CN222056312U

CN222056312U - An intelligent jump counter

Info

Publication number: CN222056312U
Application number: CN202420067693.5U
Authority: CN
Inventors: 刘文晖
Original assignee: Shenzhen Chileaf Electronics Co ltd
Current assignee: Shenzhen Chileaf Electronics Co ltd
Priority date: 2024-01-11
Filing date: 2024-01-11
Publication date: 2024-11-26
Anticipated expiration: 2034-01-11

Abstract

The utility model discloses an intelligent jump counter, which comprises: the shoe comprises an outer shell, wherein connecting lugs are arranged on the left side and the right side of the outer shell, and are provided with rope threading holes corresponding to shoelace holes on the shoe body; the outer shell is provided with a containing cavity, and the jump counting sensor assembly is arranged in the containing cavity; the jump counting sensor component is used for collecting and exporting user jump times data. The outer housing has a generally elliptical top view edge projection profile. When the number of the connecting lugs on any one side is two on the left side and the right side of the outer shell, the two connecting lugs are respectively adjacent to the two ends of the length direction of the outer shell. The connecting lugs comprise lug plates and two lug feet; the ear plate is connected with the side wall of the outer shell body through two ear feet, and the rope threading eye is arranged between the two ear feet. A line passing groove is formed between the lug plate and the outer shell. The outer shell comprises an upper cover body, a bottom cover and a battery cover.

Description

Intelligent jump counter

Technical Field

The application relates to the technical field of sports equipment, in particular to an intelligent jump counter.

Background

The sports can exercise the body and promote the body health, and the single rope skipping is the sports which has the advantages of small occupied space, participation of all parts of the body in the sports, low price of rope skipping instruments and multiple aspects, and is more suitable for the selection of masses.

Conventional rope skipping instrument structures include two handles and a rope connecting the two handles, but there is sometimes a risk of tripping injury by the rope during rope skipping by the user. Through improvement, the rope skipping apparatus has a structure that two handles are respectively connected with a rope skipping ball, so that the danger of stumbling and injury by ropes does not occur when a user uses the rope skipping apparatus, but the novel rope skipping apparatus still has disadvantages, such as the fact that the rhythm of the rope skipping ball which is easy to shake by the user is not in coordination with the rhythm of the actual jump-up and down, even if a counter is designed in the handle, the counter cannot be accurately counted, and when an emergency occurs to the user, the user can grasp the handle instinctively, and the damage is not reduced by supporting the ground by hands; and the user moves, the palm sweats, the handle slips easily, and the user throws out together with the rope-skipping ball, so that the risk of hitting other people is increased.

Disclosure of utility model

The utility model mainly aims at the problems and provides an intelligent jump counter which aims at solving the technical problems in the background technology.

To achieve the above object, the present utility model provides an intelligent skip counter comprising:

The shoe comprises an outer shell, wherein connecting lugs are arranged on the left side and the right side of the outer shell, and are provided with rope threading holes corresponding to shoelace holes on the shoe body;

the outer shell is provided with a containing cavity, and the jump counting sensor assembly is arranged in the containing cavity; the jump counting sensor component is used for collecting and exporting user jump times data.

Further, the outer housing top view edge projection profile is generally elliptical.

Further, the number of the connecting lugs on each side of the left side and the right side of the outer shell is at least two.

Further, when the number of the connecting lugs on any one of the same side is two on the left side and the right side of the outer shell, the two connecting lugs are respectively arranged adjacent to the two ends of the length direction of the outer shell.

Further, the connecting lugs comprise an ear plate and two ear feet; the ear plate is connected with the side wall of the outer shell body through two ear feet, and the rope threading eye is arranged between the two ear feet.

Further, a line passing groove is formed between the ear plate and the outer shell.

Further, the outer shell comprises an upper cover body, a bottom cover and a battery cover; the battery cover is detachably and rotatably connected with the bottom cover; the bottom cover is provided with a locking protrusion, and the battery cover is provided with a locking groove corresponding to the locking protrusion; the outer end face of the battery cover is provided with a screwing groove; the battery cover and the bottom cover are provided with a sealing waterproof ring at the matching position.

Further, the jump counting sensor assembly comprises a PCB main control board, a digital display, a battery and a conductive connecting sheet; the PCB main control board is integrated with an acceleration sensor, a touch button and a wireless communication module; the digital display is electrically connected with the PCB main control board; the battery is electrically connected with the PCB main control board through the conductive connecting sheet; the upper end face of the outer shell is provided with a display area corresponding to the digital display.

The utility model also provides an intelligent jump counter, which comprises:

The insole is provided with a mounting groove corresponding to the concave area of the foot arch; the edge of the notch of the mounting groove is provided with a sinking groove;

A sealing cover plate, wherein the sealing cover plate is provided with a bonding edge and is glued with the sink;

The jump counting sensor assembly is arranged in the mounting groove; the jump counting sensor component is used for collecting and exporting user jump times data.

