CN204695344U - A kind of device indicating movements and induction type spheroid - Google Patents

Abstract

The utility model discloses a kind of device indicating movements and induction type spheroid, induction type spheroid comprises inner bag; Epidermis, described epidermis wraps up described inner bag; Device indicating movements, comprises induction module and processor; Described induction module comprises electronic tag and acceleration induction unit; Described electronic tag, acceleration induction unit are all connected with described processor.By the way, the utility model can gather the exercise data of induction type spheroid at the motion process of induction type spheroid.

Description

A kind of device indicating movements and induction type spheroid

Technical field

The utility model relates to motional induction technical field, particularly a kind of device indicating movements and induction type spheroid.

Background technology

Football and basketball movement have developed into first, second sports events global, and extensively promoted in the whole world, football and basketball movement due to its sports Nature comparison strong, and need member of community to cooperate with each other, cooperatively interact and just can win victory, therefore, the competitive state of each team sport person also seems extremely important.

Conveniently analyze athletic competitive state, usually record a video in the process of competing or train, the mode subsequently through viewing video recording analyzes sportsman's state, and its data are too single, and subjectivity is excessively strong, inadequate science.And football and basketball are as the entity moved, its exercise data has remarkable effect for the athletic competitive state of analysis.

But basketball of the prior art or football all do not have the function gathering exercise data.

Utility model content

The technical matters that the utility model mainly solves is to provide a kind of device indicating movements and induction type spheroid, can gather the exercise data of induction type spheroid at motion process.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: provide a kind of device indicating movements, comprise induction module and processor in comprising; Described induction module comprises electronic tag and acceleration induction unit; Described electronic tag, acceleration induction unit are all connected with described processor.

Wherein, described electronic tag comprises antenna element, radio frequency unit, control module and storage unit; Described antenna element is connected with radio frequency unit, and described radio frequency unit is connected with control module, and described control module is connected with storage unit.

Wherein, described induction module also comprises steady arm and timer; Described steady arm and timer are all connected with described processor; Described device indicating movements also comprises communication module and memory module; Described communication module and memory module are all connected with described processor

Wherein, described device indicating movements also comprises battery and wireless charging module; Described wireless charging module is connected with described battery, and described battery is connected with described induction module and processor respectively.

Wherein, described acceleration induction unit comprises triaxial accelerometer sensor, three-axis gyroscope sensor and three axle Gauss meter sensors; Described triaxial accelerometer sensor, three-axis gyroscope sensor are all connected with described processor with three axle Gauss meter sensors.

Wherein, described device indicating movements also comprises protective housing, and described protective housing is provided with receiving space; Described induction module and processor are all contained in described receiving space.

Wherein, the shape of described protective housing is arcwall face.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: provide a kind of induction type spheroid, comprise above-mentioned device indicating movements, inner bag and epidermis; Described epidermis wraps up described inner bag; Described device indicating movements is between described inner bag and described epidermis.

Wherein, described induction type spheroid also comprises foam and base fabric, described foam and base fabric are all between described inner bag and epidermis, and described foam is bonded in the inside surface of described epidermis, described base fabric is bonded in the surface of described foam away from described epidermis, and described device indicating movements is between described inner bag and base fabric.

Wherein, described foam is ethylene-vinyl acetate copolymer, and the thickness of described foam is 2 millimeters; Described base fabric quantity is polylith, and described polylith base fabric is stacked fixing; Described inner bag is latex or butyl; Described epidermis is spliced by heat bonding by polylith splicing block, and wherein, described splicing block is vinyl chloride monomer, polyurethane or Polyurethane Thermoplastic Elastomer rubber.

The beneficial effects of the utility model are: the situation being different from prior art, the utility model is at induction type spheroid and arrange induction module between inner bag and epidermis, at induction type spheroid in the process of motion, induction module can gather this exercise data of paratonic movement ball, follow-uply carries out data analysis to motion process to facilitate.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the utility model device indicating movements embodiment;

Fig. 2 is the schematic diagram of electronic tag in the utility model device indicating movements embodiment;

Fig. 3 is the schematic cross-section of the utility model induction type spheroid embodiment.

