CN221375144U - Motion gesture recognition data conversion device - Google Patents

Abstract

The utility model provides a movement gesture recognition data conversion device, which relates to the technical field of movement gesture monitoring and aims to solve the problems that the structure for adjusting shooting direction in the existing movement gesture monitoring equipment is imperfect, when in use, shooting direction cannot be adjusted in real time according to the position of a sporter, and further when the position is exchanged in each movement, the shooting direction of the movement gesture monitoring equipment is required to be manually adjusted, so that the movement gesture monitoring equipment is inconvenient to use, and the movement gesture recognition data conversion device comprises an installation component; the installation component is including base, fixed pin and snap ring. When a sporter moves, the sporter can give a certain tensile force to the connecting ring through the elastic force, and the connecting ring can drive the fixing frame to rotate towards the direction of the tensile force through the rotating plate, so that the monitoring module can adjust shooting orientation in real time, and the monitoring module always faces the position of the sporter, and the sporter does not need to carry out manual adjustment.

Description

Motion gesture recognition data conversion device

Technical Field

The utility model belongs to the technical field of motion gesture monitoring, and particularly relates to a motion gesture recognition data conversion device.

Background

Along with the continuous progress of science and technology, internet technique and artificial intelligence technique are rising fast, the intelligent trend of outdoor body-building action is also becoming obvious day by day, in order to improve the motion quality, people can all carry out real-time supervision with the help of motion monitoring facilities when the motion, in order to carry out data conversion with the motion gesture, thereby help the user to judge whether exercise standard, based on prior art discovery, adjust the structure of shooting orientation in the current motion gesture monitoring facilities, during the use, can not adjust the shooting orientation in real time according to the position of sporter in real time, and then when changing the position in every motion, all need manual regulation to the shooting direction of motion gesture monitoring facilities, this just makes motion gesture monitoring facilities use inconvenient, and lack the structure of quick speed adjustment beat angle in the current motion gesture monitoring facilities, every time before using motion gesture monitoring facilities, all need take time to adjust its angle of shooting, the time of adjusting can occupy the motion.

Disclosure of utility model

In order to solve the technical problems described above, the disclosed embodiments relate to a motion gesture recognition data conversion device, so as to solve the problems that the structure of adjusting shooting direction in the existing motion gesture monitoring device is imperfect, when in use, shooting direction cannot be adjusted in real time according to the position of a sporter, and when the position is exchanged in each motion, the shooting direction of the motion gesture monitoring device needs to be manually adjusted, so that the motion gesture monitoring device is inconvenient to use, and the existing motion gesture monitoring device lacks a structure of quickly adjusting beat shooting angle, and each time before the motion gesture monitoring device is used, time is required to be spent for adjusting the shooting angle of the motion gesture monitoring device, and the adjusting process occupies the time of motion.

In a first aspect of the present disclosure, a motion gesture recognition data conversion device is provided, which is achieved by the following specific technical means:

a motion gesture recognition data conversion apparatus comprising:

A mounting assembly; the mounting assembly comprises a base, a fixing pin and a clamping ring, and the upper end of the base is of a truncated cone-shaped structure; the fixing pins are inserted into four corners of the base, and penetrate through the base; the clamping ring is arranged outside the truncated cone-shaped structure at the upper end of the base; the mounting assembly is provided with a rotating assembly, a rotating plate of the rotating assembly is arranged above the base, the rotating plate is in running fit with a round table-shaped structure above the base, a positioning groove at the inner side of the rotating plate is clamped with a telescopic block in the base, and a rotating groove in the rotating plate is in running fit with the clamping ring; the rotating assembly is provided with a connecting assembly, the connecting assembly comprises a connecting ring and a clamping block, the connecting ring is sleeved on the outer side of the rotating plate, and a hanging ring is arranged outside the connecting ring; the clamping blocks are equidistantly arranged on the inner side of the connecting ring and are clamped with clamping grooves on the outer part of the rotating plate; the rotary assembly is provided with an external assembly, and a fixing frame of the external assembly is fixedly arranged at the upper end of the rotary plate.

According to a preferred embodiment of the utility model, the mounting assembly comprises: an inner tank and a telescopic block; the inner groove is formed in a truncated cone-shaped structure at the upper end of the base; the telescopic block is slidably mounted in the inner groove through an elastic piece, and the tail end of the telescopic block extends out of the base.

