CN218782520U - Waterproof rechargeable multifunctional metronome - Google Patents

Abstract

The utility model relates to a waterproof rechargeable multi-functional metronome, include: the wireless charging device comprises a shell, a controller, a display, an operation interface, a signal generating unit, a power supply module and a wireless charging module. The controller stores a signal setting module, a plurality of mode parameters and corresponding signal generation parameters are arranged in the signal setting module, and the signal generation parameters represent the time law of signal generation. The power supply module is provided with a battery. The inside waterproof space that has of casing, controller, power module, wireless charging module locate in the waterproof space. The controller controls the signal generating unit to send out signals according to the set mode parameters and the set signal generating parameters. The utility model discloses a waterproof rechargeable multi-functional metronome can provide required reputation beat suggestion and timing function when the user carries out the sports items, musical instrument exercise or other activities on aquatic and land.

Description

Waterproof rechargeable multifunctional metronome

Technical Field

The utility model relates to a metronome especially relates to an reputation metronome with waterproof and wireless function of charging.

Background

Aerobic exercises such as running, swimming, cycling and the like have the advantage of exercising the cardio-pulmonary function. In recent years, the sport tides are prevalent, and many reporters can be seen in the activity events of running, swimming and cycling on various roads. In aerobic exercise, the rate of lactic acid accumulation and the durability are affected by the respiratory rate and the rhythm of limb movement (such as the frequency of running and pedaling during cycling), coordination and consistency. Therefore, many people often wear metronomes to assist in their exercise, breathe at a certain frequency and control the rhythm of the limbs. However, the conventional metronome needs to be replaced with a battery, is not waterproof, and is often easily damaged when used in water, so that there is room for improvement.

SUMMERY OF THE UTILITY MODEL

Therefore, for improving the prior art, the utility model discloses the technical means who adopts is for providing a waterproof rechargeable multi-functional metronome, include: a shell, which is provided with a waterproof space inside; the controller is arranged in the waterproof space and stores a signal setting module, a plurality of mode parameters are arranged in the signal setting module, each mode parameter is respectively provided with at least one signal generation parameter corresponding to the mode parameter, and the signal generation parameters represent the time law of signal generation; a display electrically connected to the controller; an operation interface electrically connected with the controller; a signal generating unit electrically connected with the controller; the power supply module is arranged in the waterproof space, is electrically connected with the controller, the display and the signal generating unit and is provided with a battery; the wireless charging module is arranged in the waterproof space and connected with the power supply module, and is used for sensing an external wireless charging power supply to charge the battery; wherein, when the controller executes the signal setting module: displaying at least one mode parameter on the display for a user to switch different mode parameters through the operation interface, wherein the signal generation parameters corresponding to the mode parameters can be displayed on the display for the user to set or not for the user to set; after receiving a touch signal from the operation interface, the signal generating unit is controlled to send out a signal according to the mode parameter switched by the user and the signal generating parameter corresponding to the mode parameter.

In an embodiment of the present invention, the signal includes sound or light, or sound and light emitted synchronously.

In an embodiment of the present invention, the housing is transparent or translucent.

In an embodiment of the present invention, the housing is provided with a fixing ring.

In an embodiment of the invention, the controller is configured to display a power information about the battery on the display.

In an embodiment of the present invention, the battery is a lithium battery.

In an embodiment of the invention, the operation interface is configured to adjust a volume of the signal.

In an embodiment of the present invention, a signal generation parameter not set by the user is set as the time law of the tomato working method, and when the controller executes the signal setting module, the controller controls the signal generation unit to generate the signal according to the time law of the tomato working method.

In an embodiment of the present invention, a signal generating parameter not set by the user is set to 100 times per minute, and the controller controls the signal generating unit to generate the signal at a frequency of 100 times per minute when executing the signal setting module.

The utility model discloses a waterproof rechargeable multi-functional metronome's power module and wireless charging module adopt wireless mode to charge to the battery in locating waterproof space, need not to dismantle and change the battery, compare the waterproof nature that commercial metronome has the preferred, also reduce the damage chance that probably causes when frequently dismantling. The utility model discloses a waterproof rechargeable multi-functional metronome can provide required beat suggestion and timing function when the user is engaged in aquatic and terrestrial sports item, musical instrument exercise or other health and daily activities. In one embodiment, the signal comprises synchronously emitted sound and light, so that the waterproof charging type multifunctional metronome has sufficient beat prompting and striking effects when used at night and in water. In one embodiment, the signal generating parameter is set to a time law of the tomato working method, so that the controller controls the signal generating unit to generate the signal according to the time law of the tomato working method. In one embodiment, the signal generating parameter is set to a frequency suitable for performing the cardiopulmonary resuscitation, so that the controller controls the signal generating unit to generate the signal according to the frequency (100 times per minute) suitable for performing the cardiopulmonary resuscitation. The utility model discloses a waterproof rechargeable multi-functional metronome can further be applied to the time management of daily work and rest and the beat suggestion of cardiopulmonary resuscitation, has extended the application of metronome.

