CN216456808U - Handheld device for sports - Google Patents

Abstract

The utility model discloses handheld equipment for sports, which comprises a shell, wherein a main control chip, a sports state acquisition module and a transmitter-receiver are arranged in the shell, a through hole is formed in the front end of the shell, at least two wires with one ends connected with the main control chip penetrate through the through hole, and the other ends of the wires penetrate out of the through hole to be connected with sports equipment and can transmit data of the sports equipment to the main control chip; motion state acquisition module and transceiver equally divide respectively with main control chip connects, when motion state acquisition module gathered human training, handheld device's motion state data transmission to main control chip, main control chip can be connected with terminal equipment through transceiver to with handheld device's motion state information and sport equipment's data transmission to terminal equipment. Can be applied to a plurality of sports items, and has wide application range.

Description

Handheld device for sports

Technical Field

The utility model relates to sports equipment, in particular to handheld equipment for sports.

Background

The equipment used by the training of the athletes, such as the football, is used for receiving or hitting a ball by a specially-assigned person, and throwing the ball to the athletes by the specially-assigned person to carry out ball receiving, passing and positioning training. However, it has the following drawbacks: firstly, not only is manpower wasted, but also a plurality of balls need to be equipped, so that the training cost is increased. Secondly, it is possible to kick the ball onto other people's property (residential glass, vehicles) and body to damage other people's property and personal safety; furthermore, in places with limited space, the trainer cannot get effective training.

Among the prior art, pass through the rope with football and handle and connect, when the training, can pull back the football through the rope, but this handle can only be applied to the training of football, can not be applied to other sports, and the function is too single, consequently still has certain improvement space.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide handheld equipment for sports, which can be applied to multiple sports projects and has a wide application range.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

a handheld device for sports comprises a shell, wherein a main control chip, a sports state acquisition module and a transmitter-receiver are arranged in the shell, a through hole is formed in the front end of the shell, at least two wires with one ends connected with the main control chip penetrate through the through hole, the other ends of the wires penetrate through the through hole to be connected with sports equipment, and data of the sports equipment can be transmitted to the main control chip;

the exercise state acquisition module and the transceiver are equally divided and are connected with the main control chip, when the exercise state acquisition module acquires human body training, the exercise state data of the handheld device are transmitted to the main control chip, the main control chip can be connected with the terminal device through the transceiver, and the exercise state information of the handheld device and the data of the exercise equipment are transmitted to the terminal device.

Preferably, the motion state acquisition module comprises an acceleration sensor and an angular velocity sensor.

Preferably, the terminal device comprises a display screen, and an operating rod and a control button which are respectively connected with the main control chip are arranged on the outer side of the shell and used for selecting and determining the working mode of the main control chip.

Preferably, a vibrator connected with the main control chip is arranged in the shell, and the motion state of the athlete is prompted according to the working state of the vibrator.

Preferably, the terminal device further comprises a video acquisition module, and the video acquisition module is used for acquiring video data in the whole training process.

Preferably, a storage battery is arranged in the shell and used for providing working voltage for the main control chip, the motion state acquisition module, the transmitter-receiver and the vibrator, and a charging interface is arranged on the outer side of the shell.

Preferably, a rotatable conductive slip ring and a conductive seat electrically connected with the conductive slip ring are arranged in the shell, the conductive seat is connected with the main control chip, the conductive slip ring comprises a columnar slip ring body and a conductive ring of which the outer side surface is exposed out of the slip ring body, and each wire penetrates through one end in the shell through a through hole and is correspondingly arranged in the slip ring body to be connected with one conductive ring;

the conducting wire can rotate synchronously with the conducting slip ring, and when the conducting slip ring rotates, the conducting seat is always electrically connected with the conducting ring.

Preferably, the conductive seat is provided with a conductive contact, and the conductive contact abuts against the surface of the conductive ring.

Compared with the prior art, the sports handheld device has the advantages that,

the handheld device can be applied to training processes in the fields of balls, skipping ropes, fencing and the like, a lead at the front end of the handheld device can be connected with a sensor in a ball body, a sensor in a sword body or a sensor in the skipping rope body, data of the ball body, the sword body and the rope body are fed back to a main control chip of the handheld device, on one hand, a vibrator is controlled by the main control chip to feed back motion conditions to an athlete, on the other hand, the main control chip can be connected with terminal equipment through a sending receiver, so that training items displayed on a display screen are selected and confirmed, and detected data information can be transmitted to the terminal equipment; namely, when the sportsman trains through the action displayed on the display screen, if the action is problematic, the vibrator in the handle can shake to prompt the sportsman, and the action is not standard and standard, so that the action can be quickly adjusted.

