CN115999121A - Comprehensive sports training device - Google Patents

Abstract

The invention provides a comprehensive sports training device, and relates to the field of sports training. The comprehensive physical exercise training device comprises an outer frame, a bottom base plate is fixed on the inner bottom side of the outer frame, a lying plate supporting plate and a lying plate back plate are arranged on the upper side of the bottom base plate, a riding exercise mechanism is arranged on the upper portion of the inner side wall of the outer frame, a transmission control mechanism is arranged on the top end of the outer frame, a labor-saving control mechanism is arranged on one side of the bottom end of the transmission control mechanism, and a hand rotation exercise mechanism is arranged on the bottom side of the middle of the transmission control mechanism. Through setting up drive control mechanism and laborsaving control mechanism, can be when the sportsman rides the training on the service creeper, let the hand rotate training mechanism synchronous operation when riding the training, improve training effect when the cooperation synchronous motion improves limbs harmony, help the novice save physical power when still conveniently training the motion simultaneously.

Description

Comprehensive sports training device

Technical Field

The invention relates to the technical field of sports training, in particular to a comprehensive sports training device.

Background

Due to the increase of fast-paced life and life pressure, the population in sub-health state is increased gradually, especially the office workers in offices for a long time lack of enough exercise amount, and a series of common occupational diseases such as soreness of waist and back pain, strain of waist and back muscles, lumbago and back pain, limb weakness and the like often occur, so that the physical quality of people is influenced; it is therefore particularly important to properly perform physical training, wherein physical exercise by means of a physical training device has become one of the main physical training approaches.

Most of the prior comprehensive physical exercise training devices are combined by a plurality of physical exercise training equipment, only single training can be carried out when athletes carry out physical training, often the core coordination ability of the body can not be combined for training, the core training can not be carried out by matching hands and feet synchronously, only single body muscle or body strength can be improved after long-term use, and the general promotion is not great for the body coordination.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a comprehensive physical training device, which solves the problems that the prior comprehensive physical training device can only perform single training and can not perform core exercise to improve physical coordination in cooperation with hands and feet.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a comprehensive sports trainer, includes the outer frame of device, the outer frame rear side of device is fixed with the control host computer, control host computer upper surface middle part is provided with control panel, the outer bottom middle part of frame is fixed with the bottom backing plate of device, bottom backing plate upper surface is provided with service creeper backup pad and service creeper backplate, just service creeper backup pad one side front and back end all is fixed with backplate spacing sleeve, service creeper backplate bottom front and back side is fixed with spacing axle piece, just spacing axle piece outside all rotates in backplate spacing sleeve inboard, outer frame inside wall upper portion of device is provided with and rides exercise the mechanism, outer frame top is provided with drive control mechanism, just drive control mechanism middle part downside is provided with hand rotation exercise mechanism, hand rotation exercise mechanism sets up at service creeper backplate upside, just it is connected with hand rotation exercise mechanism through drive control mechanism and laborsaving control mechanism to ride exercise mechanism.

Preferably, the exercise mechanism rides including riding the piece shell, riding the connecting axle, riding the footboard, pedal bearing, rotor wheel, driving belt, the piece opening of riding, the piece slider of riding, the piece spout of riding, the piece screw rod of riding and servo motor one, the piece spout of riding is seted up one side lateral wall in the outer frame of device, the inboard sliding of piece spout of riding has the piece slider of riding, it has the piece screw rod of riding to run through from top to bottom inside the piece slider of riding, it all runs through the rotation and is in the upper and lower sides of piece spout of riding, just it is fixed at servo motor one end drive end to ride the piece screw rod top, servo motor one side lateral wall top in the outer frame of device is fixed with the piece shell of riding, just the piece shell laminating of riding slides at the outer frame inside wall surface of device, the piece shell upper surface of riding has been seted up and has been ridden the piece opening, the inboard side of riding rotates and has the rotor wheel, the rotor wheel outside meshing is connected with driving belt, run through around the rotor wheel middle part is fixed with and is ridden the connecting axle, just run through the connecting axle, the both ends are all connected with the footboard, the outer lane is fixed connection in the outer lane is the pedal, the pedal is fixed outside.

Preferably, the hand rotates and tempers the mechanism and includes limit sleeve piece, rotates and tempers the piece, rotates connecting axle, ball bearing, laborsaving runner and connecting belt, it has to rotate to temper the piece to slide from top to bottom in the limit sleeve piece inboard, it is equipped with the opening of the inside cavity of intercommunication to rotate to temper the piece upper surface, it has to rotate the connecting axle to run through around the rotation of piece lower extreme, it sets up to double Z font integrated configuration to rotate the connecting axle, it is fixed with laborsaving runner to rotate the connecting axle middle part outside, just laborsaving runner rear end outside is fixed in the ball bearing inner race inboard, ball bearing outer lane rear side is fixed and is being tempered the piece inner cavity back wall, laborsaving runner front end outside meshing has connecting belt.

Preferably, the transmission control mechanism and the labor-saving control mechanism are connected with each other, the transmission control mechanism comprises a transmission shell, a transfer roller, a positioning roller, torsion bar springs, a tensioning turntable and a tensioning runner, the top end of the transmission shell is fixedly penetrated at the top end of an outer frame of the device, the limiting sleeve block is fixedly penetrated at one side of the lower surface of the transmission shell far away from the riding exercise mechanism, the two ends of the inner side of the transmission shell are respectively rotated with the transfer roller, the lower part of the inner side of the transmission shell is far away from one end of the riding exercise mechanism and is provided with the positioning roller which is horizontally and parallelly arranged, the middle part of the inner rear side of the transmission shell is fixedly provided with a plurality of torsion bar springs which are uniformly distributed, the front ends of the torsion bar springs are fixedly penetrated with the tensioning turntable, the front sides of the tensioning turntable are respectively provided with the tensioning runner, the transfer roller, the positioning roller and the tensioning runner are fixedly meshed with a driving belt, the inner sides of the transfer roller and the tensioning turntable are respectively rotated with a rotary shaft, the rotary shaft is respectively fixed at the rear side of the transmission shell and the front side of the tensioning turntable, the labor-saving control mechanism comprises a lifting connecting shaft, a telescopic rod, a lifting spring, a lifting roller, a lifting groove and a lifting groove, a lifting groove and a plurality of the torsion bar, a tensioning springs are respectively arranged at the inner sides of the front sides of the transmission pulley, the lifting groove and the lifting groove, the lifting groove is fixedly contacted with the rotary shaft, the upper side of the lifting groove, the lifting groove and the lifting groove, the lifting groove and the lifting groove. And the two ends of the extrusion spring are respectively fixed on the inner top side of the transmission shell and the upper surface of the lifting rotating shaft, the front end of the lifting rotating shaft is fixed at one end of the U-shaped lifting connecting shaft, and the other end of the lifting connecting shaft is fixed at the upper part of the inner rear side of the cavity of the rotating exercise block.

Preferably, back plate angle adjustment mechanism is all provided with around the service creeper backplate, back plate angle adjustment mechanism includes servo motor two, adjusts the removal screw rod, removes the slider, removes the spout, connects L axle, regulation pivot, adjustment slider and regulation spout, the regulation spout is offered in service creeper backplate front and back side, the inboard all slip of regulation spout has the regulation slider, the regulation slider outside all is fixed with the regulation pivot, the regulation pivot outside rotates respectively in two connection L axle one end interiors, just connect L axle one end and rotate the laminating and be in the regulation slider surface, the connection L axle other end all is fixed with the removal slider, bottom backing plate front and back side upper surface all blocks and is equipped with the removal spout, just it slides in the removal spout inboard all to remove the slider laminating, it runs through the removal spout both sides all to rotate and has the regulation to have the removal screw rod, just it rotates in removal slider inside to adjust the screw rod middle part all to adjust, it all to fix in servo motor drive end, just servo motor two all fix in bottom backing plate lateral wall, bottom backing plate and the backup pad passes through service creeper movement mechanism support connection, service creeper movement mechanism, control board, control block, control sleeve, the installation of control sleeve, the setting up in the inside the side, the control sleeve, the surface mounting is fixed surface, the control sleeve is installed down in the control sleeve, the inside the control sleeve, the control sleeve is fixed in the inside the control sleeve, and is installed to the control sleeve, and is fixed in the surface of the control sleeve, and the installation sleeve inboard all slides and has two installation axle blocks, just through installation spring interconnect between the installation axle block, installation spring all sets up inboard at the installation sleeve, a plurality of installation shaft holes of evenly distributed have all been seted up to the inboard front and back side of control spout, just the installation axle block outside all runs through the control slider block and slides inboard at the installation shaft hole, support control block one side runs through and rotates there is the control pivot, control pivot is located support control block outside one end and is fixed with the pivot and twists the handle, the control pivot other end runs through support control block cavity, support control block cavity inboard is provided with two installation connecting blocks, installation axle block lower surface middle part all is fixed with the installation slider, the installation slider all activity sets up inboard at support control block cavity, just the installation connecting block is connected with control pivot and installation slider through connecting nylon rope.