Embodiment

For the ease of understanding the utility model, below in conjunction with the drawings and specific embodiments, the utility model is described in detail.It should be noted that, when element is stated " being fixed on " another element, it can directly on another element or can there is one or more element placed in the middle therebetween.When an element is stated " connection " another element, it can be directly connected to another element or can there is one or more element placed in the middle therebetween.The term " vertical " that this instructions uses, " level ", "left", "right" and similar statement are just for illustrative purposes.

Unless otherwise defined, all technology of using of this instructions and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in instructions of the present utility model in this instructions just in order to describe concrete embodiment is not for limiting the utility model.The term "and/or" that this instructions uses comprises arbitrary and all combinations of one or more relevant Listed Items.

Refer to Fig. 1, device indicating movements comprises induction module 23 and processor 25.Induction module 23 comprises electronic tag 231 and accelerates induction module 233.

Electronic tag 231 is all connected with processor 25 with acceleration induction unit 233.As shown in Figure 2, electronic tag 231 be configured at sportsman's tag read-write equipment with it with the use of, when distance between sportsman and induction type spheroid 30 is less than predetermined threshold value, tag read-write equipment induced electricity subtab 231, thus determine that sportsman is near induction type spheroid 30.Wherein, electronic tag 231 adopts closely induction technology, concrete, and electronic tag 231 contains antenna element 2311, radio frequency unit 2312, control module 2313 and storage unit 2314.Antenna element 2311 is connected with radio frequency unit 2312, and radio frequency unit 2312 is connected with control module 2313, and control module 2313 is connected with storage unit 2314.

Acceleration induction unit 233 comprises triaxial accelerometer sensor 2331, three-axis gyroscope sensor 23322332 and three axle Gauss meter sensors 2333.Triaxial accelerometer sensor 2331, three-axis gyroscope sensor 2332 are all connected with processor 25 with three axle Gauss meter sensors 2333.Three-axis gyroscope sensor 2332 can the position in Simultaneously test 6 directions, and motion track, accelerates.The maximum effect of three-axis gyroscope sensor 2332 is exactly measured angular speed, to differentiate the motion state of induction type spheroid 30.The principle of work of triaxial accelerometer sensor 2331 is when accelerometer is together with external object) when doing accelerated motion, the effect that mass is just subject to inertial force is moved in the opposite direction.The displacement that mass occurs is subject to the restriction of spring and damper, just can record extraneous acceleration magnitude by output voltage.Rectilinear motion and the rotary motion of induction type spheroid 30 can be detected by triaxial accelerometer sensor 2331 and three-axis gyroscope sensor 2332, catch induction type spheroid 30 better in three-dimensional entire motion.Certainly, in order to make triaxial accelerometer sensor 2331 and three-axis gyroscope sensor 2332, there is higher acceleration and lower mechanical noise, or for correcting the rotation error of triaxial accelerometer sensor 2331, above-mentioned functions can be completed with the use of three axle Gauss meter sensors 2333.Triaxial accelerometer sensor 2331, three-axis gyroscope sensor 2332 and three axle Gauss meter sensors 2333 are with the use of raising reaction agility, and noise is less, exports purer.

Induction module 23 also comprises steady arm 232 and timer 2 34.Steady arm 232 is all connected with processor 25 with timer 2 34.Steady arm 232 is for position location, and wherein, steady arm 232 can GPS locator, Big Dipper steady arm etc.Timer 2 34 for writing time, and by electronic tag 231, steady arm 232 with accelerate the time that the data responded to of induction module 233 and timer 2 34 record and set up corresponding relation, statistics, analyzes athletic state etc.

Device indicating movements 20 also comprises communication module 26 and memory module 27.Communication module 26 is connected with processor 25, by communication module 26, the data that induction module 23 detects is sent to server, at server then to data analysis.Memory module 27 is connected with processor 25, and the data that induction module 23 senses also can be stored in memory module 27, and follow-up unification is read.