Drawings

FIG. 1 is a first schematic structural diagram of a handheld device for exercise in this embodiment;

FIG. 2 is a second schematic structural diagram of the handheld device for exercise in this embodiment;

FIG. 3 is a schematic structural diagram of a conductive slip ring and a conductive seat in the present embodiment;

fig. 4 is a schematic cross-sectional view of the conductive slip ring and the conductive seat in the present embodiment.

In the figure, 1, a housing; 11. an operating lever; 12. a control button; 13. a charging interface; 2. a main control chip; 3. a wire; 4. a vibrator; 5. a storage battery; 6. a conductive slip ring; 61. a slip ring body; 62. conducting rings; 7. a conductive seat; 71. and a conductive contact.

Detailed Description

The utility model is described in further detail below with reference to the accompanying examples.

A handheld device for sports is shown in a combined figure 1-4 and comprises a shell 1, wherein a main control chip 2, a sports state acquisition module and a transceiver are arranged in the shell 1, a through hole is formed in the front end of the shell 1, at least two wires 3 with one ends connected with the main control chip penetrate through the through hole, the other ends of the wires 3 penetrate out of the through hole to be connected with sports equipment, and data of the sports equipment can be transmitted to the main control chip 2. If the sports equipment is a skipping rope, the handheld device is used as a handle and is connected with one end of the rope body. If this sport equipment is football, racket ball class such as, then this handheld device passes through the rope and is connected with the spheroid, and then can pull back playing, hitting the spheroid of going out. If the sports apparatus is a fencing, the handheld device is connected with the sword body as a handle. And the rope body, spheroid, sword body can set up the data message when the sensor detects the motion, for example set up pressure sensor in the spheroid, pressure value and pressurized position etc. that the spheroid received when detecting kicking the ball.

The rotatable conductive sliding ring 6 and the conductive seat 7 electrically connected with the conductive sliding ring 6 are arranged in the shell, wherein the conductive sliding ring 6 is coaxial with the through hole, the outer diameter of the conductive sliding ring 6 is larger than the diameter of the through hole, the conductive sliding ring 6 is prevented from sliding out through the through hole, the conductive seat 7 is fixed in the shell, and the conductive seat 7 is connected with the main control chip 2. The conductive slip ring 6 comprises a cylindrical slip ring body 61 and a conductive ring 62 with the outer side surface exposed out of the slip ring body 61, and each lead 3 penetrates through one end in the shell 1 through the through hole and correspondingly penetrates through the slip ring body 61 to be connected with one conductive ring 62; the conductive seat 7 is provided with conductive contacts 71 corresponding to the conductive rings 62 one by one, and the conductive contacts 71 are correspondingly abutted against the outer side surfaces of the conductive rings 62. When the lead 3 and the conductive slip ring 6 rotate synchronously, the conductive seat 7 is always electrically connected with the conductive ring 62.

The conductive seat 7 leads out a connecting wire from each conductive contact 71 to be connected with the main control chip 2, when the conductive wire 3 needs to rotate and drive the conductive slip ring 6 to rotate, the conductive contact 71 on the conductive seat 7 always supports against the outer surface of the conductive ring 62 and is correspondingly electrically connected with the conductive ring 62, so that the conductive wire 3 is prevented from being damaged due to rotation.

The motion state acquisition module and the transceiver are connected with the main control chip 2 respectively, and when the motion state acquisition module was gathered human training, the motion state data of handheld device to transmit to the main control chip 2, the main control chip 2 can be connected with terminal equipment through the transceiver, and with the motion state information of handheld device and the data transmission of sport equipment to terminal equipment. The motion state acquisition module comprises an acceleration sensor and an angular velocity sensor and is used for detecting the angle and the motion speed of hand motion of an athlete during training.

Terminal equipment is the computer, the cell-phone, PAD equipment such as, send receiving module in with handle 1 passes through infrared, bluetooth or wiFi are connected, terminal equipment can the installation software, and include display screen and video acquisition module, video acquisition module is used for carrying out video data's the collection to whole training process, main control chip 2 carries received handheld device and sport equipment's data synchronization to terminal equipment, terminal equipment is according to video data, the data of handheld device and sport equipment carry out the analysis, judge whether sportsman's action is standard, then send corresponding signal to main control chip 2.

The shell of the handle 1 is internally provided with a vibrator 4 connected with the main control chip 2, and the motion state of an athlete is prompted by the working state of the vibrator 4. When the motion data of the motion state acquisition module received by the main control chip 2 is inconsistent with the motion of the display screen, that is, the main control chip 2 receives the detected motion state data and then compares the detected motion state data with the standard data of the training item stored in the database, and when the data deviation is large or the terminal equipment analyzes and judges that the motion of the athlete is not standard, the vibrator 4 vibrates to remind the athlete.