Preferably, the interior of the lying plate support plate is provided with a first sweat-discharging cavity, the upper surface of the lying plate support plate is provided with a plurality of first sweat-absorbing holes which are uniformly distributed, the first sweat-absorbing holes are communicated with the first sweat-discharging cavity, a T-shaped sliding groove which is communicated with the front side is formed on one side of the lower surface of the lying plate support plate, which is close to the back plate limiting sleeve, a T-shaped sliding block is arranged on the inner side of the T-shaped sliding groove in a sliding manner, the T-shaped sliding block is fixed on the upper surface of the sweat-collecting box, the upper surface of the T-shaped sliding block is provided with a first sweat-collecting opening, the first sweat-collecting opening is communicated with the interior of the sweat-collecting box and the lower surface of one side of the sweat-discharging cavity, the interior of the lying plate back plate is provided with a plurality of second sweat-absorbing holes which are uniformly distributed, the second sweat-absorbing holes are communicated with the second sweat-discharging cavity, the bottom of one side of the lying plate back plate, which is far away from the second sweat-absorbing holes is fixedly provided with a mounting block, the side wall of the installation block is provided with a J-shaped sliding groove penetrating through the front side of the installation block, the inner side of the J-shaped sliding groove is provided with a J-shaped sliding block in a sliding manner, the J-shaped sliding block is fixed on the two side walls of the L-shaped sweat collecting box, the bottom end of the two side walls of the sweat collecting box is provided with a sweat collecting opening II, the sweat collecting opening II is communicated with the two inner cavities of the sweat collecting box and the two bottom side walls of the sweat discharging cavity, the two ends of the rotating connecting shaft are provided with sweat guiding mechanisms, each sweat guiding mechanism comprises a limiting rotating sleeve, a sweat guiding groove, a sweat guiding strip, a sweat guiding sleeve, an installation groove, a positioning block and a positioning strip, the limiting rotating sleeve is fixed at the two ends of the rotating connecting shaft, the sweat guiding groove is arranged at the top end of the limiting rotating sleeve, the outer side of one end of the limiting rotating sleeve far away from the rotating connecting shaft is provided with a sweat guiding sleeve in a sliding manner, the middle part of the inner side of the water guiding sleeve is fixed with the positioning block, the positioning block is in sliding clamping with the inside of the limiting rotating sleeve, a positioning strip is fixed at the inner top end of the water-absorbing cotton sleeve, the positioning strip slides on the inner side of the sweat guiding groove, a mounting groove is formed in the inner bottom end of the water-absorbing cotton sleeve, and the sweat guiding strip slides on the inner side of the mounting groove.

Preferably, the back plate massage mechanism comprises a plurality of second electric push rods and a second massage plate, the second electric push rods are respectively fixed on one side of the back plate far away from the sweat absorbing holes, the second electric push rods are respectively fixed on the same second massage plate, the second massage plate is arranged inside the sweat releasing cavity, the first electric push rods are respectively provided with a plurality of massage balls on one side of the second massage plate far away from the first electric push rods and one side of the second massage plate far away from the second electric push rods, the second massage plates are respectively provided with a plurality of massage balls on one side of the second electric push rods, the outer sides of the massage balls are respectively limited on the inner sides of the ball clamping blocks, the ball clamping blocks are respectively limited on the outer sides of the first massage plates and the second massage plates, and the clamping blocks and the second sweat absorbing holes are respectively slid on the outer sides of the first electric push rods and the second massage plates.

Preferably, the device outer frame is close to the inboard bottom of exercise mechanism one side of riding and is provided with ligament tensile assist mechanism, ligament tensile assist mechanism includes electric putter three, lifting slide groove, lifting slide block, tensile auxiliary block, connection telescopic link, servo motor three, auxiliary rotating shaft, drive bevel gear, auxiliary screw, internal thread sleeve, auxiliary pressing plate, anti-skidding line and foot support frame, lifting slide groove sets up in the outer frame inside wall bottom of device, lifting slide groove inboard slip has lifting slide block, electric putter three fixes in the outer frame inside wall bottom of device, just electric putter three upper pushing ends are fixed in lifting slide block bottom, lifting slide block lateral wall is fixed with tensile auxiliary block, tensile auxiliary block front side is fixed with servo motor three, three back-drive end of servo motor is fixed with auxiliary rotating shaft, just auxiliary rotating shaft rotates and runs through tensile auxiliary block front and back side, auxiliary rotating shaft middle part all is fixed with drive bevel gear, the drive bevel gear is fixed in auxiliary screw one end, auxiliary screw middle part outside all rotates and runs through tensile auxiliary block and is close to board backup pad one side wall, electric putter three upper pushing ends are fixed at the side wall of internal thread sleeve, the auxiliary pressing plate is kept away from the screw thread sleeve all, the auxiliary rotating thread sleeve is kept away from the internal thread sleeve all, the auxiliary pressing plate is kept away from the internal thread sleeve is fixed in one side.

Preferably, the device outer frame is kept away from the front and back portion of riding exercise mechanism one end and all is provided with the mechanism that pushes up crouches, the mechanism that pushes up including crouching to push up movable plate, crouch to push up barbell, barbell groove, movable plate spout and movable plate slider, the movable plate spout sets up and is kept away from the front and back portion of riding exercise mechanism one end at the device outer frame and is inboard from top to bottom, the movable plate slider has all been slided to the movable plate spout inboard, the movable plate slider is fixed respectively in crouch to push up movable plate upper and lower both sides, crouch to push up to move around the board middle part and run through there is the barbell groove, the barbell inslot slides respectively in same crouch pushes up barbell both ends outside.

Preferably, the mobile phone clamp structure is arranged on two sides of the upper surface of the control host, the mobile phone clamp structure comprises a support column, two L-shaped clamping blocks, a clamping groove, two clamping telescopic rods and two clamping springs, the two L-shaped clamping blocks are arranged up and down relatively, the clamping grooves are formed in the long plate ends of one side, which are close to each other, of the L-shaped clamping blocks, the two clamping telescopic rods are fixed on the bottom side of the transverse plate end of the L-shaped clamping block, the other end of the clamping telescopic rod is fixed on the top side of the transverse plate end of the lower L-shaped clamping block, the clamping springs are arranged on the outer sides of the clamping telescopic rods in a surrounding mode, two ends of each clamping spring are respectively fixed on one side, which are close to each other, of the two L-shaped clamping block transverse plate ends of the two L-shaped clamping blocks, and the support column is fixed on the upper surface of the control host.

Working principle: the device uses a control panel to drive a control main machine to run, and then the whole electric structure of the control device is controlled, the control rotating shaft is rotated by utilizing a rotating shaft torsion handle before the device is used, a mounting shaft block is driven to slide in a telescopic manner on the front side and the rear side of a control sliding block, the mounting shaft block can be controlled to be clamped on a mounting shaft hole by utilizing elasticity of a mounting spring when the control sliding block slides to a proper position, the mounting shaft block is clamped on the mounting shaft hole to be fixed in position, the second operation of a servo motor is firstly controlled through the control panel when the device is used, the L shaft is further controlled to move left and right, the L shaft is connected with the adjusting sliding block through the rotating shaft, the back plate can be driven to rotate on the back plate through the adjusting rotating shaft, at the moment, the back plate can be driven to rotate by utilizing posture adjustment of the back plate, exercise training staff can conveniently perform training leg pressing by utilizing the ligament, and simultaneously, the posture of the whole reclining chair structure can be changed, when the reclining chair structure included angle is small auxiliary exercise staff performs ligament adjustment, the electric push rod is controlled to operate through the control panel, and then the upper and lower pulling auxiliary mechanism is driven to be lifted to the upper and lower, when the auxiliary mechanism is lifted to the same horizontal plane, the lying plate is further driven to drive the lying plate to move, the lying plate is driven to rotate, and the lying plate is enabled to rotate by utilizing the rotating support plate, and the supporting plate is driven to rotate, and the supporting plate is enabled to rotate by the auxiliary training staff to rotate, and the supporting plate to move and the lying plate to rotate by the supporting plate. The device can carry out the training of the pushing force quantity by moving the pushing mechanism to a proper position and matching with the use of the pushing barbell, meanwhile, the device can drive the riding block shell to move up and down to a designated position by controlling the driving of the servo motor through the control panel when in the posture of the lying plate, is convenient for a sports training person to use the riding training mechanism to carry out core riding training, can match with the pushing barbell to carry out the body fixation at the moment, reduces the shaking of the body during the riding training, improves the training effect, can enable the sports training person to stand to carry out the hand training treatment by arranging the hand rotating training mechanism, simultaneously can also pull down the hand training mechanism that rotates, sportsman when riding the training on the service creeper, let contact roller and connection belt contact meshing, let the hand rotate training mechanism synchronous operation when riding the training, improve training effect when cooperation synchronous motion improves limb cooperativity, can also use control panel control electric putter one and electric putter two operation after the training, carry out the massage processing of health with the ejecting sweat-absorbing hole of massage ball, the device is still through the setting of sweat-discharging cavity and sweat-absorbing mechanism simultaneously, sweat interference in can reducing the training, improve training efficiency.