Device indicating movements 20 also comprises battery 28 and wireless charging module 29.Wireless charging module 29 is connected with battery 28, and battery 28 is connected with induction module 23 and processor 25 respectively, and battery 28 is for powering to induction module 23 and processor 25, and wireless charging module 29 is for charging to battery 28.As long as wireless charging module 29 is positioned on wireless charging base, wireless charging base can realize battery 28 and charge, very convenient.Battery is used for powering to induction module and processor.

Further, in order to protect induction module 23 and processor 25 better, device indicating movements 20 also comprises protective housing (not shown), and protective housing is provided with receiving space (not shown).Induction module 23 and processor 25 are all contained in receiving space.In the present embodiment, the shape of protective housing is arcwall face, to make protective housing can average pressurized, can not concentrate and be stressed upon protective housing a bit or on fraction area, anti-pressure ability is better.Certainly, protective housing also can adopt shock resistance and stronger PVC (Polyvinyl chloride, the Polyvinylchloride) material of anti-pressure ability, to improve shock resistance and the anti-pressure ability of protective housing.

In the utility model embodiment, device indicating movements comprises induction module and processor, and induction module is connected with processor, induction module is for gathering exercise data, when device indicating movements is arranged at spheroid, induction module can gather the exercise data of spheroid, very convenient.

The present invention also provides a kind of induction type spheroid embodiment.Refer to Fig. 3, induction type spheroid 30 induction type spheroid 30 comprises inner bag 21, epidermis 22 and upper described device indicating movements 20.

Epidermis 22 wraps up inner bag 21, to protect inner bag 21.When certainly inflating inner bag 21, inner bag 21 is heaved, and heaves from making whole induction type spheroid 30.Device indicating movements 20 is between inner bag 21 and epidermis 22.In the process that induction type spheroid 30 moves, device indicating movements 20 can gather the data relevant to induction type spheroid 30, such as: whether the current acceleration of induction type spheroid 30, speed, position, rotational speed and sportsman contact etc. with induction type spheroid 30.In the present embodiment, the quantity of device indicating movements 20 can be multiple.

It should be noted that: the concrete structure for device indicating movements can consult device indicating movements embodiment, repeats no longer one by one herein.

In order to protect inner bag 21 better; induction type spheroid 30 also comprises foam (not shown) and base fabric (not shown); foam and base fabric are all between inner bag 21 and epidermis 22; and foam is bonded in the inside surface of epidermis 22; base fabric is bonded in the surface of foam away from epidermis 22, and device indicating movements 30 is between inner bag and base fabric.The protection to inner bag 21 is strengthened by foam and base fabric.Wherein, the thickness of foam is 2 millimeters, and base fabric quantity is polylith, and polylith base fabric is stacked fixing.In the present embodiment, preferably, foam is ethylene-vinyl acetate copolymer, epidermis 22 is PVC (Polyvinyl chloride, vinyl chloride monomer), PU (Polyurethane, polyurethane) or TPU (Thermoplastic polyurethanes, Polyurethane Thermoplastic Elastomer rubber).Wherein, PVC is a kind of polymeric material of vinyl, because it adds some poisonous auxiliary material such as plastifier, antiaging agent in the fabrication process, and its thermotolerance, toughness, ductility is better, but not environmentally, and produced football is partially hard, and elasticity is not good enough.PU is the one of leatheret, its soft expensive than PVC, but it has the texture of corium, very durable, closer to cortex fabric, at general temperature can not hardening, become fragile, and there is the advantages such as rich color, decorative pattern be various.TPU temperature influence is smaller, though terribly cold sky it also can not be very hard, softer, relatively cunning.