Drawings

Fig. 1A is a schematic perspective view of an embodiment of the waterproof rechargeable multifunctional metronome of the present invention;

fig. 1B is a schematic block diagram of an embodiment of the waterproof charging type multifunctional metronome of the present invention;

fig. 2A is a schematic diagram of a mode parameter and a corresponding signal generation parameter of the waterproof charging type multifunctional metronome of the present invention, which are displayed on a display;

fig. 2B is another schematic diagram of the waterproof rechargeable multifunctional metronome of the present invention showing a mode parameter and a corresponding signal generation parameter on the display;

fig. 2C is another schematic diagram of the waterproof rechargeable multifunctional metronome of the present invention, showing a mode parameter and a corresponding signal generation parameter on the display;

fig. 2D is a schematic diagram of a mode parameter of the waterproof rechargeable multifunctional metronome of the present invention shown on a display;

fig. 2E1 is another schematic diagram of a mode parameter of the waterproof rechargeable multifunctional metronome of the present invention shown on the display;

fig. 2E2 is a schematic diagram of the tomato working method mode of the waterproof charging type multifunctional metronome of the present invention when executed;

fig. 3 is the utility model discloses a waterproof rechargeable multi-functional metronome utilizes an outside wireless charging source to carry out the schematic diagram that charges.

[ description of reference ]

100-waterproof rechargeable multifunctional metronome; 1-a shell; 11-a fixed ring; 1S — a waterproof space; 2-a controller; 21-a signal setting module; 211-mode parameters; 212-Signal Generation parameters; 211 a-mode parameters; 212 a-signal generation parameters; 211 b-mode parameters; 212 b-signal generation parameters; 211 c-mode parameters; 212 c-signal generation parameters; 211 d-mode parameters; 211 e-mode parameters; 3-a display; 4-an operation interface; 41-a shift key; 42-first arrow key; 43-second arrow key; 5-a signal generating unit; 6, a power supply module; 61-a battery; 7-a wireless charging module; 8-a charge indicator light; p-external wireless charging power supply; c-electric quantity information.

Detailed Description

The following detailed description and technical contents of the present invention are described with reference to the accompanying drawings, however, the attached drawings are only provided for reference and illustration to help understanding the present invention, and are not intended to limit the scope of the present invention.

First, please refer to fig. 1A and 1B, which are schematic perspective views and block diagrams of an embodiment of a waterproof rechargeable multifunctional metronome of the present invention. The waterproof charging type multifunctional metronome 100 includes a casing 1, a controller 2, a display 3, an operation interface 4, a signal generating unit 5, a power supply module 6 and a wireless charging module 7.

The housing 1 is used for accommodating and mounting the controller 2, the display 3, the operation interface 4, a signal generating unit 5, a power supply module 6 and a wireless charging module 7. The interior of the shell 1 is provided with a waterproof space 1S, and the shell 1 can be made of transparent, opaque or semitransparent materials. The casing 1 may be provided with a fixing ring 11, so that the waterproof rechargeable multifunctional metronome 100 can be fixed on a strap for a user to wear on a hand or other parts of a body during exercise (such as jogging or swimming).

The controller 2 is provided in the waterproof space 1S. The controller 2 has a processor, a memory, a timer, and an input/output interface (not shown), and can be implemented as a circuit or an integrated circuit chip (e.g., a Microcontroller (MCU)) capable of programming, executing, and storing program instructions, controlling hardware, timing/counting, sending and receiving signals.

The display 3 is electrically connected to the controller 2 for displaying information for the user to watch. The display 3 may be a liquid crystal display.

The operation interface 4 is electrically connected to the controller 2 for the user to select and set the functions provided by the waterproof charging type multifunctional metronome 100. The operation interface 4 can be a button, a knob, or a touch module integrated with the display 3.