The invention provides a comprehensive sports training device. The beneficial effects are as follows:

1. according to the invention, the lying plate support plate and the lying plate back plate are combined to form the lying plate structure, and the switching of lower limb training parts such as the riding training mechanism and the ligament stretching auxiliary mechanism and the replacement movement of upper limb training parts such as the lying pushing mechanism and the hand rotating training mechanism are utilized, so that different training modes can be adapted, different muscle clusters can be distinguished and trained conveniently, the muscle training can be carried out through the use of multiple instruments, the separate training treatment of different muscle clusters is realized, the proprioception training of a trainer is further realized, the aim of high-efficiency training is achieved, meanwhile, the training treatment of multiple different sports training can be carried out, the training treatment of trainers with different sports is conveniently used, and the aim of comprehensive training can be well achieved.

2. According to the invention, the back plate angle adjusting mechanism is arranged, the control panel is used for controlling the second servo motor to operate, the connecting L shaft is controlled to move left and right, and the connecting L shaft is connected with the adjusting slide block through the adjusting rotating shaft in a rotating way, so that the lying plate back plate can be driven to be controlled to adjust and rotate on the upper side of the lying plate supporting plate when the connecting L shaft moves left and right, at the moment, the lying plate back plate can be used for adjusting and rotating by the posture, the training of ligament leg pressing by a training person is facilitated, meanwhile, the posture change of the whole deck chair structure is facilitated, meanwhile, the body shape correction of a beginner athlete is facilitated, or the ligament exercise is facilitated to be assisted by the assistance athlete, and the later-stage training and reinforcing use are facilitated.

3. According to the invention, the transmission control mechanism and the labor-saving control mechanism are arranged, so that the hand rotation training mechanism can be pulled down when a user performs riding training, the contact roller is in contact engagement with the connecting belt when the user performs riding training on the lying plate, the hand rotation training mechanism synchronously operates when the user performs riding training, the training effect is improved while the limb coordination is improved by matching with synchronous movement, and the training is convenient and labor-saving.

4. According to the invention, through the arrangement of the sweat discharging cavity and the sweat discharging mechanism, sweat flowing out of a body is introduced into the sweat discharging cavity through the sweat discharging hole and is sent into the sweat collecting box again through the sweat collecting opening to be collected, and hand sweat is sent into the replaceable water absorbing cotton sleeve to be collected through the sweat discharging groove and the sweat discharging strip, so that the adhesion of sweat on the body surface during exercise can be reasonably reduced, the purpose of rapid sweat absorption and sweat discharging is achieved, sweat interference in training is reduced, and training efficiency is improved.

5. According to the invention, the back plate massage mechanism and the support plate massage mechanism are arranged, the first electric push rod and the second electric push rod are used for driving, so that the first electric push rod and the second electric push rod can be controlled to move, further, the massage balls limited between the ball clamping blocks are ejected out of the sweat absorbing holes I and the sweat absorbing holes II, and the rolling of the massage balls is utilized, so that the massage treatment after the training of the training sportsman can be performed, and the relaxation of muscles can be helped to achieve a better exercise training effect.

6. According to the invention, the mobile phone clamp structure is arranged on the upper side of the control host, the adjustable support capable of placing the mobile phone is arranged on the upper side of the control host, the training rhythm of a trainer during the whole use of the device can be improved through playing of external mobile phone music, and the aim of high efficiency training is achieved, so that the erection of external music equipment can be facilitated, the self-training state can be monitored conveniently, as single training can not be noticed on tiny details, for a trainer in high-precision movement or line-concentration movement, the training details generally need to be recorded and corrected in real time, the training efficiency is improved under the condition of guaranteeing physical conditions, and the training posture can be monitored and corrected in real time through the external multiple cameras.

Drawings

FIG. 1 is a schematic front perspective view of the present invention;

FIG. 2 is a schematic front view of a second embodiment of the present invention;

FIG. 3 is a rear side perspective view of the present invention;

FIG. 4 is a front side perspective view of the connection structure of the outer frame of the device of the present invention;

FIG. 5 is a schematic perspective view in cross section of a moving structure of the ligament stretching assistance mechanism of the present invention;

FIG. 6 is a schematic top perspective cutaway view of the internal structure of the ligament stretching assistance mechanism of the present invention;

FIG. 7 is a schematic front perspective cross-sectional view of a movement structure of the riding exercise mechanism of the present invention;

FIG. 8 is a schematic perspective view in front cross-section of the internal structure of the riding exercise mechanism of the present invention;

FIG. 9 is a schematic perspective cross-sectional view of a transmission control mechanism connection structure according to the present invention;

FIG. 10 is a schematic perspective view of a transmission control mechanism according to the present invention;

FIG. 11 is a schematic cross-sectional elevation view of a transmission control mechanism connection structure of the present invention;

FIG. 12 is a schematic front perspective view of a mobile phone clip mechanism of the present invention;

FIG. 13 is a schematic perspective view in front elevation of a back plate angle adjustment mechanism connection mechanism of the present invention;

fig. 14 is a schematic front perspective view of the creeper connecting structure of the present invention;

fig. 15 is a schematic front perspective view of a sliding structure of a creeper moving mechanism of the present invention;

fig. 16 is a schematic perspective view of the principle structure of the lying board moving mechanism of the present invention;

FIG. 17 is a front cross-sectional view of the internal structure of the creeper backboard of the invention;

fig. 18 is a front cross-sectional view showing the internal structure of the lying plate support plate of the present invention;

FIG. 19 is a schematic perspective view of a connecting structure of the sweat guiding mechanism of the present invention;

fig. 20 is a schematic front perspective view of a massage ball fixing structure of the present invention;

fig. 21 is an enlarged view at a in fig. 10;

FIG. 22 is an enlarged view at B in FIG. 10;

fig. 23 is an enlarged view at C in fig. 13.

Wherein, the liquid crystal display device comprises a liquid crystal display device,

1. an outer frame of the device; 101. a bottom pad;

2. a control host; 201. a control panel;

3. a riding exercise mechanism; 301. a riding block housing; 302. a riding connecting shaft; 303. riding a pedal; 304. a pedal bearing; 305. a rotating wheel; 306. a drive belt; 307. a riding block opening; 308. a riding block slide block; 309. a riding block chute; 310. riding a block screw; 311. a servo motor I;

4. a hand rotation exercise mechanism; 401. a limit sleeve block; 402. rotating the exercise block; 403. rotating the connecting shaft; 404. a ball bearing; 405. a labor-saving rotating wheel; 406. a connecting belt;

5. a sweat guiding mechanism; 501. limiting the rotating sleeve; 502. a sweat guiding groove; 503. sweat guiding strips; 504. a water-absorbing cotton sleeve; 505. a mounting groove; 506. a positioning block; 507. a positioning strip;

6. a transmission control mechanism; 601. a transmission housing; 602. a transfer roller; 603. positioning a roller; 604. a torsion bar spring; 605. tensioning a turntable; 606. tensioning the rotating wheel;

7. a labor-saving control mechanism; 701. a lifting connecting shaft; 702. extruding the telescopic rod; 703. extruding a spring; 704. a contact roller; 705. a lifting rotating shaft; 706. a limit lifting block; 707. a limit lifting groove;

8. A drum shaft;

9. a lying plate support plate; 901. a back plate limit sleeve; 902. sweat absorbing holes I; 903. perspiration cavity I; 904. t-shaped sliding grooves; 905. a T-shaped slider; 906. a sweat collecting box I; 907. sweat collecting opening I;

10. a support plate massage mechanism; 1001. an electric push rod I; 1002. a first massage plate;

11. a lying plate moving mechanism; 1101. supporting a control block; 1102. controlling the chute; 1103. a control slider; 1104. a control rotating shaft; 1105. a rotating shaft torsion handle; 1106. connecting nylon ropes; 1107. installing a sliding block; 1108. a mounting sleeve; 1109. installing a spring; 1110. installing a shaft block; 1111. mounting a shaft hole; 1112. installing a connecting block;

12. a lying board backboard; 1201. limiting the shaft block; 1202. sweat absorbing holes II; 1203. a perspiration cavity II; 1204. a mounting block; 1205. j-shaped sliding grooves; 1206. a J-shaped slider; 1207. a sweat collecting box II; 1208. a sweat collecting opening II;

13. a back plate angle adjusting mechanism; 1301. a servo motor II; 1302. adjusting the moving screw; 1303. moving the slide block; 1304. moving the chute; 1305. connecting an L shaft; 1306. adjusting the rotating shaft; 1307. an adjusting slide block; 1308. adjusting the chute;

14. a backboard massage mechanism; 1401. an electric push rod II; 1402. a massage plate II;