According to a preferred embodiment of the present utility model, the rotating assembly comprises: a rotating plate and a clamping groove; the bottom side of the inner part of the rotating plate is provided with a circular groove; the clamping grooves are formed in the outer ends of the bottom sides of the rotating plates at equal intervals.

According to a preferred embodiment of the present utility model, the rotating assembly comprises: a positioning groove and a rotating groove; the positioning grooves are formed in the bottom end of the circular groove on the inner side of the rotating plate at equal intervals; the rotary groove is formed in the upper end of the circular groove on the inner side of the rotary plate.

According to a preferred embodiment of the utility model, the connection assembly further comprises: a fixing ring and an elastic band; the fixing ring is arranged outside the connecting ring; the front side of the elastic band is fixed with the fixing ring, and the rear side of the elastic band is fixed with the hanging ring outside the connecting ring.

According to a preferred embodiment of the utility model, the external assembly comprises: a fixing frame and a lifting block; rectangular grooves are formed in the middle positions of the two sides of the fixing frame; the lifting blocks are slidably arranged in rectangular grooves on two sides of the fixing frame through elastic pieces, and the lifting blocks are arranged on two sides of the outer portion of the fixing frame.

According to a preferred embodiment of the utility model, the external assembly comprises: the shell, the side plate and the monitoring module are turned over; the overturning shell is arranged on the inner side of the fixing frame, and a rectangular groove is formed in the overturning shell; the side plates are fixedly arranged on two sides of the turnover shell, and the penetrating side plates are rotationally connected with the fixing frame; the monitoring module is inserted into the rectangular groove in the turnover shell.

According to a preferred embodiment of the utility model, the external assembly comprises: positioning cover, bolt and fixing groove; the positioning cover is sleeved outside the side plate; the bolt is arranged at the bottom of the positioning cover in a threaded manner, and the lower end of the bolt is connected with the side plate; the fixed slot is arranged at the bottom side of the positioning cover, and is clamped with the top of the lifting block.

Compared with the prior art, the utility model has the following beneficial effects:

1. in this device, rotating assembly and coupling assembling have been set up, rotate the rotor plate and install on the base, and cup joint a set of fixed mounting's go-between on the rotor plate, pass through the elastic band installation solid fixed ring on the go-between, make solid fixed ring cover on the sporter, will have the mount fixed mounting of monitoring module to the rotor plate, the sporter can give the go-between certain pulling force through elasticity, and make the go-between can drive the mount through the rotor plate and rotate towards the direction of pulling force, just so can make monitoring module adjust in real time and shoot towards, and make it all the time towards the position that the sporter is located, need not the sporter and carry out manual regulation.

In this device, external subassembly has been set up, the upset shell that has monitoring module has been set up in the mount, make the upset shell rotate with the mount through the curb plate and be connected, at curb plate externally mounted locating cover, and set up the lifter that can reciprocate in the both sides of mount, during the use, through rotating the upset shell, adjust monitoring module to the best angle of shooing, rotate the locating cover, make the fixed slot remove to the minimum side, and with lifter block, through setting up like this, can be when adjusting monitoring module angle next time, between with the locating cover rotatory to fixed slot with lifter block can, need not to spend time to adjust.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic diagram of a split structure of the present utility model.

Fig. 3 is a schematic view of the connection structure of the rotating assembly and the connecting assembly of the present utility model.

Fig. 4 is a schematic view of the attachment structure of the mounting assembly and the rotating assembly of the present utility model.

Fig. 5 is an exploded view of the external assembly of the present utility model.

Fig. 6 is a schematic side cross-sectional view of an external assembly of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a mounting assembly;

101. A base; 1011. a fixing pin; 1012. a clasp;

102. an inner tank; 1021. a telescopic block;

2. a rotating assembly;

201. a rotating plate; 2011. a clamping groove;

202. a positioning groove; 203. a rotary groove;

3. A connection assembly;

301. a connecting ring; 3011. a clamping block;

302. a fixing ring; 303. an elastic band;

4. an external component;

401. a fixing frame; 4011. a lifting block;

402. Turning over the shell; 4021. a side plate; 4022. a monitoring module;

403. a positioning cover; 4031. a bolt; 4032. a fixing groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present invention fall within the protection scope of the present invention.

