CN211158512U - Dribbling height detection device on basketball training ground - Google Patents

Abstract

The utility model relates to a dribbling height detection device on basketball training field, including telescopic link, holding tank, vibration sensor and controller, in the wall body of holding tank embedding basketball training field, the one end of telescopic link is articulated with the inslot tip of holding tank, and the telescopic link is kept away from the one end at articulated position and is hidden vibration sensor, vibration sensor are connected with the controller electricity. Realize that extension length is adjustable through the telescopic link, wherein, telescopic link one end is articulated with the holding tank inslot end of embedding wall body, the telescopic link is kept away from the vibration sensor of the interior concealed electric connection controller of one end at articulated position, dribble training in-process through the control palm in telescopic link below space of training person, controller accessible vibration sensor gathers training person's feeler lever data and feeds back and show the feedback, both realize supplementary coach and detect, can help the training person to clarify its control ball stability under different dribble height requirements again, realize the training assistance.

Description

Dribbling height detection device on basketball training ground

Technical Field

The utility model relates to a dribbling height detection device on basketball training field.

Background

In the basketball sport, easily be taken the ball by other people for avoiding the dribbling too high, the coach can train the student to control its dribbling height and be less than the waist position, and when carrying out dribbling height training, owing to lack the auxiliary device who detects the dribbling height, the coach need observe numerous student's dribbling height simultaneously through the visual means, and this can put forward higher requirement to the coach.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an improve the weak point among the prior art, and provide a dribbling height detection device's hardware architecture, treat that the software personnel can reach the mesh that detects dribbling height and training aiding to the controller programming back wherein.

Therefore, the dribbling height detection device on the basketball training field comprises a telescopic rod, a containing groove, a vibration sensor and a controller, wherein the containing groove is embedded into a wall body of the basketball training field, one end of the telescopic rod is hinged with the end part in the containing groove, the vibration sensor is embedded in one end, away from the hinged part, of the telescopic rod, and the vibration sensor is electrically connected with the controller.

Further, the telescopic rod is a telescopic hollow cylinder rod.

Furthermore, the telescopic rod, the accommodating groove and the vibration sensor are provided with a plurality of groups, and the groups are arranged up and down at equal intervals.

Further, the holding tank level is embedded in the wall body.

Further, be equipped with the dribbling training floor under the telescopic link, the dribbling training floor includes upper and lower coincide's bottom plate and roof, and the face of roof divides a plurality of regions, and every region is carved with at the face of roof and is stamped and steps on the sign, steps on the sign periphery and is equipped with the light indicating device who is used for instructing the basketball placement, and light indicating device's top surface flushes with the plate body face, presss from both sides between bottom plate and the roof and is equipped with a plurality of pressure sensor that evenly distributed and array set up, and light indicating device is connected with each pressure sensor electricity respectively the controller.

Furthermore, light indicating device has a plurality ofly, and each light indicating device distributes in the different positions of roof face, and each light indicating device electricity respectively connects the controller.

Furthermore, the plate surface of the top plate is divided into three rows and two columns, and the positions of the light indicating devices are distributed between the two stepping marks in the first row and on the left and right sides of the two stepping marks in the first row, on the left and right sides of the two stepping marks in the second row and in front of and behind the center lines of the two stepping marks.

Further, the pressure sensor is in particular a piezo-resistor.

Further, the controller is connected with a display device and a broadcasting device for displaying dribbling training data.

Further, the controller and the display device respectively refer to a controller and a display device in the touch screen all-in-one machine.

Has the advantages that:

the utility model discloses a telescopic link realizes that extension length is adjustable, wherein, telescopic link one end is articulated with the holding tank inslot end of embedding wall body, can pack up the telescopic link when useless and rotate the back and accomodate in the inslot, thereby can rotate the telescopic link the maximum 90 degrees perpendicular with the wall body during the use, the telescopic link is kept away from the vibration sensor of the interior concealed electric connection controller of one end at articulated position, dribbling through the control palm in telescopic link below space in the training person's dribbling training process, treat to the controller programming back, controller accessible vibration sensor gathers training person's feeler lever data and shows the feedback, both realize supplementary coach and detect, can help the training person to see its stability of controlling the ball under different dribbling height requirements again, realize the training aid.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 shows a schematic view of a first viewing angle of the basketball training court of the present invention;

FIG. 2 shows a schematic of the construction of the inclined ramp;

fig. 3 shows a schematic view of a second perspective of the basketball training court of the present invention;