The signal generating unit 5 is electrically connected to the controller 2 for emitting a signal to prompt the wearer or the instructor at the side. The signal may be sound or light. In this embodiment, the signal includes sound and light emitted synchronously, so that the waterproof rechargeable multifunctional metronome 100 has a sufficient eye-catching effect even when used at night. When the waterproof rechargeable multifunctional metronome 100 is used in water, a shoreside instructor can more easily judge whether the action rhythm of the wearer is right beat by emitting a beat signal in the form of light. The signal generating unit 5 may be a buzzer, a horn, a light emitting diode bulb or other combinations of devices capable of generating sound and emitting light.

The controller 2 stores a signal setting module 21, and the signal setting module 21 is executed by the controller 2. The signal setting module 21 has a plurality of mode parameters 211, and each mode parameter 211 has at least one signal generating parameter 212. The mode parameter 211 represents a plurality of different operation modes, and the signal generation parameter 212 represents a time law of signal generation in the corresponding operation mode. When the signal setting module 21 is executed, the controller 2 controls the signal generating unit 5 to generate the signal according to the time law represented by the signal generating parameter 212.

When the controller 2 executes the signal setting module 21, at least one of the mode parameters 211 is displayed on the display 3 for a user (not shown) to switch the mode parameter 211 through the operation interface 4, and the signal generating parameter 212 corresponding to the mode parameter 211 can be displayed on the display 3 for the user to set or not set. After receiving a touch signal from the operation interface 4, the controller 2 controls the signal generating unit 5 to send a signal according to the mode parameter 211 switched by the user and the signal generating parameter 212 corresponding to the mode parameter 211.

Referring to fig. 2A, the mode parameter 211a represents "seconds per beat interval mode", and the signal generating parameter 212A is seconds per beat interval that can be set by the user. In this mode, the controller 2 controls the signal generating unit 5 to generate a signal regularly according to the set number of seconds per beat interval (e.g., make a sound or blink once every 30 seconds per beat interval). Referring to fig. 2B, the mode parameter 211B is a "beats per minute (beats per minute) mode", and the signal generating parameter 212B is a beats per minute that can be set by the user. In this mode, the controller 2 controls the signal generating unit 5 to generate a signal (e.g., sound 180 times per minute or flash 180 times per minute) according to the set beat per minute rule. Referring to fig. 2C, the mode parameter 211C indicates "timing mode", and the signal generating parameter 212C is a time period that can be set by a user. After the timing is started, the signal generating unit 5 generates a signal (e.g., three times a sound or three times a flash) indicating the time is up when the set time length is reached. Referring to FIG. 2D, the mode parameter 211D indicates "CPR mode", and the signal generating parameter may be a built-in value (e.g., frequency of 100 times per minute, frequency suitable for CPR) not displayed on the display 3 for the user to set. In this mode, the controller 2 controls the signal generating unit 5 to regularly generate signals according to the built-in values of the signal generating parameters (e.g., frequency of 100 times per minute), and this mode can be used in situations where cardiopulmonary resuscitation is required to assist the rescuer in mastering the rhythm of actions.

Specifically, as shown in fig. 2E1, the mode parameter 211E of the signal setting module 21 may further include a "tomato working method (pomofo Technique) mode", and the corresponding signal generation parameter is built in to be set as a time rule of the tomato working method, which is not set by the user. In this mode, the controller 2 controls the signal generating unit 5 to generate signals according to the time law of the tomato working method. The signal generating unit 5 generates signals at intervals of 25 minutes and 5 minutes, respectively, and reminds the user of the start and end of a work period of 25 minutes and a rest period of 5 minutes. The working period and the rest period can be set to repeat multiple cycles, and the elapsed time or the remaining time can be displayed on the display 3 by means of a timer, as shown in fig. 2E 2.

In addition, the "beat interval seconds mode" or the "beats per minute mode" can also be combined with the "timing mode" to allow the user to set a timing interval, and the set beat interval seconds or beats per minute causes the signal generating unit to generate signals.

In this embodiment, the operation interface 4 may include a switch key 41, a first arrow key 42 and a second arrow key 43. The user can switch different mode parameters 211 through the switch key 41, and increase or decrease the signal generation parameter 212 through the first arrow key 42 and the second arrow key 43. The controller 2 may be configured to perform operations such as power on/off, volume adjustment of signals, start of signal generation by the control signal generating unit 5, stop of signal generation by the control signal generating unit 5, and change of increasing/decreasing speed of the signal generating parameter 212 according to the operation mode (such as the duration of the pressed key or the sequence of the pressed key) of the operation interface 4.