15. A ligament stretching auxiliary mechanism; 1501. an electric push rod III; 1502. lifting sliding grooves; 1503. a lifting slide block; 1504. a stretching auxiliary block; 1505. connecting a telescopic rod; 1506. a servo motor III; 1507. an auxiliary rotating shaft; 1508. driving a bevel gear; 1509. a drive bevel gear; 1510. an auxiliary screw; 1511. an internally threaded sleeve; 1512. an auxiliary pressing plate; 1513. anti-skid lines; 1514. a foot support;

16. a horizontal pushing mechanism; 1601. a horizontal pushing moving plate; 1602. pushing the barbell horizontally; 1603. a barbell slot; 1604. a moving plate chute; 1605. a moving plate slider;

17. a mobile phone clip mechanism; 1701. a support column; 1702. an L-shaped clamping block; 1703. a clamping groove; 1704. clamping the telescopic rod; 1705. a clamping spring;

18. massage ball; 1801. and a ball clamping block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples:

as shown in fig. 1 to 23, the embodiment of the invention provides a comprehensive sports training device, which comprises a device outer frame 1, a control host 2 is fixed at the rear side of the device outer frame 1, a control panel 201 is arranged in the middle of the upper surface of the control host 2, a bottom backing plate 101 is fixed at the middle of the inner bottom side of the device outer frame 1, a lying plate supporting plate 9 and a lying plate backboard 12 are arranged on the upper surface of the bottom backing plate 101, backboard limiting sleeves 901 are fixed at the front and rear ends of one side of the lying plate supporting plate 9, limiting shaft blocks 1201 are fixed at the front and rear sides of the bottom end of the lying plate backboard 12, the outer sides of the limiting shaft blocks 1201 are all rotated at the inner sides of the backboard limiting sleeves 901, a riding exercise mechanism 3 is arranged at the upper part of the inner side wall of the device outer frame 1, a transmission control mechanism 6 is arranged at the top end of the device outer frame 1, a hand rotation exercise mechanism 4 is arranged at the bottom side of the middle part of the transmission control mechanism 6, the riding exercise mechanism 3 is connected with the hand rotation exercise mechanism 4 through the transmission control mechanism 6 and the labor-saving control mechanism 7, the lying plate structure is formed by combining the lying plate supporting plate 9 and the lying plate back plate 12, the switching use of lower limb exercise components such as the riding exercise mechanism 3 and the ligament stretching auxiliary mechanism 15 and the replacement movement of upper limb exercise components such as the lying pushing mechanism 16 and the hand rotation exercise mechanism 4 can adapt to different exercise modes, the distinguishing exercise of different muscle clusters is convenient, the muscle exercise can be carried out through the use of various instruments, the separate exercise treatment of different muscle clusters is realized, the proprioception exercise of a trainer is further realized, the aim of high-efficiency exercise is achieved, meanwhile, the training treatment can be carried out through various different physical exercises, the trainer who uses different exercises is convenient to carry out the training treatment, the purpose of comprehensive training can be well achieved.

As shown in fig. 7 to 8, the riding exercise mechanism 3 comprises a riding block housing 301, a riding connecting shaft 302, a riding pedal 303, a pedal bearing 304, a rotating wheel 305, a driving belt 306, a riding block opening 307, a riding block slider 308, a riding block chute 309, a riding block screw 310 and a first servo motor 311, wherein the riding block chute 309 is arranged on the inner side wall of the outer frame 1, the riding block slider 308 slides on the inner side of the riding block chute 309, the riding block screw 310 vertically penetrates through the inner side of the riding block slider 308, both ends of the riding block screw 310 penetrate through and rotate on the upper side and the lower side of the riding block chute 309, the top end of the riding block screw 310 is fixed on the lower driving end of the first servo motor 311, the first servo motor 311 is fixed on the top end of the inner side wall of the outer frame 1, the outer side of the riding block slider 308 is fixed with the riding block housing 301, the riding block housing 301 is jointed and slid on the inner side wall surface of the outer frame 1, the upper surface of the riding block shell 301 is provided with a riding block opening 307, the inner bottom side of the riding block opening 307 is rotated to be provided with a rotating wheel 305, the outer side of the rotating wheel 305 is meshed and connected with a driving belt 306, the middle part of the rotating wheel 305 is fixedly penetrated by the front and back of the riding block shell 301, the riding connecting shaft 302 is rotated to penetrate the front and back sides of the riding block shell 301, the riding connecting shaft 302 is arranged into a double Z-shaped combined structure, the outer sides of two ends of the riding connecting shaft 302 are both fixed on the inner ring of a pedal bearing 304, the outer ring of the pedal bearing 304 is both fixed with a riding pedal 303, a servo motor 311 is controlled to drive through a control panel 201, the riding block shell 301 is driven to move up and down to a designated position, a sports training person can conveniently use the riding training mechanism 3 to carry out core riding training, and the sports training person can stand to carry out hand training treatment by setting a hand rotating training mechanism.

As shown in fig. 9-11, the hand rotating exercise mechanism 4 comprises a limiting sleeve block 401, a rotating exercise block 402, a rotating connecting shaft 403, a ball bearing 404, a labor-saving rotating wheel 405 and a connecting belt 406, wherein the rotating exercise block 402 vertically slides on the inner side of the limiting sleeve block 401, an opening communicated with an internal cavity is formed in the upper surface of the rotating exercise block 402, the rotating connecting shaft 403 penetrates through the lower end of the rotating exercise block 402 and rotates back and forth, the rotating connecting shaft 403 is of a double-Z-shaped combined structure, the labor-saving rotating wheel 405 is fixed on the outer side of the middle of the rotating connecting shaft 403, the outer side of the rear end of the labor-saving rotating wheel 405 is fixed on the inner side of an inner ring of the ball bearing 404, the rear side of an outer ring of the ball bearing 404 is fixed on the rear wall of the cavity in the rotating exercise block 402, and the connecting belt 406 is meshed on the outer side of the front end of the labor-saving rotating wheel 405.

The transmission control mechanism 6 and the labor-saving control mechanism 7 are mutually controlled in a linkage way.

The transmission control mechanism 6 comprises a transmission shell 601, a transfer roller 602, a positioning roller 603, torsion bar springs 604, a tensioning rotary table 605 and a tensioning rotary table 606, wherein the top end of the transmission shell 601 is fixedly penetrated at the top end of an outer frame 1 of the device, a limit sleeve block 401 is fixedly penetrated at the lower surface of the transmission shell 601 and far away from one side of the riding exercise mechanism 3, the transfer roller 602 is respectively rotated at two ends of the inner side of the transmission shell 601, one end of the inner lower part of the transmission shell 601 far away from the riding exercise mechanism 3 is provided with the positioning roller 603 which is horizontally arranged in parallel, the middle part of the rear side of the transmission shell 601 is fixedly provided with a plurality of evenly distributed torsion bar springs 604, the front ends of the torsion bar springs 604 are fixedly penetrated with the tensioning rotary table 605, the front sides of the outer sides of the tensioning rotary table 605 are respectively provided with the tensioning rotary table 606, the transfer roller 602, the positioning roller 603 and the tensioning rotary table 606 are respectively in tensioning engagement with a driving belt 306, the transfer roller 602, the positioning roller 603 and the inner sides of the tensioning rotary table 606 are respectively rotated with a roller rotating shaft 8, and the roller rotating shafts 8 are respectively fixed at the rear side of the inner side of the transmission shell 601 and the front side of the tensioning rotary table 605.

The labor-saving control mechanism 7 comprises a lifting connecting shaft 701, an extrusion telescopic rod 702, an extrusion spring 703, a contact roller 704, a lifting rotating shaft 705, a limiting lifting block 706 and a limiting lifting groove 707, wherein the limiting lifting block 706 is fixed at the bottom of one end of the rear side in a transmission shell 601, the middle part of the front side of the limiting lifting block 706 is provided with the limiting lifting groove 707, the lifting rotating shaft 705 vertically slides inside the limiting lifting groove 707, the contact roller 704 is rotated outside the lifting rotating shaft 705, the outer side of the contact roller 704 can be meshed with a driving belt 306, the upper surfaces of the two ends of the lifting rotating shaft 705 are respectively fixed at the inner top side of the transmission shell 601, the outer side of the extrusion telescopic rod 702 is respectively surrounded by the extrusion spring 703, the two ends of the extrusion spring 703 are respectively fixed at one end of the lifting connecting shaft 701 in a U shape, the other end of the lifting connecting shaft 701 is fixed at the upper part of the rear side in a cavity of the rotating exercise block 402, the synchronous exercise plate is meshed with the lower side of the lower rotating body by arranging a transmission control mechanism 6 and a labor-saving control mechanism 7, the synchronous riding exercise effect of a user can be synchronously trained by the rotating mechanism 406 when the user is exercising, and the user can exercise the exercise by synchronously exercising the riding exercise plate and the exercise plate is meshed with the lower body, and the riding exercise device can be simultaneously, and the exercise is more convenient.