FIG. 4 is a schematic diagram illustrating the configuration of a backboard in the basketball training area;

FIG. 5 shows a schematic structural view of a dribbling training floor;

FIG. 6 shows an enlarged view of a dribbling training pole in the dribbling training area;

fig. 7 is a schematic view of a third perspective of the basketball training court of the present invention;

fig. 8 shows an enlarged view of the defensive robot.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Referring to fig. 1, the basketball training court of this embodiment is a semi-closed court, three walls are arranged around the basketball training court, one wall is left as an opening, the wall opposite to the opening is defined as a forward wall a, and the other two walls are a left side wall B and a right side wall C which are vertically adjacent to the forward wall a.

Be equipped with the half high enclosure of U type on the basketball training court, half high enclosure comprises the half high wall A1 of forward direction that sets up by neighbouring forward wall A, the half high wall B1 of left side that neighbouring left side wall B set up, the half high wall C1 of right side that neighbouring right side wall C set up, and the buffer layer has all been laid to the one side that the wall was kept away from to trilateral wall, and the buffer layer can be filled by buffer material such as cotton or foam and construct. The three walls are arranged at the same height and are lower than the height of the wall, wherein the left half-high wall B1 and the right half-high wall C1 are respectively vertical and adjacent to the positive half-high wall A1. At least 25 cm gaps are reserved between each half-height wall and the adjacent wall, inclined slideways D shown in the figure 2 are arranged at the bottoms of the gaps, and the inclined slideways D are used for transporting the basketball to a designated position.

Referring to fig. 3, the inner space of the U-shaped half-height enclosing wall is divided into three areas, namely a pass training area, a shooting training area and a dribbling training area from left to right in sequence.

Referring to fig. 1, the shooting training area is located in the middle of the inner space of the U-shaped half-height enclosing wall, and the shooting training area comprises a shooting training floor E1, a touch screen all-in-one machine E2, a basket E3, a backboard E4, a loudspeaker E5 and the like. The basketball shooting training floor E1 is reduced in proportion to the half of a basketball of standard specification, a plurality of fixed point marks E11 are fixedly attached to the surface of the floor, the fixed point marks E11 are arranged according to the step of stepping and shooting, and each fixed point mark E11 is provided with a visible number, such as the numbers 1-12.

The front wall A is provided with a groove, the touch screen all-in-one machine E2 is embedded into the groove, and the notch of the groove is covered by toughened glass, so that the touch screen all-in-one machine E2 is protected. A basket E3 and a backboard E4 of standard specifications are arranged above the touch screen all-in-one machine E2, the basket E3 is fixed on the backboard E4 conventionally, and the backboard E4 is installed on the positive wall A and is aligned with the shooting training floor E1. The basket E3 has a photoelectric sensor, not shown, provided on the inner edge thereof, and the photoelectric sensor is electrically connected to a controller in the touch-screen unit E2.

Referring to fig. 4, the backboard E4 includes a substrate E41 and a panel E42 overlapped with each other, the panel E42 is a transparent plate, the inner side of the panel E42 is frosted near the substrate E41, the outer side of the panel E is smooth for exposing, the smooth outer side is divided into a plurality of regions by lines, for example, 9 regions as shown in the figure, the bottom of each region is correspondingly provided with a pressure sensor E43 and a L ED light emitting chip E44 fixed on the substrate E41, and the pressure sensors E43 and L ED light emitting chip E44 are electrically connected to a controller in the touch screen all-in-one machine E2.

Referring to fig. 1, two speakers E5 are distributed on two sides of the touch screen all-in-one machine E2, embedded and fixed on the positive half-height wall a1, and electrically connected to the controller in the touch screen all-in-one machine E2.

The dribbling training area is positioned at the right side of the inner space of the U-shaped half-height enclosing wall, and the dribbling training floor F1, a dribbling height detection device F2 and other devices are arranged in the dribbling training area. Wherein the dribbling training floor F1 has a plurality of, each dribbling training floor F1 is arranged at equal intervals and is adjacent to the right half-height wall C1.

