd, utilize the manometer principle to design into collapsible formula with the watchband: the watch can automatically detect pulse changes, the alarm clock rings normally at the time set by a user, and the user can select whether to use the ringing function; the watchband is pressurized and inflated to give a certain pressure to the wrist of a user to wake up the user, and the user can adjust the pressure value by himself to ensure that the user can feel the bound feeling, so that the waking effect is achieved. And through pulse change detection, the watch returns to a normal state until the wearer is thoroughly awake.

The invention comprises a watch mirror 1, a minute hand 2, an hour hand 3, a dial 4, an electronic movement 5, an inflator A6, an inflator B17, a miniature sphygmomanometer 7, an inflator channel 8, a hollow cavity 9, an inflatable watchband 10, a watch crown 11, a key A12, a key B16, a vibrating device 13, a watch ear 14 and a life ear 15.

The inflator A6 and the inflator B17 of the present invention are identical in structure, and for ease of explanation of the internal structure and the connection to other structures, the inflator A6 is partially taken as an example.

The invention is further described below with reference to the accompanying drawings:

example 1

An alarm clock watch based on intelligent driving mainly comprises a micro sphygmomanometer 7, a vibration device 13, an inflatable watchband 10 and an alarm clock. Under the protection of the watch mirror 1, the watch face 4 is located at the middle upper position of a watch ear 14, an hour hand 3 and a minute hand 2 are arranged above the watch face 4, the lower part of the watch face 4 is connected with an electronic movement 5, a vibration device 13 is arranged below the electronic movement 5, an inflation device A6 and an inflation device B17 are respectively arranged below and above the vibration device 13, an A6 and an inflation device B17 are connected with a miniature sphygmomanometer 7, an inflation device channel 8 is connected with a hollow cavity 9 inside an inflatable watchband 10, the inflatable watchband 10 is connected with the watch ear 14 through a watch ear 15, a key A12 and a key B16 are arranged on the side of the watch ear 14, and a watch crown 11 is arranged on the right side of the watch face.

The miniature sphygmomanometer 7 comprises an integrated air circuit 7.1 and an air pressure sensor 7.2. In the design, the micro sphygmomanometer 7 is of a capacitance type, the capacitance change between two pieces of metal is used for corresponding to a pressure value, and the resistance value change is used for corresponding to the pressure value in a piezoresistive type.

The vibrating device 13 comprises a micro motor 13.1 and a cam 13.2 arranged at the head of the micro motor, the cam 13.2 is also called a vibrating terminal, and a rubber sleeve 13.3 is further wrapped outside the micro motor 13.1, so that the effects of vibration reduction and auxiliary fixing are mainly achieved, and the interference or damage to other parts during the working process of the vibrating device is reduced.

The dial 4 is composed of an LCD liquid crystal screen 4.1, conductive rubber 4.2 and a crystal oscillator 4.3. The middle of the upper glass and the lower glass is liquid crystal, the upper glass is transparent glass, the two sides of the lower glass are provided with conductive rubber 4.2 which is connected with a printed line row of the circuit board, and the lower part is provided with a crystal oscillator 4.3. Under the condition of a certain voltage, liquid crystal molecules can deflect light to a certain extent, and liquid crystal fields are displayed according to a preset program, wherein the crystal oscillator 4.3 is used as a high-precision instrument, is manufactured by utilizing the piezoelectric effect of a quartz crystal, is matched with a voltage stabilizing circuit, an oscillation amplifying circuit, a temperature control system and a crystal resonator to generate a standard pulse signal, and sounds from pulse are heard.

The inflator A6 and the inflator B17 are the main innovative content of the present invention, the air transmission port 010 is tightly attached to the inflator channel 8 of the watch and is sealed to prevent air leakage, when the micro sphygmomanometer 7 measures the heart rate, the air pressure sensor 7.2 controls the knob connecting device 031 in the driving device 030 through the integrated air channel 7.1, so that the knob 012 rotates, the knob 012 rotates to close the air hole switch 014 and lower the air pressure regulating valve 011, part of the air in the air chamber two 020 enters the hollow cavity 9 through the inflator channel 8, the partition 017 rotates to communicate the air chamber three 013 with the air chamber two 020, the sealing device 015 opens, the air is discharged through the air outlet 016, and the steps are repeated to continuously expand and contract the hollow cavity 9.

The inflatable watchband 10 is internally provided with a hollow cavity 9, the hollow cavity 9 is an air bag for storing air and an air pressure sensor 7.2 in the watch body, so that better comfort is provided for people, and the precision of the watch for measuring the heart rate is improved by matching the miniature sphygmomanometer 7 and the vibration device 13; the inflator A6, the inflator B17, the air pressure sensor 7.2 and the vibrating device 13 are in communication connection with each other; the inflatable watchband 10 is fixedly connected with two opposite side surfaces of the watch body respectively and is used for wrapping the wrist part of a user; the inflating device A6 and the inflating device B17 are used for inflating and deflating the inflatable watchband 10, the air pressure sensor 7.2 is used for detecting the pressure in the inflatable watchband 10, the vibrating device 13 is used for detecting that each vibrator in the air pressure vibrating watch generated by arterial blood flow of a user is eccentric, a rotating shaft with eccentric mass is installed at the center of the vibrating rod, and centrifugal force generated during high-speed rotation is transmitted to the vibrating rod shell through a bearing, so that the vibrating rod generates circumferential vibration.