In order to make the structure of induction type spheroid better, epidermis is spliced by heat bonding by polylith splicing block.By the epidermis 22 that multiple splicing block is spliced by heat bonding, the sphere structure of epidermis 22 is better, is playing in the process of penetrating and can keep spherical completely, help increase dynamics and degree of accuracy, and the sphere eliminating epidermis 22 is irregular concavo-convex, make epidermis 22 more perfect, more precisely; Good seal in addition between splicing block is better, makes induction type spheroid 30 present smooth and continuous print sphere.In the present embodiment, preferably, inner bag 21 is latex inner bag 21 or butyl inner bag 21.Butyl is elastomeric one, and it is synthesized by isobutylene and a small amount of isoprene, and major advantage is that impermeability is good, heat-resisting, ageing-resistant, chemical-resistant resistance, but elasticity is just very general.And latex to be natural material be taken from rubber tree juice, more precious, latex has super-elastic, durable in use, and orthopedic speed is fast, but due to latex be porous balloon structure, air is easy to circulate in such an embodiment, and therefore the impermeability of inner bag 21 is just general.

In the utility model embodiment, at induction type spheroid be provided with device indicating movements between inner bag and epidermis, at induction type spheroid in the process of motion, device indicating movements can gather this exercise data of paratonic movement ball, follow-uply carries out data analysis to motion process to facilitate.

It should be noted that, preferably embodiment of the present utility model is given in instructions of the present utility model and accompanying drawing thereof, but, the utility model can be realized by many different forms, be not limited to the embodiment described by this instructions, these embodiments not as the extra restriction to the utility model content, provide the object of these embodiments be make the understanding of disclosure of the present utility model more comprehensively thorough.Further, above-mentioned each technical characteristic continues combination mutually, is formed not at above-named various embodiment, is all considered as the scope that the utility model instructions is recorded; Further, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to the utility model claims.

Claims (10)

1. a device indicating movements, is characterized in that, comprises induction module and processor;

Described induction module comprises electronic tag and acceleration induction unit;

Described electronic tag is all connected with described processor with acceleration induction unit.

2. device indicating movements according to claim 1, is characterized in that,

Described electronic tag comprises antenna element, radio frequency unit, control module and storage unit;

Described antenna element is connected with radio frequency unit, and described radio frequency unit is connected with control module, and described control module is connected with storage unit.

3. device indicating movements according to claim 1, is characterized in that,

Described device indicating movements also comprises protective housing, and described protective housing is provided with receiving space;

Described induction module and processor are all contained in described receiving space.

4. device indicating movements according to claim 3, is characterized in that,

The shape of described protective housing is arcwall face.

5. device indicating movements according to claim 1, is characterized in that,

Described induction module also comprises steady arm and timer;

Described steady arm and timer are all connected with described processor;

Described device indicating movements also comprises communication module and memory module;

Described communication module and memory module are all connected with described processor.

6. device indicating movements according to claim 1, is characterized in that,

Described device indicating movements also comprises battery and wireless charging module;

Described wireless charging module is connected with described battery, and described battery is connected with described induction module and processor respectively, for powering to described induction module and processor.

7. device indicating movements according to claim 6, is characterized in that,

Described acceleration induction unit comprises triaxial accelerometer sensor, three-axis gyroscope sensor and three axle Gauss meter sensors;

Described triaxial accelerometer sensor, three-axis gyroscope sensor are all connected with described processor with three axle Gauss meter sensors.

8. an induction type spheroid, is characterized in that, comprises the device indicating movements in claim 1 ~ 7 described in any one, inner bag and epidermis;

Described epidermis wraps up described inner bag;

Described device indicating movements is between described inner bag and described epidermis.

9. induction type spheroid according to claim 8, is characterized in that,

Described induction type spheroid also comprises foam and base fabric, described foam and base fabric are all between described inner bag and epidermis, and described foam is bonded in the inside surface of described epidermis, described base fabric is bonded in the surface of described foam away from described epidermis, and described device indicating movements is between described inner bag and base fabric.

10. induction type spheroid according to claim 9, is characterized in that,

Described foam is ethylene-vinyl acetate copolymer, and the thickness of described foam is 2 millimeters;

Described base fabric quantity is polylith, and described polylith base fabric is stacked fixing;

Described inner bag is latex or butyl;

Described epidermis is spliced by heat bonding by polylith splicing block, and wherein, described splicing block is vinyl chloride monomer, polyurethane or Polyurethane Thermoplastic Elastomer rubber.