The outer side of the shell 1 is provided with a 360-degree operating rod 11 and a control button 12 which are respectively connected with the main control chip 2 and used for selecting and determining the working mode of the main control chip 2, so that the movement mode of the handheld device is consistent with the training items displayed by the display screen.

For example, when the sportsman practises shooting, be shown on the display screen and have the goal, the sportsman is according to the goal position and the distance of seeing, and then can carry out the shooting training, when pressure sensor in the spheroid can detect sportsman's kicking, the pressure that the spheroid received, the motion data acquisition module is used for detecting the angle and the action speed of hand action when training the sportsman, and carry to main control chip 2, and video acquisition module can detect spheroidal motion information and carry to terminal equipment, terminal equipment can be according to the pressure value, video data, whether the position of shooting is accurate is judged to the motion data, and indicate the sportsman through vibrator 4.

Be provided with battery 5 in the casing 1 for main control chip 2, motion state acquisition module, transceiver and vibrator 4 provide operating voltage, the outside of casing 1 is provided with the interface 13 that charges.

Compared with the prior art, the handheld device for sports has the advantages that the handheld device can be applied to training processes in the fields of balls, skipping ropes, fencing and the like, the wires at the front end of the handheld device can be connected with the sensors in the balls, the sensors in the sword bodies or the sensors in the skipping rope bodies, data of the balls, the sword bodies and the rope bodies are fed back to the main control chip of the handheld device, on one hand, the vibrator is controlled by the main control chip to feed back sports conditions to athletes, on the other hand, the main control chip can be connected with the terminal device through the sending receiver, so that training items displayed on a display screen are selected and confirmed, and detected data information can be transmitted to the terminal device; namely, when the sportsman trains through the action displayed on the display screen, if the action is problematic, the vibrator in the handle can shake to prompt the sportsman, and the action is not standard and standard, so that the action can be quickly adjusted.

Although preferred embodiments of the present invention have been described in detail hereinabove, it should be clearly understood that modifications and variations of the present invention are possible to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A handheld device for sports characterized by: the sports equipment comprises a shell (1), wherein a main control chip (2), a motion state acquisition module and a transmitter-receiver are arranged in the shell (1), a through hole is formed in the front end of the shell (1), at least two wires (3) with one ends connected with the main control chip penetrate through the through hole, the other ends of the wires (3) penetrate through the through hole to be connected with sports equipment, and data of the sports equipment can be transmitted to the main control chip (2);

motion state acquisition module and transceiver equallyd divide do not with main control chip (2) are connected, when motion state acquisition module gathered human training, handheld device's motion state data transmission to main control chip (2), main control chip (2) can be connected with terminal equipment through transceiver to with handheld device's motion state information and sport equipment's data transmission to terminal equipment.

2. A sports hand-held device according to claim 1, characterised in that: the motion state acquisition module comprises an acceleration sensor and an angular velocity sensor.

3. Hand-held sports apparatus according to claim 2, wherein: the terminal equipment comprises a display screen, and an operating rod (11) and a control button (12) which are respectively connected with the main control chip (2) are arranged on the outer side of the shell (1) and used for selecting and determining the working mode of the main control chip (2).

4. Hand-held sports apparatus according to claim 2, wherein: the shell (1) is internally provided with a vibrator (4) connected with the main control chip (2), and the motion state of an athlete is prompted through the working state of the vibrator (4).

5. A sports hand-held device according to claim 3, wherein: the terminal equipment further comprises a video acquisition module, and the video acquisition module is used for acquiring video data in the whole training process.

6. A sports hand-held device according to claim 4, wherein: be provided with battery (5) in casing (1) for master control chip (2), motion state acquisition module, transceiver and vibrator (4) provide operating voltage, the outside of casing (1) is provided with interface (13) that charges.

7. Hand-held sports apparatus according to any one of claims 1 to 6, wherein: a rotatable conductive slip ring (6) and a conductive seat (7) electrically connected with the conductive slip ring (6) are arranged in the shell, the conductive seat (7) is connected with the main control chip (2), the conductive slip ring (6) comprises a columnar slip ring body (61) and a conductive ring (62) with the outer side surface exposed out of the slip ring body (61), and each wire (3) penetrates through one end in the shell (1) through a through hole and is correspondingly arranged in the slip ring body (61) to be connected with one conductive ring (62);

the lead wire (3) can rotate synchronously with the conductive slip ring (6), and when the conductive slip ring (6) rotates, the conductive seat (7) is always electrically connected with the conductive ring (62).

8. Hand-held sports apparatus according to claim 7, wherein: the conductive seat (7) is provided with a conductive contact (71), and the conductive contact (71) is abutted against the surface of the conductive ring (62).

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