Further, the jump counting sensor assembly comprises a connecting shell, and a PCBA main control board, double-sided adhesive tape, a battery, foam, a magnet, a light guide column and a spring needle which are enclosed in the connecting shell; the PCBA main control board is integrated with a Hall sensor, a light sensor and a wireless communication module; the spring needle and the magnet are arranged corresponding to the Hall sensor; the battery is electrically connected with the PCBA main control board; the light guide column is arranged corresponding to the light sensor; the connecting shell is provided with a through hole corresponding to the light guide column.

Compared with the prior art, the intelligent jump counter provided by the utility model can avoid the defects of a jump rope with a handle and a jump rope ball, and can avoid the danger that the jump rope body is stumbled by the rope; the problems that the rhythm of the rope skipping ball is easy to shake by a user, the rhythm of the rope skipping ball is uncoordinated and synchronous with the rhythm of the actual jump-up and down, and the jump counting is inaccurate can be avoided, and the rope skipping ball is thrown out and is hit by people beside the person. The user does not occupy the free upper limb by the handle, and can coordinate and balance to avoid falling when the lower limb jumps. And when sudden conditions occur and fall, the hand support ground is facilitated to reduce injuries. Meanwhile, the user can be prompted to replace sports shoes with proper shoelaces before jumping sports, so that more scientific sports can be performed.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of an intelligent skip counter according to the present application.

Fig. 2 is a schematic view of another view structure of a first embodiment of an intelligent skip counter according to the present application.

Fig. 3 is a schematic exploded view of a first embodiment of an intelligent skip counter according to the present application.

Fig. 4 is an exploded view of another view structure of a first embodiment of an intelligent skip counter according to the present application.

Fig. 5 is a schematic structural diagram of an insole and a cover sheet according to a second embodiment of the present application.

Fig. 6 is an exploded view of a jump counting sensor assembly according to a second embodiment of the present application.

Reference numerals shown in the drawings: 1. an outer housing; 110. an upper cover; 111. a display area; 120. a bottom cover; 121. locking the protrusion; 130. a battery cover; 131. a locking groove; 132. twisting the groove; 140. sealing the waterproof ring; 2. a connecting lug; 210. threading the rope eye; 220. ear plates; 230. ear feet; 240. a wire passing groove; 310. a PCB main control board; 320. a digital display; 330. a battery; 340. a conductive connecting piece; 350. a touch key; 360. a connection housing; 361. a through hole; 370. PCBA master control board; 380. double faced adhesive tape; 390. soaking cotton; 3100. a magnet; 3110. a light guide column; 3120. a spring needle; 4. an insole; 410. a mounting groove; 420. sinking grooves; 5. and (5) sealing and pasting a cover plate.

Detailed Description

Example 1

Referring to fig. 1-4, the present embodiment provides an intelligent skip counter, which includes:

The shoe comprises an outer shell 1, wherein connecting lugs 2 are arranged on the left side and the right side of the outer shell 1, and the connecting lugs 2 are provided with rope threading holes 210 corresponding to shoelace holes on the shoe body;

The jump counting sensor assembly is arranged in the accommodating cavity, and the outer shell 1 is provided with the accommodating cavity; the jump counting sensor component is used for collecting and exporting user jump times data.

Before a user uses the intelligent jump counter to exercise, the shoelace on the sports shoes can be used for threading the rope threading eyes 210 on the connecting lugs 2 to bind the outer shell 1 on the crossed shoelace or on the tongue, and the outer shell 1 and the jump counting sensor assembly are positioned above the instep of the foot of the user. Along with the jumping movement of a user, the jumping counting sensor assembly is used for collecting and guiding out the jumping times data of the user, so that the defects of a jumping rope with a handle and a jumping rope ball can be avoided, and the danger that the jumping rope body is stumbled by the rope can be avoided; the problems that the rhythm of the rope skipping ball is easy to shake by a user, the rhythm of the rope skipping ball is uncoordinated and synchronous with the rhythm of the actual jump-up and down, and the jump counting is inaccurate can be avoided, and the rope skipping ball is thrown out and is hit by people beside the person.

The user does not occupy the free upper limb by the handle, and can coordinate and balance to avoid falling when the lower limb jumps. And when sudden conditions occur and fall, the hand support ground is facilitated to reduce injuries. Meanwhile, the user can be prompted to replace sports shoes with proper shoelaces before jumping sports, so that more scientific sports can be performed.

Referring to fig. 1 and 2, the outer housing 1 preferably has a substantially elliptical edge projection profile in a top view.

