CN210114799U - Special training bionic model for boxing training - Google Patents

Abstract

The utility model discloses a special training bionic model of accompanying of boxing training belongs to sports training apparatus technical field, mainly includes: the device comprises a main body structure, a balancing weight arranged at the lower part of the main body structure, ground-grabbing friction blocks arranged around the lower part of the balancing weight, a circuit board positioned in the main body structure and a display screen positioned on the surface of the main body structure; a circle of support ring is arranged on the periphery of the bottom of the balancing weight, and the ground-grabbing friction block is embedded into the support ring in an EVA foaming injection molding mode. The utility model discloses simple structure, reasonable in design can select to grab the suitable bionical model of training accompanying of area of contact size of ground clutch blocks and ground according to the trainee self condition, through the balancing weight of bottom with grab the stability that this bionical model of training accompanying has effectively increased on the one hand of ground clutch blocks, on the other hand whole bionical model of training accompanying can take place to remove when the dynamics reaches a certain amount, very close real man actual combat, strong adaptability, training intensity is corresponding.

Description

Special training bionic model for boxing training

Technical Field

The utility model relates to a sports apparatus technical field specifically relates to a special training bionic model of accompanying of boxing training.

Background

With the improvement of living standard, more and more people pursue body-building sports, and boxing sports is indoor body-building sports suitable for families, gymnasiums and the like, is not only convenient, but also consumes large body fat, and can be one of the best most effective sports for slimming, losing weight and strengthening body.

Many colleges and universities also set up a boxing family training course, and many college students also participate in the sports. Along with the gradual popularization of boxing sports and the continuous improvement of training level, boxing training devices are continuously updated.

At present, the apparatus of boxing training is mostly the sand bag. The traditional sandbag has the problem of single function, is only used as a tool for training strength and speed, has poor response speed and accurate response training to boxers, needs additional special training and greatly increases the input energy and time. While traditional one-to-one combat training can train the reaction of the boxer, the training mode is limited by the level of accompanying training and is easy to be injured during the training process. In addition, in the one-to-one actual combat training, since the partner is a person, it is difficult for the boxer to make the exercise as much as possible, and the training efficiency is not high.

The actual combat is carried out from person to person and is dynamic, the attack direction of an opponent can come from different directions, the attack mode is uncertain, the athlete is required to have good observation power, and the corresponding response can be made in the first time only by finding in an urgent situation.

SUMMERY OF THE UTILITY MODEL

To the problem that above-mentioned exists, the utility model provides a special training bionic model of accompanying of boxing training.

The technical scheme of the utility model as follows:

a boxing training special-purpose partner training bionic model mainly comprises:

the device comprises a main body structure, a balancing weight arranged at the lower part of the main body structure, ground-grabbing friction blocks arranged around the lower part of the balancing weight, a circuit board positioned in the main body structure and a display screen positioned on the surface of the main body structure;

the main body structure is in a human body imitation structure and comprises a head, a chest, an upper arm, an upper abdomen part and a lower abdomen part, wherein force sensors for detecting hitting force are distributed in the head, the chest, the upper arm, the upper abdomen part and the lower abdomen part; the display screen is located at an upper position of the head.

The circuit board is provided with a micro-control chip and a counter for counting, and the counter, the force sensor and the display screen are all connected with the micro-control chip through data lines;

the lead block is arranged inside the balancing weight, the shell is arranged outside the lead block, and a circle of support ring is arranged on the periphery of the bottom of the shell; the bottom of grabbing ground clutch block with the bottom of balancing weight is located same horizontal plane, grabs ground clutch block and inserts in the supporting ring around the balancing weight bottom with the form card that the EVA foaming was moulded plastics, can realize comparatively firm cooperation like this on the one hand, prevents to drop, and on the other hand can increase of service life.

Further, in the above scheme, the ground-gripping friction block is an integral structure surrounding the balancing weight for one circle.

Further, in the above scheme, the ground friction block is a plurality of long-strip arc structures uniformly surrounding the balancing weight for one circle.

Further, in the above scheme, the ground-grabbing friction block is a plurality of square structures uniformly surrounding the balancing weight for one circle.

Further, in the scheme, the contact area between the ground gripping friction block and the ground is 1/4-3/4 of the contact area between the counterweight block and the ground. The larger the contact area between the ground gripping friction block and the ground is, the stronger the ground gripping force is, and different contact area sizes can be selected according to the strength of the trainee so as to adapt to respective training strengths.