As shown in fig. 13-16, the back board angle adjusting mechanism 13 is disposed on the front and back sides of the lying board back board 12, the back board angle adjusting mechanism 13 includes a second servo motor 1301, an adjusting moving screw 1302, a moving slide 1303, a moving slide groove 1304, a connecting L-axis 1305, an adjusting rotating shaft 1306, an adjusting slide block 1307 and an adjusting slide groove 1308, the adjusting slide groove 1308 is disposed on the front and back sides of the lying board back board 12, the adjusting slide groove 1308 is provided with the adjusting slide block 1307 in a sliding manner, the adjusting rotating shaft 1306 is fixed on the outer side of the adjusting slide block 1307, the outer sides of the adjusting rotating shafts 1306 are respectively rotated inside one ends of the two connecting L-axes 1305, one ends of the connecting L-axes 1305 are rotationally attached to the outer surface of the adjusting slide block 1307, the other ends of the connecting L-axes 1305 are respectively fixed with the moving slide blocks 1303, the upper surfaces of the front and back sides of the bottom base plate 101 are respectively provided with the moving slide groove 1304, the moving slide block 1303 is attached to the inner side of the moving slide groove 1304, the two sides of the moving chute 1304 are all rotated and penetrated with the adjusting moving screw 1302, the middle part of the adjusting moving screw 1302 is screwed in the moving slide block 1303, one end of the adjusting moving screw 1302 is fixed at the driving end of the second servo motor 1301, the second servo motor 1301 is fixed on the side wall of the bottom base plate 101, the second servo motor 1301 is controlled to operate by the control panel 201 through the back plate angle adjusting mechanism 13, the left and right movement of the connecting L shaft 1305 is controlled, because the connecting L shaft 1305 and the adjusting slide block 1307 are rotationally connected through the adjusting rotating shaft 1306, when the connecting L shaft 1305 moves left and right, the adjusting rotation of the control lying plate back plate 12 on the upper side of the lying plate supporting plate 9 can be driven, at the moment, the posture adjusting rotation of the lying plate back plate 12 can be utilized, the training of ligament leg pressing by a sports training person is facilitated, meanwhile, the posture of the whole lying plate structure is also convenient, and the body shape correction of a beginner player is also convenient, or is convenient for assisting athletes to exercise ligaments, and is convenient for later-stage exercise training and reinforcing.

The bottom pad 101 and the lying support plate 9 are supported and connected through the lying moving mechanism 11, the lying moving mechanism 11 comprises a supporting control block 1101, a control sliding chute 1102, a control sliding block 1103, a control rotating shaft 1104, a rotating shaft torsion bar 1105, a connecting nylon rope 1106, a mounting sliding block 1107, a mounting sleeve 1108, a mounting spring 1109, a mounting shaft block 1110, a mounting shaft hole 1111 and a mounting connecting block 1112, the supporting control block 1101 is fixed on the upper surface of the bottom pad 101, the control sliding block 1103 is fixed on the upper surface of the supporting control block 1101, the outer side of the control sliding block 1103 slides on the inner side of the control sliding chute 1102, the control sliding chute 1102 is arranged in the middle of the lower surface of the lying support plate 9, the middle of the inside of the control sliding block 1103 is provided with the mounting sleeve 1108, two sides of the inner side of the mounting sleeve 1108 penetrate through, the inner side of the mounting sleeve 1108 is respectively provided with two mounting shaft blocks 1110, the inner sides of the mounting sleeve 1108 are respectively connected with the mounting shaft blocks 1104 through the mounting spring 1109, the mounting spring 1109 are respectively arranged on the inner side of the mounting sleeve 1104, a plurality of mounting shaft holes 1111 are uniformly distributed on the front and back sides of the inner side of the control sliding block 1102, the inner side of the control sliding block 1101 is respectively, one side of the inner side of the supporting sliding block is rotatably arranged on the inner side of the mounting sleeve 1104, one side of the control sliding block is rotatably arranged on the inner side of the control block is, one side of the control block is arranged on the inner side of the control block, and the other side of the control block is arranged on the inner side of the control block, and the control block is, and the other side, and the control block is fixedly arranged, and is mounted on the inner side, and the control block is mounted by, and is mounted by and opposite, and is fixedly and movably and mounted by the opposite by the side, and by. The mounting shaft block 1110 is driven to stretch and slide on the front and rear sides of the control sliding block 1103, and when the control sliding block 1103 slides to a proper position on the inner side of the control sliding chute 1102, the mounting shaft block 1110 can be controlled to be clamped on the mounting shaft hole 1111 by using the elasticity of the mounting spring 1109 so as to fix the position of the lying plate structure.

As shown in fig. 17-18, a first sweat-discharging cavity 903 is arranged in the lying plate supporting plate 9, a plurality of first sweat-absorbing holes 902 which are uniformly distributed are arranged on the upper surface of the lying plate supporting plate 9, the first sweat-absorbing holes 902 are communicated with the first sweat-discharging cavity 903, a T-shaped sliding groove 904 which is communicated with the front side is arranged on one side of the lower surface of the lying plate supporting plate 9 close to the back plate limiting sleeve 901, a T-shaped sliding block 905 is slid on the inner side of the T-shaped sliding groove 904, the T-shaped sliding block 905 is fixed on the upper surface of the first sweat-collecting box 906, a first sweat-collecting opening 907 is arranged on the upper surface of the T-shaped sliding block 905, the first sweat-collecting opening 907 is communicated with the inner side of the first sweat-collecting box 906 and the lower surface on one side of the first sweat-discharging cavity 903, a second sweat-discharging cavity 1203 is arranged in the lying plate back plate 12, the side of the lying plate back plate 12, which is close to the upper surface of the lying plate support plate 9, is provided with a plurality of second sweat absorbing holes 1202 which are uniformly distributed, the second sweat absorbing holes 1202 are communicated with a second sweat discharging cavity 1203, the bottom end of one side of the lying plate back plate 12, which is far away from the second sweat absorbing holes 1202, is fixedly provided with a mounting block 1204, the side wall of the mounting block 1204 is provided with a J-shaped sliding groove 1205 penetrating through the front side of the mounting block 1204, the inner side of the J-shaped sliding groove 1205 is provided with a J-shaped sliding block 1206 in a sliding manner, the J-shaped sliding block 1206 is fixed on the side wall of the second L-shaped sweat collecting box 1207, the bottom end of the side wall of the second sweat collecting box 1207 is provided with a second sweat collecting opening 1208, the second sweat collecting opening 1208 is communicated with the inner cavity of the second sweat collecting box 1207, and the bottom end side wall of the second sweat discharging cavity 1203, sweat flowing out from the body is introduced into the sweat discharging cavity by the sweat discharging holes, and is conveyed into the sweat collecting box again through the sweat collecting opening.

As shown in fig. 9, 10 and 19, two ends of a rotating connecting shaft 403 are provided with sweat guiding mechanisms 5, each sweat guiding mechanism 5 comprises a limiting rotating sleeve 501, a sweat guiding groove 502, a sweat guiding strip 503, a water absorbing cotton sleeve 504, a mounting groove 505, a positioning block 506 and a positioning strip 507, the limiting rotating sleeve 501 is fixed at two ends of the rotating connecting shaft 403, the sweat guiding groove 502 is arranged at the top end of the limiting rotating sleeve 501, the sweat guiding strip 503 is fixed at the bottom end of the limiting rotating sleeve 501, the water absorbing cotton sleeve 504 slides outside one end of the limiting rotating sleeve 501 far away from the rotating connecting shaft 403, the positioning block 506 is fixed at the middle part of the inner side of the water absorbing cotton sleeve 504, the outer side of the positioning block 506 is in sliding clamping fit inside the limiting rotating sleeve 501, the top is fixed with the location strip 507 in the cotton cover 504 that absorbs water, and the location strip 507 slides in the sweat groove 502 inboard, the mounting groove 505 has been seted up to the cotton cover 504 that absorbs water inner bottom, and sweat strip 503 slides in the mounting groove 505 inboard, through the setting of sweat cavity and sweat mechanism 5, utilize the sweat hole to let in the sweat cavity with the sweat that the health flows out, send into the collection sweat incasement through receiving sweat opening again and collect, utilize sweat groove 502 and sweat strip 503 to send into removable cotton cover 504 department that absorbs water with the hand sweat to collect, the sweat is attached to the body surface in the time of can rationally reducing the motion in total, reach the purpose of quick sweat absorption and sweat release, sweat interference in the reduction training, improve training efficiency.

