CN210674151U - Intelligent flexible racket - Google Patents

Abstract

The utility model relates to an intelligent flexible racket, which aims to solve the technical action problem of the flexible racket which is not easy to be held, and comprises a flexible racket consisting of a racket head, a racket neck, a racket handle and a racket face, wherein the racket handle is provided with a microprocessor, a three-axis acceleration sensor, a buzzer and a rechargeable power supply for providing power; and the three-axis acceleration sensor and the buzzer are respectively and electrically connected with the microprocessor. The middle part of the handle holding section of the racket is provided with a heart rate sensor which is used for monitoring heart rate change and is connected with a microprocessor. The inside of the handle is provided with a Bluetooth module for connecting a microprocessor. The flexible ball has the advantages of being beneficial to standardizing technical actions and helping beginners to be skilled in flexible ball sports as soon as possible.

Description

Intelligent flexible racket

Technical Field

The utility model relates to a flexible power racket especially relates to an intelligent flexible power racket.

Background

As is known, the soft ball sport is a brand new ball sport which is unique to Chinese characteristics and is a practical novel sport for Chinese people. It not only makes the ball and racket original, but also creates a complete set of sports competition rules. Compared with the existing strength type racket sports, the soft ball sports have the characteristic of bright flexibility. The flexibility of the flexible ball sports is unprecedented, and is clearly different from the existing strength type racket sports, so that many beginners are difficult to realize the regular technical actions of sports competition rules, and the deep popularization of the flexible ball sports is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the above-mentioned defect of prior art, provide an intelligent gentle power racket that can help the beginner to become proficient gentle power ball motion as early as possible.

In order to achieve the purpose, the intelligent flexible racket of the utility model comprises a flexible racket consisting of a racket head, a racket neck, a racket handle and a racket face, and is characterized in that the racket handle is provided with a microprocessor, a three-axis acceleration sensor, a buzzer and a rechargeable power supply for providing power supply; and the three-axis acceleration sensor and the buzzer are respectively and electrically connected with the microprocessor. The microprocessor, the three-axis acceleration sensor and the buzzer can quantify and detect strength and motion trail, standardize the technical action of using the flexible racket, record the motion amount and related motion parameters of a user, improve the reasonability of ball receiving and throwing motion and help a sporter to achieve the optimal body exercising effect. The three-axis acceleration sensor is used for counting the number of times of swing; the triaxial acceleration sensor transmits the recorded swing times to the microprocessor; the microprocessor compares the received swing times with the set swing times, if the received swing times exceed the set value, a control signal is sent to the buzzer, the buzzer is controlled to give out voice reminding, excessive movement reminding is carried out, and a user can control and master the exercise time and the exercise amount conveniently; if not, no treatment is carried out. The counted number of times of swing and the set number of times of swing are both the number of times of swing in the same unit time for comparison. The flexible ball has the advantages of being beneficial to standardizing technical actions and helping beginners to be skilled in flexible ball sports as soon as possible.

As optimization, the heart rate sensor connected with the microprocessor and used for monitoring heart rate change is arranged in the middle of the hand-held section of the racket handle. The combination of monitoring heart rate variability and the foregoing swing times monitoring can help the athlete to achieve optimal physical exercise results.

As optimization, a Bluetooth module used for connecting a microprocessor is arranged in the handle. The Bluetooth module is used for receiving and transmitting data with the smart phone. That is, the heart rate information and the number of times of waving the beat during the exercise can be sent to the mobile phone and other portable devices through the Bluetooth module arranged in the handle, so that the user can comprehensively know the exercise information.

As optimization, the antenna of the Bluetooth module is arranged at the tail end of the racket handle.

As optimization, the three-axis acceleration sensor, the microprocessor and the rechargeable power supply are arranged in the racket handle.

Preferably, the buzzer is arranged at the front part or the tail end of the handle or the neck region of the racket. The buzzer is arranged in the neck area, two V-shaped distributed sub-racket necks connected with the lower part of the circular racket head are arranged in front of the racket handle, and the buzzer is arranged between the base parts of the two V-shaped distributed sub-racket necks or arranged on the lower edge of the circular racket head section between the upper ends of the two V-shaped distributed sub-racket necks.