Referring to fig. 1B, the power supply module 6 is electrically connected to the controller 2, the display 3 and the signal generating unit 5. The power supply module 6 is provided with a battery 61 for supplying the power required by the components during operation. The power supply module 6 can use a lithium battery and has the advantage of high charging and discharging speed. Referring to fig. 2A, the controller 2 may be configured to display a power information C about the battery 61 on the display 3 to remind the user of the remaining power of the waterproof charging type multifunctional metronome 100.

The wireless charging module 7 is connected to the power supply module 6, and the wireless charging module 7 is configured to sense an external wireless charging power source P to charge the battery 61. The external wireless charging power supply P can generate current by the wireless charging module 7 through electromagnetic induction or resonance. The wireless charging module 7 and the external wireless charging power source P may be devices conforming to Qi or other wireless charging standards. The power supply module 6 and the wireless charging module 7 are provided with a temperature protection circuit, an overcharge prevention circuit and a short-circuit protection circuit so as to increase the safety in use. In addition, the power supply module 6 and the wireless charging module 7 are disposed in the waterproof space 1S in the housing 1, so that the battery 61 can be charged in a wireless manner when the electric quantity is insufficient, the battery does not need to be replaced as in a conventional metronome, and the design of the waterproof space 1S is facilitated. Therefore, the waterproof rechargeable multifunctional metronome 100 is suitable for assisting indoor and outdoor sport activities.

Referring to fig. 3, fig. 3 is a schematic diagram of the waterproof charging type multifunctional metronome 100 being placed in an external wireless charging power supply P for wireless charging. The utility model discloses a waterproof rechargeable multi-functional metronome 100 further is equipped with a charge indicator 8. The charge indicator lamp 8 is electrically connected to the controller 2. The controller 2 may control the charge indicator lamp 8 to be turned on when charging is performed, and control the charge indicator lamp 8 to be turned off after the power is fully charged.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. The utility model provides a waterproof rechargeable multi-functional metronome which characterized in that includes:

the shell is internally provided with a waterproof space;

the controller is arranged in the waterproof space and stores a signal setting module, a plurality of mode parameters are arranged in the signal setting module, each mode parameter is correspondingly provided with at least one signal generation parameter, and the signal generation parameters represent the time law of signal generation;

the display is electrically connected with the controller;

the operation interface is electrically connected with the controller;

the signal generating unit is electrically connected with the controller;

the power supply module is arranged in the waterproof space, is electrically connected with the controller, the display and the signal generating unit and is provided with a battery; and

the wireless charging module is arranged in the waterproof space and connected with the power supply module, and is used for inducing an external wireless charging power supply to charge the battery;

wherein, when the controller executes the signal setting module:

displaying at least one mode parameter on the display for a user to switch different mode parameters through the operation interface, wherein the signal generation parameters corresponding to a plurality of the mode parameters can be displayed on the display for the user to set or not to set;

after receiving a touch signal from the operation interface, the signal generating unit is controlled to send out a signal according to the mode parameter switched by the user and the signal generating parameter corresponding to the mode parameter.

2. The waterproof charging type multifunctional metronome of claim 1, wherein the signal comprises sound or light, or sound and light emitted synchronously.

3. The waterproof rechargeable multifunctional metronome of claim 1 or 2, wherein the housing is transparent or translucent.

4. The waterproof charging type multifunctional metronome of claim 1 or 2, wherein the housing is provided with a fixing ring.

5. The waterproof charging type multifunctional metronome of claim 1 or 2, wherein the controller is configured to display information about the charge amount of the battery on the display.

6. The waterproof charging type multifunctional metronome of claim 1 or 2, wherein the battery is a lithium battery.

7. The waterproof charging type multifunctional metronome of claim 1 or 2, wherein the operation interface is configured to adjust a volume of the signal.

8. The waterproof charging type multifunctional metronome of claim 1 or 2, wherein a signal generation parameter not set by a user is set as a time law of a tomato working method, and the controller controls the signal generating unit to generate a signal according to the time law of the tomato working method when executing the signal setting module.

9. The waterproof charging type multifunctional metronome as claimed in claim 1 or 2, wherein a signal generation parameter not set by a user is set to 100 times per minute, and the controller controls the signal generating unit to generate a signal at a frequency of 100 times per minute when the signal setting module is executed.

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