As shown in fig. 17, 18 and 20, a support plate massage mechanism 10 is arranged on the lying plate support plate 9, the support plate massage mechanism 10 comprises a first electric push rod 1001 and a first massage plate 1002, the first electric push rod 1001 is fixed at the front and rear parts of one side of the lower surface of the lying plate support plate 9, the first massage plate 1002 is hinged through the lying plate support plate 9 at the push end of the first electric push rod 1001, the first massage plate 1002 is arranged at the inner side of the perspiration cavity 903, a back plate massage mechanism 14 is arranged on the lying plate back plate 12, the back plate massage mechanism 14 comprises a plurality of second electric push rods 1401 and a second massage plate 1402, the second electric push rods 1401 are fixed at one side of the lying plate back plate 12 far from the second sweat absorbing holes 1202, the second electric push rods 1401 are fixed with the same second massage plate 1402 through the lying plate back plate 12, the second massage plate 1402 is arranged at the inner side of the second perspiration cavity 1203, the massage plate 1002 is far away from electric putter one 1001 side and massage plate two 1402 is kept away from electric putter two 1401 side and is all provided with a plurality of massage balls 18, the massage balls 18 outside is all spacing in ball fixture block 1801 inboard, and ball fixture block 1801 is spacing to encircle the massage balls 18 and fix in massage plate one 1002 and massage plate two 1402 outsides, and ball fixture block 1801 outside all slide in inhaling sweat hole one 902 and inhale sweat hole two 1202 insides, through setting up backplate massage mechanism 14 and backup pad massage mechanism 10, utilize electric putter one 1001 and electric putter two 1401's drive, can control operation massage plate one 1002 and massage plate two 1402 to remove, and then with spacing massage balls 18 between ball fixture block 1801 ejecting sweat hole one 902 and inhale sweat hole two 1202, utilize the roll of massage balls 18, can carry out training personnel's after the training massage treatment, can help relaxing the muscle and reach better motion training effect.

As shown in fig. 5-6, a ligament stretching auxiliary mechanism 15 is arranged at the bottom end of the inner side of one side of the outer frame 1 of the device, which is close to the riding exercise mechanism 3, the ligament stretching auxiliary mechanism 15 comprises an electric push rod III 1501, a lifting chute 1502, a lifting slide block 1503, a stretching auxiliary block 1504, a connecting telescopic rod 1505, a servo motor III 1506, an auxiliary rotating shaft 1507, a driving bevel gear 1508, a driving bevel gear 1509, an auxiliary screw 1510, an internal thread sleeve 1511, an auxiliary pressing plate 1512, a skid-proof line 1513 and a foot supporting frame 1514, the lifting chute 1502 is arranged at the bottom end of the inner side wall of the outer frame 1 of the device, the lifting slide block 1503 is slidingly arranged at the inner side of the lifting chute 1502, the electric push rod III 1501 is fixed at the bottom end of the inner side wall of the outer frame 1 of the device, the pushing end of the electric push rod III 1501 is fixed at the bottom side of the lifting slide block 1503, the stretching auxiliary block 1504 is fixed at the side wall of the lifting slide block 1503, the front side of the stretching auxiliary block 1504 is fixed with a servo motor III 1506, an auxiliary rotating shaft 1507 is fixed at the rear driving end of the servo motor three 1506, the auxiliary rotating shaft 1507 rotates to penetrate through the front side and the rear side of the stretching auxiliary block 1504, a driving bevel gear 1508 is fixed at the front part and the rear part of the middle part of the auxiliary rotating shaft 1507, a transmission bevel gear 1509 is meshed with the outer side of the driving bevel gear 1508, the transmission bevel gear 1509 is fixed at one end of an auxiliary screw 1510, the outer side of the middle part of the auxiliary screw 1510 rotates to penetrate through the side wall of the stretching auxiliary block 1504 close to the lying plate support plate 9, the outer side of the other end of the auxiliary screw 1510 rotates to the inner side of an internal thread sleeve 1511, the internal thread sleeve 1511 is fixed at the side wall of an auxiliary pressing plate 1512, an anti-skid thread 1513 is arranged on the side of the auxiliary pressing plate 1512 far from the internal thread sleeve 1511, a foot support frame 1514 is fixed at the front part and the rear part of the bottom end of the side of the auxiliary pressing plate 1512 far from the internal thread sleeve 1511, a connecting telescopic rod 1505 is fixed at the middle part of the side of the auxiliary pressing plate 1512 close to the internal thread sleeve 1511, and connect telescopic link 1505 to fix at tensile auxiliary piece 1504 lateral wall, still control electric putter operation through control panel 201 when the little supplementary motion training personnel of deck chair structure contained angle carries out the ligament and adjust, and then drive the tensile auxiliary mechanism 15 of ligament and rise from top to bottom, when the tensile auxiliary mechanism 15 of ligament is lifted to the same horizontal plane of service creeper backup pad 9, drive servo motor three 1506 moves, utilize drive bevel gear 1508 and transmission bevel gear 1509's meshing, control auxiliary screw 1510 rotates, and then control auxiliary clamp plate 1512 drives foot support frame 1514 and remove, motion training personnel sits on service creeper backup pad 9 when carrying out the tensile training of ligament, erect the ankle on foot support frame 1514, utilize auxiliary clamp plate 1512 to support the sole of a foot, use the rotation of service creeper backplate 12 to oppress the back of motion training personnel, can help training athlete adapt to training ligament fast.

As shown in fig. 1-3, the front and rear parts of the end, far away from the riding exercise mechanism 3, of the outer frame 1 are provided with a horizontal pushing mechanism 16, the horizontal pushing mechanism 16 comprises a horizontal pushing moving plate 1601, a horizontal pushing barbell 1602, a barbell groove 1603, a moving plate sliding groove 1604 and a moving plate sliding block 1605, the moving plate sliding groove 1604 is arranged on the upper and lower inner sides of the front and rear parts of the end, far away from the riding exercise mechanism 3, of the outer frame 1, the moving plate sliding groove 1604 is provided with the moving plate sliding block 1605 in a sliding manner, the moving plate sliding block 1605 is respectively fixed on the upper and lower sides of the horizontal pushing moving plate 1601, the middle part of the horizontal pushing moving plate 1601 is penetrated with the barbell groove 1603 in a front and rear, the inner sides of the barbell groove 1603 are respectively slid on the outer sides of two ends of the same horizontal pushing barbell 1602, the lying backboard 12 is inclined and the lying support plate 9 forms an obtuse angle, and the horizontal pushing mechanism 16 is moved to a proper position, so that the horizontal pushing amount training can be performed in cooperation with the use of the horizontal pushing barbell 1602.

As shown in fig. 3 and 12, mobile phone clamping mechanisms 17 are arranged on both sides of the upper surface of the control host 2, the mobile phone clamping mechanisms 17 comprise a support column 1701, two L-shaped clamping blocks 1702, a clamping groove 1703, two clamping telescopic rods 1704 and two clamping springs 1705, the two L-shaped clamping blocks 1702 are arranged up and down oppositely, the clamping grooves 1703 are respectively arranged at the long plate ends of the two L-shaped clamping blocks 1702 near one side each other, the two clamping telescopic rods 1704 are respectively fixed at the bottom side of the transverse plate end of the upper L-shaped clamping block 1702, the other end of the clamping telescopic rod 1704 is fixed at the top side of the transverse plate end of the lower L-shaped clamping block 1702, the clamping springs 1705 are respectively arranged around the outer sides of the clamping telescopic rods 1704, the two ends of the clamping springs 1705 are respectively fixed at the side of the transverse plate ends of the two L-shaped clamping blocks 1702 near each other, the support column 1701 is fixed at the upper surface of the control host 2, the support column 1701 upper surface is fixed at lower part L shape grip block 1702 diaphragm end lower surface, through setting up the cell-phone structure, set up the adjustable support that can place the cell-phone in control host computer 2 upside, can improve the training rhythm of training person when the whole use of device, and then reach the efficient purpose of training, therefore can make things convenient for the erection of outside music equipment, still can conveniently monitor self-training state, because single training can often not notice on tiny detail, to the training person of high accuracy motion or line concentration motion, generally need record and real-time correction processing to the detail of training, improve training efficiency under the circumstances of guaranteeing the health, consequently can correct the training gesture through external a plurality of cameras real time monitoring.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a comprehensive sports training device, includes device outer frame (1), its characterized in that: the device is characterized in that a control host (2) is fixed on the rear side of the outer frame (1), a control panel (201) is arranged in the middle of the upper surface of the control host (2), a bottom base plate (101) is fixed on the middle of the inner side of the outer frame (1), a lying plate supporting plate (9) and a lying plate back plate (12) are arranged on the upper surface of the bottom base plate (101), back plate limiting sleeves (901) are fixed on the front end and the rear end of one side of the lying plate supporting plate (9), limiting shaft blocks (1201) are fixed on the front end and the rear end of the bottom plate (12), the outer side of each limiting shaft block (1201) is rotated on the inner side of the back plate limiting sleeve (901), a riding exercise mechanism (3) is arranged on the upper portion of the inner side of the outer frame (1), a transmission control mechanism (6) is arranged on the top of the outer frame (1), a transmission control mechanism (6) is arranged on the bottom side of the middle of the transmission control mechanism (6), the hand rotation exercise mechanism (4) is arranged on the upper side of the lying plate back plate (12), and the riding mechanism (3) is connected with the hand exercise mechanism (4) through the transmission control mechanism (6) and the transmission control mechanism (7).