Referring to fig. 5, the dribbling training floor F1 is a cube and comprises a bottom plate F11 and a top plate 12 which are overlapped up and down, the surface of the top plate 12 is uniformly divided into three rows and two columns of 6 areas, a stepping mark F13 which can be used for illustration is engraved in the center of each area on the surface of the top plate 12, the surface of the top plate 12 is further provided with a plurality of perspective windows F14, openings of the perspective windows F14 are sealed by perspective parts (such as glass), the perspective parts are flush with the surface of the top plate 12, the positions of the perspective windows F14 are set according to the dribbling of the dribbling, specifically, the perspective windows F14 are totally six, the positions of the perspective windows are distributed between the two stepping marks F13 in the first row and the left and right sides of the two stepping marks F13 in the first row, the left and right sides of the two stepping marks F13 in the second row and the front and the back of the center line of the two stepping marks, L ED light emitting chips F15 and L and ED light emitting chips F15 which are fixed on the bottom plate F59636 and electrically connected with a controller in the touch screen E2, a layer of.

Referring to fig. 1, the dribbling height detecting device F2 has a plurality of half high walls C1 located on the right side of the space right above the dribbling training floor F1, wherein at least two dribbling height detecting devices F2 are arranged on the top and bottom of each dribbling training floor F1 at equal intervals.

Each of the dribbling height detecting devices F2, see fig. 6, is composed of a telescopic rod F21, a receiving groove F22, and a vibration sensor, not shown. The accommodating groove F22 is a strip-shaped square groove which is horizontally embedded into the right half-height wall C1. The telescopic rod F21 is a conventional telescopic hollow cylindrical rod formed by rolling a metal strip, one end of the telescopic rod F21 is hinged with the end part of the accommodating groove F22, the telescopic rod F21 can be retracted and then rotated to be accommodated in the groove when the telescopic rod F21 is not used, and the telescopic rod F21 can be rotated by 90 degrees to the maximum extent to be perpendicular to the right half-height wall body C1 when the telescopic rod F21 is used. A vibration sensor is arranged in one end of the telescopic rod F21 far away from the hinged part, and the vibration sensor is electrically connected with a controller in the touch screen all-in-one machine E2.

Referring to fig. 1, a camera G is fixed on the right half-height wall C1 and electrically connected with a controller in the touch screen all-in-one machine E2.

Referring to fig. 7, the pass training area is positioned at the left side of the inner space of the U-shaped half-height enclosing wall, and the pass training area is internally provided with a pass training floor H1, an array reflector H2 and the like. The pass training floor H1 is a common floor, and the left and right of the pass training floor are respectively adjacent to the left half-high wall B1 and the shooting training floor E1. The array reflector H2 is a square plate, and is erected and attached on the left side half-height wall B1, a plurality of reflectors H21 are laid on the side face, facing the camera G, of the array reflector H2, for example, reflectors or lenses are arranged, the reflectors H21 are distributed in an array at equal intervals, when no trainer exists on the field, the camera G shoots array white spots due to the fact that the reflectors H21 are opposite to the camera G, when the trainer exists on the field, the body shape of the trainer covers part of the reflectors H21, the reflectors H21 in the covered area cannot reflect light to the camera G, corresponding white spots disappear, a shadow man-shaped appears in the white spots, and a controller in the touch screen all-in-one machine E2 analyzes the posture of the trainer according to the shadow man-shaped.

The basketball training court of this embodiment can provide shooting training, dribbling training, pass training for the training person.

The method comprises the steps that as shown in the figure 1, shooting training can be divided into fixed-point shooting training, striding shooting training and shooting training with a shooting board, when the fixed-point shooting training is carried out, an image is displayed on a screen by a touch screen all-in-one machine E2 to indicate a trainer to shoot on a fixed-point mark E11 with a specific mark, shooting hitting times are detected by a photoelectric sensor arranged at the edge of a basket E3, shooting postures and shooting times of the trainer are detected and analyzed by postures, and accordingly collection of fixed-point shooting data of the trainer is achieved.

When dribbling training is carried out, a trainer steps on any two stepping marks F13 by feet, a pressure sensor array F16 in a dribbling training floor F1 senses the feet to give a controller, the controller controls L ED light emitting chips F15 on a dribbling training floor F1 to light up to indicate the basketball falling point of the trainer according to the positions of the feet, dribbling guiding is achieved, training data such as the basketball falling point, strength and times are sensed by a pressure sensor array F16 to carry out display feedback, the trainer is helped to clarify dribbling stability of the trainer under different dribbling falling points, the trainer can know the weak point of dribbling to carry out targeted correction, dribbling training is assisted, training is achieved, training effect is improved, in the dribbling training process, the trainer can stretch out 865f 21, a telescopic rod F21 is used for dribbling height assisted training, the trainer controls a palm to carry out dribbling in a space below the telescopic rod F21 in the dribbling training process, when the basketball impacts or limbs of the trainer hit the training, vibration sensors in the training rod trigger a telescopic rod to output vibration sensor to trigger a vibration screen to carry out touch screen to help the vibration detection and realize the touch screen to detect different heights of the vibration screen 2 and to realize the stability of the vibration screen to display of the training integrated machine.