Embodiment one: as shown in fig. 1 to 6:

The utility model provides a motion gesture recognition data conversion device, comprising: a mounting assembly 1; the mounting assembly 1 comprises a base 101, a fixing pin 1011 and a clamping ring 1012, wherein the upper end of the base 101 is in a truncated cone-shaped structure; the fixing pins 1011 are inserted into four corners of the base 101, and the fixing pins 1011 penetrate through the base 101; the clamping ring 1012 is arranged outside the truncated cone-shaped structure at the upper end of the base 101; the installation component 1 is provided with a rotation component 2, a rotation plate 201 of the rotation component 2 is arranged above the base 101, the rotation plate 201 is in running fit with a truncated cone-shaped structure above the base 101, a positioning groove 202 on the inner side of the rotation plate 201 is clamped with a telescopic block 1021 in the base 101, and a rotation groove 203 in the rotation plate 201 is in running fit with a clamping ring 1012; the rotating assembly 2 is provided with a connecting assembly 3, the connecting assembly 3 comprises a connecting ring 301 and a clamping block 3011, the connecting ring 301 is sleeved on the outer side of the rotating plate 201, and a hanging ring is arranged outside the connecting ring 301; the clamping blocks 3011 are equidistantly arranged on the inner side of the connecting ring 301, and the clamping blocks 3011 are clamped with clamping grooves 2011 on the outer side of the rotating plate 201; the rotating component 2 is provided with an external component 4, and a fixing frame 401 of the external component 4 is fixedly arranged at the upper end of the rotating plate 201.

In the embodiment of the present disclosure, as shown in fig. 4, the mounting assembly 1 includes: an inner tank 102 and a telescopic block 1021; the inner groove 102 is arranged in a truncated cone-shaped structure at the upper end of the base 101; the telescopic block 1021 is slidably installed in the inner groove 102 through an elastic piece, and the tail end of the telescopic block 1021 extends out of the base 101; a rectangular inner groove 102 is provided, and a telescopic block 1021 is slidably mounted inside the base 101 through the inner groove 102; the extension and retraction block 1021 is provided, and the distal end of the extension and retraction block 1021 is placed in the positioning groove 202, whereby the rotation of the rotating plate 201 on the base 101 can be prevented.

As a second embodiment of the present application, on the basis of the first embodiment, as shown in fig. 3 to 4, the rotating assembly 2 includes: rotating plate 201 and clamping groove 2011; a circular groove is formed in the bottom side of the interior of the rotating plate 201; clamping grooves 2011 are formed in the outer end of the bottom side of the rotating plate 201 at equal intervals; a positioning groove 202 and a rotating groove 203; the positioning grooves 202 are equidistantly formed at the bottom end of the circular groove on the inner side of the rotating plate 201; the rotation groove 203 is formed at the upper end of the inner circular groove of the rotation plate 201.

A circular rotating plate 201 is arranged, and a fixing frame 401 can be rotatably installed on the base 101 through the rotating plate 201; a triangular clamping groove 2011 is arranged, and the connecting ring 301 and the rotating plate 201 can be fixed by clamping the clamping groove 2011 with the clamping block 3011; an arc-shaped positioning groove 202 is arranged, and the positioning groove 202 is engaged with the tail end of the telescopic block 1021, so that the rotating plate 201 can be prevented from rotating on the base 101 at will; an annular rotation groove 203 is provided, and rotation plate 201 can be rotated on base 101 by engaging rotation groove 203 with snap ring 1012.

As a third embodiment of the present application, on the basis of the first embodiment, as shown in fig. 2 to 3, the connection assembly 3 further includes: a securing ring 302 and an elastic band 303; the fixing ring 302 is located outside the connecting ring 301; the front side of the elastic band 303 is fixed with the fixing ring 302, and the rear side of the elastic band 303 is fixed with the hanging ring outside the connecting ring 301.

The fixing ring 302 is arranged, the fixing ring 302 is sleeved on a user, and when the user performs exercise, the elastic band 303 can be tensioned by the fixing ring 302; the elastic band 303 is provided, so that the connecting ring 301 can be angularly adjusted along with the direction of the pulling force when the elastic band 303 is pulled.