Preferably, the rechargeable power supply comprises a rechargeable battery electrically connected to the microprocessor and a USB charging interface for charging the rechargeable battery through the microprocessor. The USB charging interface is arranged on the bottom end face of the racket handle, which is concave inwards, at the tail end of the racket handle.

As optimization, the tail end of the racket handle is provided with a manual switch electrically connected with the microprocessor. The manual switch is arranged on the bottom end surface of the racket handle which is concave inwards.

As optimization, a liquid crystal display electrically connected with a microprocessor is arranged on the bottom end surface of the racket handle which is concave inwards at the tail end. The exercise reminding device has the functions of displaying the exercise information and reminding excessive exercise in real time, and is greatly convenient for a user to control and master the exercise time and the exercise amount. The liquid crystal display, the microprocessor, the three-axis acceleration sensor and the buzzer can quantify and detect strength and motion trail, standardize the technical action of using the flexible racket, record the motion amount and related motion parameters of a user, improve the reasonability of ball receiving and throwing motion and help a sporter to achieve the optimal body exercising effect. The liquid crystal display can display the motion information and the excessive motion prompt in real time, and is greatly convenient for a user to control and master the exercise time and the exercise amount.

Preferably, one side of the liquid crystal display is provided with a plurality of parallel display control keys of the liquid crystal display. And the tail end of the racket handle is provided with an integrated cover protection liquid crystal display, a USB charging interface and a protection buckle cover of a manual switch. The protective buckle cover is detachably buckled with the lower convex periphery of the concave bottom end surface at the tail end of the racket handle and is also connected with the racket handle through a hinge or a soft connecting line. The liquid crystal display, the display and control keys, the microprocessor, the three-axis acceleration sensor and the buzzer of the liquid crystal display can quantify and detect strength and motion trail, standardize the technical action of using the flexible racket, record the motion amount and related motion parameters of a user, improve the reasonability of ball receiving and throwing motion and help a sporter to achieve the optimal body exercising effect. In addition, the triangular hollow area of the racket neck can be detachably provided with a fan end of the anemoscope, the fan end is connected with the microprocessor through a plug wire, and the liquid crystal display and the display control key thereof display and control the fan end through the microprocessor. Like this, can carry out the actual measurement to the scene of the motion wind speed wind direction through the anemoscope of gentle power racket from taking to avoid unfavorable wind speed wind direction to standardize the adverse effect of technical action training. The tail of the racket handle is a regular hexagon with a cross section, a liquid crystal display and control keys thereof are transversely arranged between two left and right opposite parallel side edges of the bottom end surface of the inward concave regular hexagon at the tail end of the racket handle, a manual switch is arranged above the liquid crystal display and the display and control keys which are transversely arranged on the bottom end surface of the inward concave regular hexagon at the tail end of the racket handle, and a USB charging interface is arranged below the liquid crystal display and the display and control keys which are transversely arranged on the bottom end surface of the inward concave regular hexagon at the tail end of the racket handle.

The intelligent flexible racket has the advantages that the inner racket handle assembly such as the microprocessor is sleeved and connected with the racket handle through the thread screwing or the cutting sleeve, so that the intelligent flexible racket can be used for disassembling and assembling parts inside the racket, and the intelligent flexible racket is convenient and safe.

The utility model discloses intelligent gentle power racket can improve and connect the ball throwing motion rationality, and quantization and detection strength and trajectory, the standard uses gentle power racket technical motion, record user's amount of exercise and relevant motion parameter, and help sporter reaches the intelligent gentle power racket of best exercise health effect.

After the technical scheme is adopted, the utility model discloses intelligent gentle power racket has and is favorable to standardizing technical action, and the help beginner is skilled gentle power ball motion as early as possible with show motion information and motion are excessive to be reminded in real time, the very big convenience of customers control and the advantage of holding exercise time and exercise volume.

Drawings

FIG. 1 is a schematic circuit diagram of a first embodiment of the intelligent flexible racket of the present invention; FIG. 2 is a schematic structural diagram of a first embodiment of the intelligent flexible racket of the present invention; FIG. 3 is a schematic view of the structure of the handle of the first embodiment of the intelligent flexible racket; FIG. 4 is a schematic circuit diagram of a second embodiment of the intelligent flexible racket of the present invention; fig. 5 is a schematic view of the structure of the handle of the second embodiment of the intelligent flexible racket.