2. The integrated athletic exercise training device of claim 1, wherein: the riding exercise mechanism (3) comprises a riding block shell (301), a riding connecting shaft (302), a riding pedal (303), a pedal bearing (304), a rotating wheel (305), a driving belt (306), a riding block opening (307), a riding block sliding block (308), a riding block sliding groove (309), a riding block screw rod (310) and a first servo motor (311), wherein the riding block sliding groove (309) is formed in the inner side wall of the outer frame (1), the riding block sliding block (308) slides on the inner side of the riding block sliding groove (309), the riding block sliding block (308) penetrates through the riding block screw rod (310) from top to bottom in the inner side, two ends of the riding block screw rod (310) penetrate through and rotate on the upper side and the lower side of the riding block sliding groove (309), the top end of the riding block screw rod (310) is fixed on the lower driving end of the first servo motor (311), the first servo motor (311) is fixed on the top of the inner side wall of the outer frame (1), the riding block sliding block (308) is fixedly provided with the riding block shell (301), the riding block shell (301) is attached to the outer side of the outer frame (1), the inner side of the riding block (307) is provided with the rotating wheel opening (307), the utility model discloses a pedal bearing (304) is fixed, including driving belt (306) is connected with in the meshing of rotation wheel (305) outside, run through around rotation wheel (305) middle part and be fixed with connecting axle (302) of riding, just connecting axle (302) of riding rotate and run through the front and back side of riding piece shell (301), connecting axle (302) of riding sets up to double Z font integrated configuration, all fix in pedal bearing (304) inner circle in the outside of connecting axle (302) both ends of riding, pedal bearing (304) outer lane outside all is fixed with pedal (303) of riding.

3. The integrated athletic exercise training device of claim 1, wherein: the hand rotation exercise mechanism (4) comprises a limit sleeve block (401), a rotation exercise block (402), a rotation connecting shaft (403), a ball bearing (404), a labor-saving rotating wheel (405) and a connecting belt (406), wherein the limit sleeve block (401) slides up and down, the rotation exercise block (402) is provided with an opening communicated with an inner cavity, the rotation connecting shaft (403) is penetrated and rotated around the lower end of the rotation exercise block (402), the rotation connecting shaft (403) is arranged into a double Z-shaped combined structure, the labor-saving rotating wheel (405) is fixed on the outer side of the middle of the rotation connecting shaft (403), the outer side of the rear end of the labor-saving rotating wheel (405) is fixed on the inner side of the ball bearing (404), the outer ring rear side of the ball bearing (404) is fixed on the rear wall of the inner cavity of the rotation exercise block (402), and the connecting belt (406) is meshed on the outer side of the front end of the labor-saving rotating wheel (405).

4. A comprehensive physical training apparatus according to claim 3, wherein: the transmission control mechanism (6) and the labor-saving control mechanism (7) are connected with each other, the transmission control mechanism (6) comprises a transmission shell (601), a transfer roller (602), a positioning roller (603), a torsion bar spring (604), a tensioning rotary table (605) and a tensioning rotary table (606), the top end of the transmission shell (601) is fixedly penetrated at the top end of an outer frame (1) of the device, the limit sleeve block (401) is fixedly penetrated at the lower surface of the transmission shell (601) and far away from one side of the riding exercise mechanism (3), the two ends of the inner side of the transmission shell (601) are respectively provided with a transfer roller (602), the lower part of the inner side of the transmission shell (601) is far away from one end of the riding exercise mechanism (3) and is provided with a positioning roller (603) which is horizontally arranged in parallel, the middle part of the inner side of the transmission shell (601) is also fixedly provided with a plurality of torsion bar springs (604) which are uniformly distributed, the front ends of the torsion bar springs (604) are respectively fixedly penetrated with the tensioning rotary table (605), the front sides of the outer sides of the tensioning rotary table (605) are respectively provided with the tensioning rotary table (606), the transfer roller (602), the positioning roller (603) and the tensioning rotary table (606) are respectively meshed with a driving roller (306), the transfer roller (602) and the driving roller (602), the roller rotating shaft (8) is respectively fixed at the inner rear side of the transmission housing (601) and the front side of the tensioning rotary table (605), the labor-saving control mechanism (7) comprises a lifting connecting shaft (701), an extrusion telescopic rod (702), an extrusion spring (703), a contact roller (704), a lifting rotating shaft (705), a limiting lifting block (706) and a limiting lifting groove (707), the limiting lifting block (706) is fixed at the bottom of one end of the inner rear side of the transmission housing (601), the middle part of the front side of the limiting lifting block (706) is provided with the limiting lifting groove (707), the lifting rotating shaft (705) slides up and down at the inner side of the limiting lifting groove (707), the outer side of the lifting rotating shaft (705) rotates with the contact roller (704), the outer side of the contact roller (704) can be meshed with a driving belt (306), the upper surfaces of two ends of the lifting rotating shaft (705) are respectively fixed with the extrusion telescopic rod (702), the top ends of the extrusion telescopic rod (702) are respectively fixed at the inner top side of the transmission housing (601), the extrusion telescopic rod (702) are respectively surrounded by the extrusion spring (703), the upper ends of the extrusion telescopic rod (705) are respectively fixed at the upper ends of the two ends of the transmission housing (601) and the lifting rotating shaft (705) respectively, the other end of the lifting connecting shaft (701) is fixed at the upper part of the rear side in the cavity of the rotary exercise block (402).

5. The integrated athletic exercise training device of claim 1, wherein: the back plate angle adjusting mechanism (13) is arranged on the front side and the back side of the lying plate back plate (12), the back plate angle adjusting mechanism (13) comprises a servo motor II (1301), an adjusting moving screw (1302), a moving slide block (1303), a moving slide groove (1304), a connecting L shaft (1305), an adjusting rotating shaft (1306), the adjusting slide block (1307) and an adjusting slide groove (1308), the adjusting slide groove (1308) is arranged on the front side and the back side of the lying plate back plate (12), the adjusting slide blocks (1307) are respectively slid on the inner side of the adjusting slide groove (1308), the adjusting rotating shafts (1306) are respectively fixed on the outer sides of the adjusting slide blocks (1307), one end of the connecting L shaft (1305) is rotationally attached to the outer surface of the adjusting slide block (1307), the other end of the connecting L shaft (1305) is fixedly provided with the moving slide block (1303), the upper surface of the front side and the back side of the bottom base plate (101) is respectively blocked with the moving slide groove (1304), the moving slide block (1303) is attached to the inner side of the moving slide groove (1304), the moving slide groove (1304) is respectively fixed on the outer sides of the moving slide groove (1304), the rotating screw (1304) and the moving screw (1302) is respectively threaded on the inner sides of the moving screw (1302), one end of the adjusting moving screw (1302) is fixed at the driving end of a second servo motor (1301), the second servo motor (1301) is fixed on the side wall of the bottom base plate (101), the bottom base plate (101) and the lying plate supporting plate (9) are in supporting connection through a lying plate moving mechanism (11), the lying plate moving mechanism (11) comprises a supporting control block (1101), a control sliding groove (1102), a control sliding block (1103), a control rotating shaft (1104), a rotating shaft torsion handle (1105), a connecting nylon rope (1106), a mounting sliding block (1107), a mounting sleeve (1108), a mounting spring (1109), a mounting shaft block (1110), a mounting shaft hole (1111) and a mounting connecting block (1112), the support control block (1101) is fixed on the upper surface of the bottom base plate (101), a control sliding block (1103) is fixed on the upper surface of the support control block (1101), the outer side of the control sliding block (1103) slides on the inner side of the control sliding groove (1102), the control sliding groove (1102) is arranged in the middle of the lower surface of the lying plate support plate (9), an installation sleeve (1108) is arranged in the middle of the control sliding block (1103), two sides of the inner side of the installation sleeve (1108) penetrate through, two installation shaft blocks (1110) slide on the inner side of the installation sleeve (1108), and install and pass through installation spring (1109) interconnect between axle piece (1110), installation spring (1109) all set up in installation sleeve (1108) inboard, a plurality of installation shaft hole (1111) of evenly distributed have all been seted up to control spout (1102) inboard front and back side, just install axle piece (1110) outside and all run through control slider (1103) block slip in installation shaft hole (1111) inboard, it has control pivot (1104) to run through rotation in support control piece (1101) one side, control pivot (1104) are located support control piece (1101) outside one end and are fixed with pivot torsion (1105), control pivot (1104) other end runs through support control piece (1101) inner cavity, support control piece (1101) cavity inboard is provided with two installation connecting blocks (1112), installation slider (1107) are all fixed with in installation slider (1107) lower surface middle part, installation slider (1107) all activity sets up in support control piece (1101) cavity inboard, just install nylon rope (1112) and are connected with control piece (1107) and installation slider (1107) through connecting nylon rope (1112).