As a fourth embodiment of the present application, on the basis of the first embodiment, as shown in fig. 5 to 6, the external module 4 includes: a fixing frame 401 and a lifting block 4011; rectangular grooves are formed in the middle of the two sides of the fixing frame 401; the lifting blocks 4011 are slidably arranged in rectangular grooves on two sides of the fixing frame 401 through elastic pieces, and the lifting blocks 4011 are positioned on two outer sides of the fixing frame 401; flip housing 402, side plate 4021, and monitoring module 4022; the turnover shell 402 is arranged on the inner side of the fixing frame 401, and a rectangular groove is formed in the turnover shell 402; the side plates 4021 are fixedly arranged on two sides of the turnover shell 402, and the penetrating side plates 4021 are rotatably connected with the fixing frame 401; the monitoring module 4022 is inserted into a rectangular groove in the turnover shell 402; a positioning cover 403, a bolt 4031 and a fixing groove 4032; the positioning cover 403 is sleeved outside the side plate 4021; the bolt 4031 is arranged at the bottom of the positioning cover 403 in a threaded manner, and the lower end of the bolt 4031 is connected with the side plate 4021; the fixing groove 4032 is formed on the bottom side of the positioning cover 403, and the fixing groove 4032 is engaged with the top of the lifting block 4011.

A U-shaped fixing frame 401 is arranged, and a turnover shell 402 can be movably arranged in the fixing frame 401; the L-shaped lifting block 4011 is arranged, and the top of the lifting block 4011 is clamped into the fixed groove 4032, so that the positioning cover 403 and the turnover shell 402 can be limited on the fixed frame 401; a rectangular flip housing 402 is provided, and a monitoring module 4022 can be installed in the flip housing 402; a circular side plate 4021 is provided, and the flip case 402 can be rotatably mounted on the fixing frame 401 through the side plate 4021; the monitoring module 4022 is configured to record a motion gesture of a user, and record and convert related data; a circular positioning cover 403 is arranged, so that the turnover shell 402 can be fixed on the fixing frame 401 when the positioning cover 403 is fixed; a bolt 4031 is provided, and by tightening the bolt 4031, the positioning cover 403 and the side plate 4021 can be fixed; the fixing groove 4032 is provided, and the fixing groove 4032 is engaged with the lifting block 4011, so that the positioning cover 403 and the lifting block 4011 can be fixed.

Specific use and action of the embodiment:

In the utility model, as shown in fig. 1-6, a connecting ring 301 is sleeved on the outer end of a rotating plate 201, then the rotating plate 201 is rotatably mounted on a base 101, a sporter sleeves a fixing ring 302 on the body, then the fixing ring 302 is connected with the connecting ring 301 through an elastic band 303, a fixing frame 401 is fixed on the rotating plate 201 through screws, a turnover shell 402 is rotatably mounted in the fixing frame 401, a monitoring module 4022 is inserted into the turnover shell 402, the turnover shell 402 is rotated to adjust the shooting angle of the monitoring module 4022, after the adjustment, a bolt 4031 is screwed, a positioning cover 403 is fixed with a side plate 4021, a fixing groove 4032 on the positioning cover 403 is clamped with a lifting block 4011, finally the base 101 is inserted on the ground through a fixing pin 1011, the sporter can move within the tensile force bearing range of the elastic band 303, the rotating plate 201 can adjust the shooting direction of the monitoring module 4022 in real time, and the monitoring module 4022 can carry out data and display the movement posture for the sporter to refer to the sporter.

In this context, the following points need to be noted:

1. The drawings of the embodiments of the present disclosure relate only to the structures related to the embodiments of the present disclosure, and reference may be made to the general design for other structures.

The embodiments of the present disclosure and features of the embodiments may be combined with each other to arrive at new embodiments without conflict.