Through designing the shell body 1 as the arc transition shape that is at length direction both ends, can be so that the user is jumping up and when falling down, the foot colludes or the instep is struggled flat relatively the shank and makes a round trip between the switching, and shell body 1 both ends do not cause the interference to user's physical activity, and is more reasonable.

Referring to fig. 1 and 2, the number of the connection lugs 2 on each side is at least two on the left and right sides of the outer housing 1.

Through this kind of engaging lug 2 quantity overall arrangement structure, can be worn around by the shoelace through a plurality of engaging lugs 2, it is more firm stable to bind with the shoes body, prevents that shell body 1 from taking place the activity along with the user jump, and one end is lifted, beats user's shoes like the rapid board, causes the discomfort.

Referring to fig. 1 and 2, when the number of the connecting lugs 2 on either side is two on the left side and the right side of the outer housing 1, the two connecting lugs 2 are respectively disposed adjacent to two ends of the outer housing 1 in the length direction.

Through this kind of engaging lug 2 quantity is two, is adjacent respectively outer casing 1 length direction both ends set up layout structure, and four engaging lugs 2 on the left and right sides are worn around by the shoelace, bind more firm stable with the shoes body, and reduce cost is convenient for make, prevents that outer casing 1 from taking place the activity along with the user jump, and one end is lifted, beats user's shoes like the express board, causes the discomfort.

Referring to fig. 1 and 2, the connecting ear 2 includes an ear plate 220 and two ear legs 230; the ear plate 220 is connected with the side wall of the outer casing 1 through two ear legs 230, and the rope threading eye 210 is arranged between the two ear legs 230.

Referring to fig. 1 and 3, a line passing groove 240 is formed between the ear plate 220 and the outer housing 1.

The string passing groove 240 is another option for the user to bind the outer case 1 with the shoe body using the string, and the user may not pass the string around the string holes 210, but pass the string around the string passing groove 240, pass the last string hole of the shoe body, and bind the string, thereby completing the stable binding. The jump counter is more convenient for a user to disassemble and assemble than the rope threading eye 210. The jump counter can also be integrally arranged in the shoe buckle.

Referring to fig. 3 and 4, the outer case 1 includes an upper cover 110, a bottom cover 120, and a battery cover 130; the battery cover 130 is detachably and rotatably connected with the bottom cover 120; the bottom cover 120 is provided with a locking protrusion 121, and the battery cover 130 is provided with a locking groove 131 corresponding to the locking protrusion 121; the outer end surface of the battery cover 130 is provided with a screwing groove 132; the battery cover 130 and the bottom cover 120 are provided with a sealing waterproof ring 140 at the mating position.

With this structure, the user can easily disassemble and assemble the battery cover 130, and replace the battery 330.

Referring to fig. 3 and 4, the jump counting sensor assembly includes a PCB main control board 310, a digital display 320, a battery 330, and a conductive connecting piece 340; the PCB main control board 310 is integrated with an acceleration sensor (not shown), a touch key 350, and a wireless communication module (not shown); the digital display 320 is electrically connected with the PCB main control board 310; the battery 330 is electrically connected with the PCB main control board 310 through the conductive connecting piece 340; the upper end surface of the outer casing 1 is provided with a display area 111 corresponding to the digital display 320.

The PCB main control board 310 may be provided with a processor, a memory, etc. and can execute a software program, a rope-skipping motion algorithm, and collect the frequency information of the user during the jumping process by using an acceleration sensor, and the motion information, for example, judging double-foot jumping, single-foot jumping, double-foot alternate jumping, etc.; the actions such as walking, running, climbing stairs and the like do not need rope skipping counting; the wireless communication module can be a Bluetooth module, can communicate with a software client on a mobile phone of a user, and derive jump count data uploaded to the user, so that the user can know the speed of rope jump, the number of the rope jump, the consumption of calories, the movement time and the like. The count information displayed by the digital display 320 may also be viewed directly through the display area 111. After the user presses the touch key 350, the data can be reset and recounting can be performed.

The implementation of the above functions is realized by using a circuit connection principle and a software algorithm, and can be realized by adopting the prior art, which is not an innovative emphasis of the present application and is not repeated herein.

In this embodiment, the battery 330 is preferably a button cell battery, and may be a CR2032 battery.

Example two

Referring to fig. 5 and 6, an intelligent skip counter includes:

an insole 4, wherein the insole 4 is provided with a mounting groove 410 corresponding to the concave area of the arch of the foot; the notch edge of the mounting groove 410 is provided with a sinking groove 420;

a seal cover plate 5, wherein the seal cover plate 5 is provided with a seal edge and is glued with the sink 420;

a skip count sensor assembly disposed in the mounting slot 410; the jump counting sensor component is used for collecting and exporting user jump times data.