Detailed Description

In the first embodiment, as shown in fig. 1-3, the intelligent flexible racket of the present invention comprises a flexible racket consisting of a racket head 1, a racket neck 2, a racket handle 3 and a racket face 4, and is characterized in that the racket handle 3 is provided with a microprocessor 5, a triaxial acceleration sensor 6, a buzzer 7, and a rechargeable power supply for supplying power; the three-axis acceleration sensor 6 and the buzzer 7 are respectively electrically connected with the microprocessor 5. The triaxial acceleration sensor 6, the microprocessor 5 and the rechargeable power supply are arranged in the racket handle. The microprocessor 5, the three-axis acceleration sensor 6 and the buzzer 5 can quantify and detect strength and motion trail, standardize the technical action of using the flexible racket, record the motion amount and related motion parameters of a user, improve the reasonability of ball receiving and throwing motion and help a sporter to achieve the optimal physical exercise effect. The flexible ball has the advantages of being beneficial to standardizing technical actions and helping beginners to be skilled in flexible ball sports as soon as possible.

The triaxial acceleration sensor 6 is arranged in the racket handle 3 and used for counting the number of times of swinging; the triaxial acceleration sensor 6 transmits the recorded number of the swing times to the microprocessor 5; the microprocessor 5 compares the received swing times with the set swing times, if the received swing times exceed the set value, a control signal is sent to the buzzer 7, the buzzer 7 is controlled to give out voice reminding, and excessive movement reminding is carried out, so that a user can control and master the exercise time and the exercise amount conveniently; if not, no treatment is carried out. The counted number of times of swing and the set number of times of swing are both the number of times of swing in the same unit time for comparison.

The heart rate sensor 8 connected with the microprocessor 5 and used for monitoring the heart rate change is arranged in the middle of the hand-held section of the racket handle 3. The combination of monitoring heart rate variability and the foregoing swing times monitoring can help the athlete to achieve optimal physical exercise results.

A Bluetooth module 9 is arranged in the racket handle 3 and is connected with the microprocessor 5. The bluetooth module 9 is used for receiving and transmitting data with the smart phone. That is, the heart rate information and the swing times can be sent to the mobile phone and other portable devices through the Bluetooth module 9 arranged in the handle during the exercise, so that the user can comprehensively know the exercise information. The antenna of the Bluetooth module can be arranged at the tail end of the racket handle.

The buzzer 7 is arranged at the front part or the tail end or the neck area of the racket handle 3. The buzzer is arranged in the neck area, two V-shaped distributed sub-racket necks connected with the lower part of the circular racket head are arranged in front of the racket handle, and the buzzer is arranged between the base parts of the two V-shaped distributed sub-racket necks or arranged on the lower edge of the circular racket head section between the upper ends of the two V-shaped distributed sub-racket necks.

The rechargeable power supply comprises a rechargeable battery 10 electrically connected to the microprocessor 5 and a USB charging interface 11 for charging the rechargeable battery 10 through the microprocessor 5. The USB charging interface 11 is arranged on the bottom end face of the racket handle 3 with the tail end concave inwards.

The tail end of the racket handle 3 is provided with a manual switch 12 electrically connected with the microprocessor. The manual switch 12 is arranged on the concave bottom end surface of the tail end of the racket handle 3.

In the second embodiment, as shown in fig. 4-5, the difference between the intelligent flexible racket of the present invention and the first embodiment is that a liquid crystal display 13 electrically connected to the microprocessor 5 is disposed on the concave bottom surface of the tail end of the handle 3. The exercise reminding device has the functions of displaying the exercise information and reminding excessive exercise in real time, and is greatly convenient for a user to control and master the exercise time and the exercise amount. The liquid crystal display can display the motion information and the excessive motion prompt in real time, and is greatly convenient for a user to control and master the exercise time and the exercise amount.