6. A comprehensive physical training apparatus according to claim 3, wherein: the utility model discloses a sweat collecting device, which is characterized in that a sweat discharging cavity I (903) is arranged inside a lying plate supporting plate (9), a plurality of sweat absorbing holes I (902) which are uniformly distributed are formed in the upper surface of the lying plate supporting plate (9), the sweat absorbing holes I (902) are communicated with the sweat discharging cavity I (903), a T-shaped sliding groove (904) which is communicated with the front side is formed in one side, close to a backboard limiting sleeve (901), of the lower surface of the lying plate supporting plate (9), a T-shaped sliding groove (905) is arranged on the inner side in a sliding mode, the T-shaped sliding block (905) is fixed on the upper surface of a sweat collecting box I (906), sweat absorbing openings I (907) are formed in the upper surface of the T-shaped sliding block (905), the sweat absorbing openings I (907) are communicated with the inner side of the sweat collecting box I (906) and the lower surface of the sweat discharging cavity I (903), a plurality of sweat absorbing holes II (1202) which are uniformly distributed are formed in the inner side, close to the upper surface of the lying plate supporting plate (12) of the lying plate supporting plate (9), a sweat absorbing block II (1202) is arranged on one side, the inner side, close to the two side of the lying plate (1205) is provided with a sweat absorbing block (1204), the sweat absorbing block (1204) is arranged on the side, the side of the sweat absorbing block (1205) is far away from the front side, the mounting block (J) is arranged on the side, the sweat absorbing block (1204), the J-shaped sliding block (1206) is fixed on the side wall of a second L-shaped sweat collecting box (1207), a second sweat collecting opening (1208) is formed in the bottom end of the side wall of the second sweat collecting box (1207), the second sweat collecting opening (1208) is communicated with the inner cavity of the second sweat collecting box (1207) and the side wall of the bottom end of the second sweat discharging cavity (1203), sweat absorbing mechanisms (5) are arranged at the two ends of the rotating connecting shaft (403), the sweat absorbing mechanisms (5) comprise a limiting rotating sleeve (501), a sweat absorbing groove (502), sweat absorbing strips (503), a water absorbing cotton sleeve (504), a mounting groove (505), a positioning block (506) and a positioning strip (507), the limiting rotating sleeve (501) is fixed at the two ends of the rotating connecting shaft (403), the sweat absorbing grooves (502) are formed in the top end of the limiting rotating sleeve (501), the bottom end of the limiting rotating sleeve (501) is fixed with the sweat absorbing strips (503), one end outer side of the limiting rotating sleeve (403) is far away from the rotating connecting shaft (403), the water absorbing cotton sleeve (504) is slid on the outer side, the inner side of the middle of the water absorbing cotton sleeve (504) is fixed with the positioning block (506), the inner side of the water absorbing cotton sleeve (506) is fixed on the inner side of the cotton sleeve (507), the sweat absorbing sleeve (506) and the sweat absorbing sleeve (507) is fixed on the top end of the inner side of the rotating sleeve, the inner bottom end of the water absorbing cotton sleeve (504) is provided with a mounting groove (505), and the sweat guiding strip (503) slides inside the mounting groove (505).

7. The integrated athletic exercise training device of claim 6, wherein: the utility model discloses a lying plate, which is characterized in that a support plate massage mechanism (10) is arranged on the lying plate support plate (9), the support plate massage mechanism (10) comprises a first electric push rod (1001) and a second massage plate (1402), the first electric push rod (1001) is fixed at the front and rear parts of one side of the lower surface of the lying plate support plate (9), a pushing end of the first electric push rod (1001) penetrates through the lying plate support plate (9) and is hinged with the first massage plate (1002), the first massage plate (1002) is arranged at the inner side of a perspiration cavity (903), a back plate massage mechanism (14) is arranged on the lying plate back plate (12), the back plate massage mechanism (14) comprises a plurality of second electric push rods (1401) and second massage plates (1402), the second electric push rods (1401) are fixed at one side of the lying plate back plate (12) far away from the sweat absorbing holes, the pushing ends of the second electric push rods (1401) are all fixed with the same second massage plates (1402) through the back plate (12), the second massage plates (1402) are arranged inside the perspiration cavity second (1203), the first massage plates (1002) are arranged at one side far away from the balls (1801) and are both far away from the inner sides of the balls (18) and are both arranged at one side of the second massage plate (180), and the ball clamping block (1801) is fixed on the outer sides of the first massage plate (1002) and the second massage plate (1402) in a limiting mode around the massage balls (18), and the outer sides of the ball clamping block (1801) and the ball clamping block (1801) slide on the inner sides of the first sweat absorbing holes (902) and the second sweat absorbing holes (1202).

8. The integrated athletic exercise training device of claim 1, wherein: the device outer frame (1) is close to the inner bottom end of one side of the riding exercise mechanism (3) and is provided with a ligament stretching auxiliary mechanism (15), the ligament stretching auxiliary mechanism (15) comprises an electric push rod III (1501), a lifting sliding chute (1502), a lifting sliding block (1503), a stretching auxiliary block (1504), a connecting telescopic rod (1505), a servo motor III (1506), an auxiliary rotating shaft (1507), a driving bevel gear (1508), a transmission bevel gear (1509), an auxiliary screw (1510), an internal thread sleeve (1511), an auxiliary pressing plate (1512), anti-skidding lines (1513) and a foot supporting frame (1514), the lifting sliding chute (1502) is arranged at the inner bottom end of the inner side of the device outer frame (1), a lifting sliding block (1503) is arranged on the inner side of the lifting sliding chute (1502) in a sliding mode, the electric push rod III (1501) is fixed at the inner bottom end of the inner side of the device outer frame (1), a pushing end of the electric push rod III (1501) is fixed at the bottom side of the lifting sliding block (1507), the side wall of the lifting sliding block (1507) is fixed with the stretching auxiliary block (1504), the front side of the stretching auxiliary block (1504) is fixed with the servo motor III (1506), the servo motor III (1506) is fixed, the driving end (1507) is fixed on the front side of the stretching auxiliary block (1507) and the driving end (1507), drive bevel gear (1508) are all fixed with in auxiliary rotating shaft (1507) middle part front and back portion, drive bevel gear (1508) outside all meshes and has transmission bevel gear (1509), transmission bevel gear (1509) are fixed in auxiliary screw (1510) one end, auxiliary screw (1510) middle part outside all rotates and runs through tensile auxiliary block (1504) and be close to service creeper backup pad (9) one side lateral wall, auxiliary screw (1510) other end outside all screw thread rotation is inboard in internal thread sleeve (1511), internal thread sleeve (1511) all fixes at auxiliary clamp plate (1512) lateral wall, auxiliary clamp plate (1512) is kept away from internal thread sleeve (1511) one side and is provided with anti-skidding line (1513), just auxiliary clamp plate (1512) is kept away from internal thread sleeve (1511) one side bottom front and back portion and all is fixed with foot's support frame (1514), auxiliary clamp plate (1512) is close to internal thread sleeve (1511) one side middle part and is fixed with connecting telescopic rod (1505), just connecting telescopic rod (1505) are fixed in tensile auxiliary block (1504) lateral wall.

9. The integrated athletic exercise training device of claim 1, wherein: the device is characterized in that the front and back parts of one end of the device outer frame (1) far away from the riding exercise mechanism (3) are respectively provided with a horizontal pushing mechanism (16), the horizontal pushing mechanism (16) comprises a horizontal pushing moving plate (1601), a horizontal pushing barbell (1602), a barbell groove (1603), a moving plate sliding groove (1604) and a moving plate sliding block (1605), the moving plate sliding groove (1604) is arranged on the upper and lower inner sides of the front and back parts of the device outer frame (1) far away from one end of the riding exercise mechanism (3), the moving plate sliding groove (1604) is internally provided with the moving plate sliding block (1605) in a sliding mode, the moving plate sliding blocks (1605) are respectively fixed on the upper side and the lower side of the horizontal pushing moving plate (1601), the middle part of the horizontal pushing moving plate (1601) is internally penetrated by the barbell groove (1603), and the inner sides of the barbell groove (1603) are respectively slid on the outer sides of two ends of the same horizontal pushing barbell (1602).

10. The integrated athletic exercise training device of claim 1, wherein: the mobile phone clamping mechanism (17) is arranged on two sides of the upper surface of the control host (2), the mobile phone clamping mechanism (17) comprises a supporting column (1701), two L-shaped clamping blocks (1702), clamping grooves (1703), two clamping telescopic rods (1704) and two clamping springs (1705), the two L-shaped clamping blocks (1702) are arranged up and down oppositely, the clamping grooves (1703) are formed in the long plate ends of the two L-shaped clamping blocks (1702) close to each other, the two clamping telescopic rods (1704) are fixed on the bottom side of the transverse plate end of the L-shaped clamping block (1702), the other end of each clamping telescopic rod (1704) is fixed on the top side of the transverse plate end of the lower L-shaped clamping block (1702), the outer sides of the clamping telescopic rods (1704) are all surrounded by the clamping springs (1705), the two ends of each clamping spring (1705) are respectively fixed on the transverse plate ends of the two L-shaped clamping blocks (1702) close to each other, the supporting column (1701) is fixed on the upper surface of the control host (2), and the supporting column (1702) is fixed on the upper surface of the transverse plate (1701).

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