See fig. 7, during the pass training, the training person carries out the pass training through many people cooperation or pitching machine cooperation, touch-sensitive screen all-in-one machine E2 utilizes pass training data such as the pass gesture, pass number of times, the number of times of losing hands of gesture detection analysis training person among the training process, show the feedback, help the training person to clarify its pass ball effect of self under different pass gestures, thereby supplementary training person carries out the pertinence to weak point and corrects, realize supplementary pass training, promote the training effect.

It should be noted that, as shown in fig. 8, the basketball training court of this embodiment is further configured with a defensive robot I, the defensive robot I is composed of a stand I1, a man-shaped wood board main body I2, an arm I3 and a leg I4 of the man-shaped wood board, and four motors not shown in the drawing, the man-shaped wood board main body I2 is fixed on the stand I1, the stand I1 is retractable to adjust the height of the man-shaped wood board main body I2, the arm I3 and the leg I4 of the man-shaped wood board are disconnected from the main body I2, the four motors are all fixed on the back of the main body I2, and the arm I3 and the leg I4 of the man-shaped wood board are respectively fixed on the motor shafts, and are driven by the motors to enable the arm I3 and the leg I4 of the. During shooting training, accessible defense robot I carries out the shooting to the training person and disturbs, strengthens the training effect.

The touch screen all-in-one machine E2 can drive the loudspeaker E5 to carry out voice reminding, indication and informing of the training result to the trainer.

Of the above, the pressure sensor preferably uses a piezoresistor to save space.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the protection scope of the present application, and although the present application is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present application without departing from the spirit and scope of the technical solutions of the present application.

Claims (10)

1. Dribbling height detection device on basketball training field, its characterized in that:

including telescopic link, holding tank, vibration sensor and controller, the holding tank embedding basketball training field in the wall, the one end of telescopic link is articulated with the inslot tip of holding tank, and the telescopic link is kept away from and is concealed in the one end at articulated position vibration sensor, vibration sensor and controller electricity are connected.

2. The dribbling height detection device according to claim 1, wherein: the telescopic rod is a telescopic hollow cylinder rod.

3. The dribbling height detection device according to claim 1, wherein: the telescopic rod, the accommodating groove and the vibration sensor are provided with a plurality of groups, and the groups are arranged up and down at equal intervals.

4. The dribbling height detection device according to claim 3, wherein: the holding tank is horizontally embedded in the wall.

5. The dribbling height detection device according to any one of claims 1 to 4, wherein: be equipped with the dribbling training floor under the telescopic link, the dribbling training floor includes upper and lower coincide's bottom plate and roof, and the face of roof divides a plurality of regions, and every region is carved with at the face of roof and is trampled the sign, tramples the sign periphery and be equipped with the light indicating device who is used for instructing the basketball placement, and light indicating device's top surface flushes with the plate body face, presss from both sides between bottom plate and the roof and is equipped with a plurality of pressure sensor that evenly distributed and array set up, and light indicating device is connected with each pressure sensor electricity respectively the controller.

6. The dribbling height detection device according to claim 5, wherein: the light indicating devices are arranged at different positions of the top plate surface and are respectively electrically connected with the controller.

7. The dribbling height detection device according to claim 6, wherein: the plate surface of the top plate is divided into three rows and two columns, and the positions of the light indicating devices are distributed between the two stepping marks in the first row and on the left and right sides of the two stepping marks in the first row, on the left and right sides of the two stepping marks in the second row and in front and back of the central lines of the two stepping marks.

8. The dribbling height detection device according to claim 5, wherein: the pressure sensor is in particular a piezo-resistor.

9. The dribbling height detection device according to claim 1, wherein: the controller is connected with a display device and a broadcasting device which are used for displaying dribbling training data.

10. The dribbling height detection device according to claim 9, wherein: the controller and the display device respectively refer to the controller and the display device in the touch screen all-in-one machine.

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