The right side of the liquid crystal display 13 is provided with a plurality of parallel display control keys 14 of the liquid crystal display 13. And the tail end of the racket handle is provided with an integrated cover protection liquid crystal display, a USB charging interface and a protection buckle cover of a manual switch. The protective buckle cover is detachably buckled with the lower convex periphery of the concave bottom end surface at the tail end of the racket handle and is also connected with the racket handle through a hinge or a soft connecting line. The liquid crystal display, the display and control keys, the microprocessor, the three-axis acceleration sensor and the buzzer of the liquid crystal display can quantify and detect strength and motion trail, standardize the technical action of using the flexible racket, record the motion amount and related motion parameters of a user, improve the reasonability of ball receiving and throwing motion and help a sporter to achieve the optimal body exercising effect. In addition, the triangular hollow area of the racket neck can be detachably provided with a fan end of the anemoscope, the fan end is connected with the microprocessor through a plug wire, and the liquid crystal display and the display control key thereof display and control the fan end through the microprocessor. Like this, can carry out the actual measurement to the scene of the motion wind speed wind direction through the anemoscope of gentle power racket from taking to avoid unfavorable wind speed wind direction to standardize the adverse effect of technical action training. The tail of the racket handle is a regular hexagon with a cross section, a liquid crystal display and control keys thereof are transversely arranged between two left and right opposite parallel side edges of the bottom end surface of the inward concave regular hexagon at the tail end of the racket handle, a manual switch is arranged above the liquid crystal display and the display and control keys which are transversely arranged on the bottom end surface of the inward concave regular hexagon at the tail end of the racket handle, and a USB charging interface is arranged below the liquid crystal display and the display and control keys which are transversely arranged on the bottom end surface of the inward concave regular hexagon at the tail end of the racket handle.

The intelligent flexible racket has the advantages that the inner racket handle assembly such as the microprocessor is sleeved and connected with the racket handle through the thread screwing or the cutting sleeve, so that the intelligent flexible racket can be used for disassembling and assembling parts inside the racket, and the intelligent flexible racket is convenient and safe.

The utility model discloses intelligent gentle power racket can improve and connect the ball throwing motion rationality, and quantization and detection strength and trajectory, the standard uses gentle power racket technical motion, record user's amount of exercise and relevant motion parameter, and help sporter reaches the intelligent gentle power racket of best exercise health effect.

In a word, the utility model discloses intelligent gentle power racket has and is favorable to standardizing technical action, and the help beginner is skilled gentle power ball motion as early as possible to show motion information and motion in real time and remind excessively, greatly convenience of customers control and the advantage of holding exercise time and exercise volume.

Claims (9)

1. An intelligent flexible racket comprises a flexible racket body consisting of a racket head, a racket neck, a racket handle and a racket face, and is characterized in that the racket handle is provided with a microprocessor, a three-axis acceleration sensor, a buzzer and a rechargeable power supply for supplying power; the three-axis acceleration sensor and the buzzer are respectively and electrically connected with the microprocessor; a liquid crystal display electrically connected with the microprocessor is arranged on the concave bottom end surface of the tail end of the racket handle; the triangular hollow area of the racket neck is detachably provided with a fan end of the anemoscope, the fan end is connected with the microprocessor through a plug wire, and the liquid crystal display and the display control key thereof display and control the fan end through the microprocessor.

2. The intelligent flexible racket of claim 1, wherein a heart rate sensor connected with a microprocessor for monitoring the heart rate variation is arranged in the middle of the handle grip section.

3. The intelligent flexible racket of claim 1, wherein a bluetooth module is provided in the handle for connecting to a microprocessor.

4. The intelligent flexible racket of claim 3, wherein the antenna of the bluetooth module is disposed at the tail end of the handle.

5. The intelligent flexible racket of claim 1, wherein the three-axis acceleration sensor, the microprocessor and the rechargeable power source are disposed in the handle.

6. The intelligent flexible racket of claim 1, wherein the buzzer is disposed at the front or the tail end of the handle or the neck region.

7. The intelligent flexible racket of claim 1, wherein the rechargeable power source comprises a rechargeable battery electrically connected to the microprocessor and a USB charging interface for charging the rechargeable battery through the microprocessor.

8. The intelligent flexible racket of claim 1, wherein the handle is provided at the end with a manual switch electrically connected to the microprocessor.

9. The intelligent flexible racket of any one of claims 1-8, wherein a plurality of parallel display keys of the liquid crystal display are disposed on one side of the liquid crystal display.

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