The raw ear 15 plays a key role as the shape forming the whole watch, the selected material of the raw ear 15 also utilizes a more durable and light alloy material, the wear resistance is greatly improved, the raw ear 15 is better protected, the raw ear 15 is provided with two raw ears 15 which can be arranged in the sleeve in a sliding way, and the raw ear 15 can be replaced conveniently in the long-term use process in consideration of the time problem.

The vibrating device 13 is arranged below the electronic movement 5, and provides electric energy for the inflating device A6, the inflating device B17 and the miniature sphygmomanometer 7 in the operation process, and the principle that the motor is powered and electromagnetic conversion is used is adopted in the specific use process, so that the electric energy is converted into mechanical energy to drive the vibrator to rotate. The data detected by the micro-sphygmomanometer 7 is transmitted to the electronic movement 5 through the micro-motor 13.1 and displayed on the dial 4, the inflator A6 is communicated with the middle of the hollow cavity 9 through the inflator channel 8, the hollow cavity 9 is wrapped by the inflatable watchband 10, and the inflatable watchband 10 adopts a loop type watchband structure and is fixed on the watch ear 14 through the watch ear 15.

Example 2

In the use, the micro vibration that human heart beat produced will be caught by crystal oscillator 4.3, with signal transmission for miniature sphygmomanometer 7 and vibrating device 13, utilize the electric capacity variation between two sheets of metal to come the corresponding pressure value among the miniature sphygmomanometer 7, the piezoresistive utilizes the resistance value variation to come the corresponding pressure value to survey the rhythm of the heart. The cam 13.2 begins to operate after receiving the signal in the vibrating device 13, drives the micro motor 13.1, converts the electric energy into mechanical energy, produces vibration, reminds the user of the current heart rate and pulse. When the heart rate and the pulse reach certain values, the data are transmitted to the electronic movement 5, the electronic movement 5 sends signals to the inflating device A6 and the inflating device B17, the electronic movement is communicated with the middle of the hollow cavity 9 through the inflating device channel 8, and air enters the inflating device A6 through the air inlet 018, so that the inflatable watchband 10 is continuously expanded and contracted to achieve the purpose of awakening a user.

The above description is only a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be considered as the protection scope of the present invention.

Claims (5)

1. An intelligent alarm clock watch comprises a watch mirror (1), a minute hand (2), an hour hand (3), a dial (4), an electronic movement (5), a crown (11), a key A (12), a key B (16), a watch ear (14) and a watch ear (15), and is characterized in that an inflating device A (6) and an inflating device B (17), a miniature sphygmomanometer (7), an inflating device channel (8), a hollow cavity (9), an inflatable watch band (10) and a vibrating device (13) are additionally arranged; a vibrating device (13) is arranged below the electronic movement (5), an inflating device A (6) and an inflating device B (17) are respectively arranged below and above the vibrating device (13), the inflating device A (6) is in line connection with the micro sphygmomanometer (7), an inflating device channel (8) is arranged inside the dial plate (4), a hollow cavity (9) is arranged inside the inflatable watchband (10), and the inflating device channel (8) is communicated with the hollow cavity (9).

2. The intelligent alarm clock watch of claim 1, wherein the gas transmission port (010) of the inflator A (6) is tightly attached and sealed with the inflator channel (8) of the watch, the gas transmission port (010) is communicated with the second air chamber (020), a gas hole switch (014) is arranged between the second air chamber (020) and the first air chamber (019), a partition plate (017) is arranged between the second air chamber (020) and the third air chamber (013), a sealing device (015) is arranged on the lower portion of the third air chamber (013), a gas outlet (016) is arranged on the lower portion, a knob (012) is embedded at the top of the inflator (6), and a gas pressure adjusting valve (011) is connected to the bottom of the knob (012).

3. A smart alarm clock watch as claimed in claim 1, characterised in that said micro-sphygmomanometer (7) comprises an integrated air circuit (7.1) and an air pressure sensor (7.2), both wired.

4. A smart alarm clock watch according to claim 1, characterised in that the cam (13.2) is mounted on the head of the micro-motor (13.1) of the vibrating device (13), the micro-motor (13.1) being externally covered by a rubber sleeve (13.3).

5. A driving method of an intelligent alarm clock watch is characterized in that a crystal oscillator (4.3) captures micro vibration generated by beating of a human heart, signals are transmitted to a micro sphygmomanometer (7) and a vibration device (13), and the micro sphygmomanometer (7) measures heart rate; the cam (13.2) in the vibrating device (13) starts to operate after receiving signals to drive the micro motor (13.1) to generate vibration, when the heart rate and the pulse reach certain values, data are transmitted to the electronic movement (5), the electronic movement (5) sends signals to the inflating device A (6) and the inflating device B (17), the electronic movement is communicated with the middle of the hollow cavity (9) through the inflating device channel (8), and air enters the inflating device (6) through the air inlet (018) to enable the inflatable watchband (10) to expand and contract continuously, so that the purpose of awakening a user is achieved.

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