Further, in the above scheme, the material of support ring is EVA, also can select other materials, as long as can strengthen frictional force can, the utility model discloses a scope is not limited to this.

Further, in the above scheme, the model of the micro control chip is S2AA7002, and other models of micro control chips may also be selected, and the scope of the present invention is not limited thereto.

Further, in the above solution, the model of the counter is JDM11-6H, and counters of other models may be selected as long as the technical function of the number of punching times can be implemented, and the scope of the present invention is not limited thereto.

Further, in the above scheme, the model of dynamics sensor is P110, also can select the dynamics sensor of other models, as long as can realize the response to the boxing dynamics can, the utility model discloses a scope is not limited to this.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the structure of the training bionic model special for boxing training is simple and reasonable, and the trainer can pertinently carry out striking exercises of each part by dividing the main body structure into the head, the chest, the upper arm, the upper abdomen and the lower abdomen, so as to simulate real combat, and the training bionic model is more pertinence and interesting compared with a common sand bag;

(2) compared with the tumbler-type boxing training equipment in the prior art, the bottom is permanently fixed, and the training person cannot move with any strength, so that the utility model effectively increases the stability of the accompanying bionic model through the balancing weight and the ground-grabbing friction block at the bottom, and the whole accompanying bionic model can move when the strength reaches a certain amount, thereby being very close to real combat;

(3) in addition, the utility model is also provided with a counter, a force sensor and a display screen, so that the hitting force can be displayed on the display screen in real time, and the hitting times can be calculated;

(4) the utility model discloses the area of contact on the friction block of grabbing ground and ground of bottom can be selected according to trainee self condition, and the area of contact that can select that strength is big some, and strength is little can corresponding selection area of contact little, and strong adaptability, training intensity is pointed.

Drawings

Fig. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is a schematic view showing the connection of the grip friction block and the weight member in embodiment 1;

FIG. 3 is a schematic view showing the connection of the grip friction block and the weight member of embodiment 2;

FIG. 4 is a schematic view showing the connection of the grip friction block and the weight member of embodiment 3;

wherein, 1-main body structure, 1-1-head, 1-2-chest, 1-3-upper arm, 1-4-upper abdomen, 1-5-lower abdomen, 2-counterweight block, 2-1-lead block, 2-2-shell, 2-3-support ring, 3-ground friction block, 4-display screen, 5-micro control chip and 6-counter.

Detailed Description

Example 1:

as shown in fig. 1, a special accompanying bionic model for boxing training mainly comprises: the device comprises a main body structure 1, a balancing weight 2 arranged at the lower part of the main body structure 1, ground-grabbing friction blocks 3 arranged around the lower part of the balancing weight 2, a circuit board positioned in the main body structure 1 and a display screen 4 positioned on the surface of the main body structure 1;

the main body structure 1 is in a human body imitation structure and comprises a head part 1-1, a chest part 1-2, an upper arm 1-3, an upper abdomen part 1-4 and a lower abdomen part 1-5, wherein force sensors (not shown in the figure) for detecting the beating force are distributed in the head part 1-1, the chest part 1-2, the upper arm 1-3, the upper abdomen part 1-4 and the lower abdomen part 1-5; the display screen 4 is located at an upper position of the head 1-1.

The circuit board is provided with a micro-control chip 5 and a counter 6 for counting, and the counter 6, the force sensor and the display screen 4 are all connected with the micro-control chip 5 through data lines;

the inner part of the balancing weight 2 is a lead block 2-1, the outer part of the lead block 2-1 is a shell 2-2, and a circle of support ring 2-3 is arranged around the bottom of the shell 2-2; the bottom of the ground-grasping friction block 3 and the bottom of the balancing weight 2 are located on the same horizontal plane, the ground-grasping friction block 3 is embedded into the support rings 2-3 around the bottom of the balancing weight 2 in an EVA foaming injection molding mode, so that on one hand, stable cooperation can be realized, falling off is prevented, and on the other hand, the service life can be prolonged.

The ground-gripping friction block 3 is of an integral structure surrounding the balancing weight 2 for one circle. The contact area between the gripping pad 3 and the ground is 3/4 times the contact area between the weight 2 and the ground. The larger the contact area between the ground-gripping friction block 3 and the ground is, the stronger the ground-gripping force is, and different contact area sizes can be selected according to the strength of the trainee so as to adapt to respective training strengths.