By locating the mounting slot 410 in correspondence to the arch depression of the foot and locating the skip count sensor assembly in the mounting slot 410, the presence of the skip count sensor assembly can be reduced, causing interference with the user's sole plate, and causing foot impact to the user.

The user can record data when jumping is performed by simply replacing the insole 4 containing the jump counting sensor assembly with an insole in an existing sports shoe. In this respect, the user can also be encouraged to change the sports shoes for further sports, rather than wearing sandals.

Preferably, the sealing cover plate 5 is made of silica gel, and is glued with the sinking groove 420 to be detachably glued, so that when a user cleans the insole 4, the jump counting sensor assembly can be taken out, and water is prevented from entering the jump counting sensor assembly to cause damage. Therefore, the embodiment can lead the user to repeatedly use the insole 4 and the jump counting sensor assembly, thereby saving the cost of purchasing sports equipment for the user.

Referring to fig. 5 and 6, the jump counting sensor assembly includes a connection housing 360, a PCBA main control board 370 enclosed in the connection housing 360, a double faced adhesive tape 380, a battery 330, foam 390, a magnet 3100, a light guide column 3110, and a spring needle 3120; the PCBA main control board 370 is integrated with a hall sensor (not shown), a light sensor (not shown), and a wireless communication module (not shown); the spring needle 3120 and the magnet 3100 are arranged corresponding to the Hall sensor; the battery 330 is electrically connected with the PCBA master control board 370; the light guide column 3110 is arranged corresponding to the light sensor; the connection housing 360 is provided with a through hole 361 corresponding to the light guide column 3110.

PCBA main control board 370 can be provided with a processor, a storage and other elements, can execute software programs and a rope skipping action motion algorithm, and collects the frequency motion information of a user in the jumping process by utilizing the cooperation of a spring needle 3120, a magnet 3100 and a Hall sensor and the cooperation of a light guide column 3110 and a light sensor, for example, judging double-foot jumping, single-foot jumping, double-foot alternate jumping and the like; the actions such as walking, running, climbing stairs and the like do not need rope skipping counting; the wireless communication module can be a Bluetooth module, can communicate with a software client on a mobile phone of a user, and derive jump count data uploaded to the user, so that the user can know the speed of rope jump, the number of the rope jump, the consumption of calories, the movement time and the like.

The double faced adhesive tape 380 is used for gluing the PCBA main control board and the 370 connecting shell 360; foam 390 fills up and connects shell 360 at PCBA main control board and 370 and shock attenuation.

Claims

1. An intelligent skip counter, comprising:

2. The intelligent skip counter of claim 1, wherein the outer housing top view edge projection profile is generally elliptical.

3. The intelligent skip counter of claim 1 wherein the number of lugs on each of the left and right sides of the outer housing is at least two.

4. An intelligent skip counter according to claim 3 wherein when there are two of said lugs on either side of said outer housing, two of said lugs are disposed adjacent respective opposite ends of said outer housing in the longitudinal direction.

5. The intelligent skip counter of claim 1 wherein the connection ear comprises an ear plate, two ear feet; the ear plate is connected with the side wall of the outer shell body through two ear feet, and the rope threading eye is arranged between the two ear feet.

6. The intelligent skip counter of claim 5 wherein a wire passing groove is provided between the ear plate and the outer housing.

7. The intelligent skip counter of claim 1 wherein the outer housing comprises an upper cover, a bottom cover, and a battery cover; the battery cover is detachably and rotatably connected with the bottom cover; the bottom cover is provided with a locking protrusion, and the battery cover is provided with a locking groove corresponding to the locking protrusion; the outer end face of the battery cover is provided with a screwing groove; the battery cover and the bottom cover are provided with a sealing waterproof ring at the matching position.

8. The intelligent skip counter of claim 1 wherein the skip count sensor assembly comprises a PCB main control board, a digital display, a battery, a conductive tab; the PCB main control board is integrated with an acceleration sensor, a touch button and a wireless communication module; the digital display is electrically connected with the PCB main control board; the battery is electrically connected with the PCB main control board through the conductive connecting sheet; the upper end face of the outer shell is provided with a display area corresponding to the digital display.

9. An intelligent skip counter, comprising:

10. The intelligent skip counter of claim 9, wherein the skip count sensor assembly comprises a connection housing, and a PCBA main control board, a double sided adhesive tape, a battery, foam, a magnet, a light guide column, a spring pin enclosed within the connection housing; the PCBA main control board is integrated with a Hall sensor, a light sensor and a wireless communication module; the spring needle and the magnet are arranged corresponding to the Hall sensor; the battery is electrically connected with the PCBA main control board; the light guide column is arranged corresponding to the light sensor; the connecting shell is provided with a through hole corresponding to the light guide column.