The foregoing is merely a specific embodiment of the disclosure, but the protection scope of the disclosure is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the disclosure, and it should be covered in the protection scope of the disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims (8)

1. A motion gesture recognition data conversion apparatus comprising: a mounting assembly (1); the mounting assembly (1) comprises a base (101), a fixing pin (1011) and a clamping ring (1012), wherein the upper end of the base (101) is of a truncated cone-shaped structure; the fixing pins (1011) are inserted into four corners of the base (101), and the fixing pins (1011) penetrate through the base (101); the clamping ring (1012) is arranged outside the truncated cone-shaped structure at the upper end of the base (101); the rotary type rotary device is characterized in that a rotary assembly (2) is arranged on the mounting assembly (1), a rotary plate (201) of the rotary assembly (2) is arranged above the base (101), the rotary plate (201) is in rotary fit with a truncated cone-shaped structure above the base (101), a positioning groove (202) on the inner side of the rotary plate (201) is clamped with a telescopic block (1021) in the base (101), and a rotary groove (203) in the rotary plate (201) is in rotary fit with a clamping ring (1012); the rotating assembly (2) is provided with a connecting assembly (3), the connecting assembly (3) comprises a connecting ring (301) and a clamping block (3011), the connecting ring (301) is sleeved on the outer side of the rotating plate (201), and a hanging ring is arranged outside the connecting ring (301); the clamping blocks (3011) are equidistantly arranged on the inner side of the connecting ring (301), and the clamping blocks (3011) are clamped with clamping grooves (2011) on the outer part of the rotating plate (201); an external assembly (4) is arranged on the rotating assembly (2), and a fixing frame (401) of the external assembly (4) is fixedly arranged at the upper end of the rotating plate (201).

2. A motion gesture recognition data conversion device according to claim 1, characterized in that the mounting assembly (1) comprises: an inner groove (102) and a telescopic block (1021); the inner groove (102) is formed in a truncated cone-shaped structure at the upper end of the base (101); the telescopic block (1021) is slidably mounted in the inner groove (102) through an elastic piece, and the tail end of the telescopic block (1021) extends out of the base (101).

3. A motion gesture recognition data conversion device according to claim 1, characterized in that the rotating assembly (2) comprises: a rotating plate (201) and a clamping groove (2011); a circular groove is formed in the bottom side of the inside of the rotating plate (201); the clamping grooves (2011) are formed in the outer end of the bottom side of the rotating plate (201) at equal intervals.

4. A motion gesture recognition data conversion device according to claim 3, characterized in that the rotating assembly (2) comprises: a positioning groove (202) and a rotating groove (203); the positioning grooves (202) are formed in the bottom end of the circular groove on the inner side of the rotating plate (201) at equal intervals; the rotary groove (203) is formed at the upper end of the circular groove at the inner side of the rotary plate (201).

5. A motion gesture recognition data conversion device according to claim 1, characterized in that the connection assembly (3) further comprises: a securing ring (302) and an elastic band (303); the fixing ring (302) is positioned outside the connecting ring (301); the front side of the elastic band (303) is fixed with the fixed ring (302), and the rear side of the elastic band (303) is fixed with the hanging ring outside the connecting ring (301).

6. A motion gesture recognition data conversion device according to claim 1, characterized in that the external component (4) comprises: a fixing frame (401) and a lifting block (4011); rectangular grooves are formed in the middle positions of the two sides of the fixing frame (401); the lifting blocks (4011) are slidably mounted in rectangular grooves on two sides of the fixing frame (401) through elastic pieces, and the lifting blocks (4011) are located on two sides of the outer portion of the fixing frame (401).

7. The motion gesture recognition data conversion device according to claim 6, wherein the external component (4) comprises: a flip shell (402), a side plate (4021) and a monitoring module (4022); the turnover shell (402) is arranged on the inner side of the fixing frame (401), and a rectangular groove is formed in the turnover shell (402); the side plates (4021) are fixedly arranged on two sides of the turnover shell (402), and the penetrating side plates (4021) are rotationally connected with the fixing frame (401); the monitoring module (4022) is inserted into a rectangular groove in the turnover shell (402).

8. The motion gesture recognition data conversion device according to claim 7, wherein the external component (4) comprises: a positioning cover (403), a bolt (4031) and a fixing groove (4032); the positioning cover (403) is sleeved outside the side plate (4021); the bolt (4031) is arranged at the bottom of the positioning cover (403) in a threaded manner, and the lower end of the bolt (4031) is connected with the side plate (4021); the fixing groove (4032) is formed in the bottom side of the positioning cover (403), and the fixing groove (4032) is clamped with the top of the lifting block (4011).