The support ring 2-3 is made of EVA, the micro-control chip is S2AA7002, the counter is JDM11-6H, and the force sensor is P110.

The display screen, the micro-control chip, the counter and the force sensor are all powered by a battery, the force sensor transmits received information to the micro-control chip and converts the received information into numerical values to be displayed on the display screen, and the counter calculates the striking frequency and displays the striking frequency through the display screen.

Example 2:

as shown in fig. 3, the difference from embodiment 1 is that the friction block 3 is a plurality of long arc structures uniformly surrounding the weight block 2. The contact area between the gripping pad 3 and the ground is 1/4 times the contact area between the weight 2 and the ground.

Example 3:

as shown in fig. 4, the difference from embodiment 1 is that the friction block 3 is a plurality of square blocks uniformly surrounding the weight block 2. The contact area between the gripping pad 3 and the ground is 1/2 times the contact area between the weight 2 and the ground.

During actual training, the training accompanying bionic model with the proper contact area between the ground gripping friction block and the ground can be selected according to the self condition of a trainee, the contact area can be selected to be larger when the force is large, and the contact area can be selected to be smaller when the force is small, on one hand, the stability of the training accompanying bionic model is effectively improved through the balancing weight at the bottom and the ground gripping friction block, on the other hand, the whole training accompanying bionic model can move when the force reaches a certain amount, and the training accompanying bionic model can be used for performing striking exercises on various parts such as the head, the chest, the upper arm, the upper abdomen and the lower abdomen in a targeted manner, so that the training accompanying bionic model is very close to real combat from this point; and the real-time hitting force and the total hitting times are checked through the display screen, so that the adaptability is strong, and the training intensity is pointed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (9)

1. The utility model provides a special training bionic model of accompanying of boxing training which characterized in that mainly includes:

the device comprises a main body structure (1), a balancing weight (2) arranged at the lower part of the main body structure (1), ground-grabbing friction blocks (3) arranged at the periphery of the lower part of the balancing weight (2), a circuit board positioned in the main body structure (1) and a display screen (4) positioned on the surface of the main body structure (1);

the main body structure (1) is in a human body imitation structure and comprises a head part (1-1), a chest part (1-2), an upper arm (1-3), an upper abdomen part (1-4) and a lower abdomen part (1-5), wherein force sensors for detecting hitting force are distributed in the head part (1-1), the chest part (1-2), the upper arm (1-3), the upper abdomen part (1-4) and the lower abdomen part (1-5) uniformly;

a micro-control chip (5) and a counter (6) for counting are arranged on the circuit board, and the counter (6), the force sensor and the display screen (4) are all connected with the micro-control chip (5) through data lines;

a lead block (2-1) is arranged inside the balancing weight (2), a shell (2-2) is arranged outside the lead block (2-1), and a circle of support ring (2-3) is arranged on the periphery of the bottom of the shell (2-2); the bottom of the ground-grasping friction block (3) and the bottom of the balancing weight (2) are positioned on the same horizontal plane, and the ground-grasping friction block (3) is embedded into the support rings (2-3) around the bottom of the balancing weight (2) in an EVA foaming injection molding manner.

2. A boxing training bionic model, according to claim 1, characterized in that the ground-grasping friction block (3) is a monolithic structure surrounding the counterweight (2) for one circle.

3. A boxing training bionic model, according to claim 1, characterized in that the ground-grasping friction block (3) is a plurality of long arc structures which uniformly surround the counterweight block (2) for one circle.

4. A boxing training bionic model, according to claim 1, characterized in that the ground-grasping friction block (3) is a plurality of square structures which uniformly surround the counterweight block (2) for one circle.

5. A boxing training dedicated training bionic model, according to claim 1, wherein the contact area between the ground gripping friction block (3) and the ground is 1/4-3/4 of the contact area between the counterweight block (2) and the ground.

6. A boxing training dedicated partner bionic model according to claim 1, wherein the material of the support rings (2-3) is EVA.

7. A boxing training dedicated partner bionic model according to claim 1, wherein the model of the micro control chip (5) is S2AA 7002.

8. A boxing training dedicated partner bionic model according to claim 1, wherein the counter (6) is JDM11-6H in model number.

9. A boxing training dedicated training bionic model as claimed in claim 1, wherein the model of the force sensor is P110.

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