CN109966718B

CN109966718B - Balance training device for simulating skiing curve

Info

Publication number: CN109966718B
Application number: CN201910353927.6A
Authority: CN
Inventors: 周旖清; 程伟妮; 周洁如; 王志强; 蔡全哲; 张娅; 王向春
Original assignee: Individual
Current assignee: Zhou Jieru
Priority date: 2019-04-29
Filing date: 2019-04-29
Publication date: 2023-06-16
Anticipated expiration: 2039-04-29
Also published as: CN109966718A

Abstract

A simulated skiing curve balance training device comprises a simulated curved slideway A, a hydraulic regulator B arranged on the simulated curved slideway A, and a balance training device C arranged on the hydraulic regulator B. The plug-in port A404 of the simulated curved slideway A and the mounting hole B102 of the bottom plate B201 in the hydraulic regulator B are fixed into a whole through bolts, the base 101 of the balance trainer C and the mounting hole B102 of the top plate B101 in the hydraulic regulator B are fixed into a whole through bolts, and the balance trainer C and the hydraulic regulator B integrally move along an arc curve on the simulated curved slideway A. The invention provides a simulated curved slideway through improvement, which can drive skiers to realize arc-shaped movement, is firm in connection and not easy to derail, and has small running resistance of chain plates. The hydraulic regulator simulates the uneven slideway of the slideway, has strong connection stability and is convenient to install and fix. The balance training device has good balance training effect, is convenient for fixing the legs and has high safety performance.

Description

Balance training device for simulating skiing curve

Technical Field

The invention relates to the field of skiing sports, in particular to the technical field of skiing balance training devices, and particularly relates to a device for simulating balance of a skiing curve.

Background

The skiing sport is a competition sport in which a player wears a skiing board on a boot sole to perform speed, jump and slide down on a snowfield, the skiing board is made of wood, metal materials and plastics, the alpine skiing is formed by sliding down, small-rotation and large-rotation obstacle skiing, the skiing sport has a certain danger, the learning skiing sport needs to have stronger balance capability, the self balance training needs to be enhanced for improving the safety of the skiing process, and a balance trainer can be adopted for assisting the training.

The invention of the patent number CN202237146U discloses a movable veneer skiing balance trainer, which comprises a rectangular pedal and a supporting plate, wherein the size of the pedal is larger than that of the supporting plate, and the center of the pedal is connected with the center of the supporting plate by a spring; in addition, a sliding device is arranged on the lower bottom surface of the supporting plate, and a hook is fixed at the center of one long side edge of the pedal.

According to the technical scheme, the simulated skiing curve balance training device is designed according to the characteristics of the skiing curve, and the curve balance of a skier is provided.

Disclosure of Invention

Therefore, in order to solve the defects, the invention provides the balance training device for simulating the skiing curve, which has the advantages of good balance training effect, high safety performance and the like.

A simulated skiing curve balance training device comprises a simulated curved slideway A, a hydraulic regulator B arranged on the simulated curved slideway A, and a balance training device C arranged on the hydraulic regulator B. The plug-in port A404 of the simulated curved slideway A and the mounting hole B102 of the bottom plate B201 in the hydraulic regulator B are fixed into a whole through bolts, the base 101 of the balance trainer C and the mounting hole B102 of the top plate B101 in the hydraulic regulator B are fixed into a whole through bolts, and the balance trainer C and the hydraulic regulator B integrally move along an arc curve on the simulated curved slideway A.

The simulated curved slideway A comprises a curved rail A1 and a mounting foot A2. The mounting feet A2 are vertically arranged on the side wall of the bent rail A1 and are fixedly connected with the bent rail A1 through screws, and a rolling mechanism A3 is arranged between two adjacent bent rails A1. A chain plate mechanism A4 is arranged on the side surface of the rolling mechanism A3.

The rolling mechanism A3 comprises a foundation A301, a bearing sleeve A302, a rotating shaft IA303, an internal gear A304 and a bearing A305. The footing A301 is embedded in the inner side wall of the bent rail A1 and is fixedly connected with the bent rail A1 through a screw, the bearing sleeve A302 is vertically arranged in the middle of the top of the footing A301 and is fixedly connected with the footing A301 through a screw, the bearing A305 is embedded in the bearing sleeve A302 and is movably connected with the bearing sleeve A302, and two ends of the rotating shaft IA303 penetrate through the bearing A305 and are movably connected with the bearing A305.

The chain plate mechanism A4 comprises a chain plate A401, a connecting plate A402, a chain A403 and an L-shaped mounting plate A405, wherein the L-shaped mounting plate A405 is vertically arranged at the bottom edge position of the chain plate A401 and is fixedly connected with the chain plate A401 through screws, the chain A403 is horizontally arranged on the side wall of the L-shaped mounting plate A405 and is welded with the L-shaped mounting plate A405, the connecting plate A402 is arranged on the opposite side of the L-shaped mounting plate A405 and is vertically arranged on the side wall of the chain A403 and is welded with the chain A403, and the middle part and two sides of the surface of the chain plate A401 are respectively provided with a plug-in port A404.

The hydraulic regulator B includes a top base B1 and a bottom base B2. A hydraulic telescopic rod B6 is arranged between the top base B1 and the bottom base B2, a bottom connector B3 is arranged at the bottom of the hydraulic telescopic rod B6, the bottom connector B3 is hinged with the bottom end of the hydraulic telescopic rod B6, and a top connector B8 is arranged at the top of the hydraulic telescopic rod B6. The top connector B8 is nested to be arranged at the top end of the hydraulic telescopic rod B6 and is in clearance fit with the hydraulic telescopic rod B6.

The top base B1 includes a top plate B101, a mounting hole B102, and a through hole IB103, the through hole IB103 being provided at a middle position of the top plate B101, and being mounted at a top edge position of the top plate B101. The bottom base B2 includes a bottom plate B201, a mounting hole B102, and a through hole IIB202, and the through hole IIB202 is disposed at a middle position of the bottom plate B201. The top of bottom plate B201 is equipped with bottom connecting seat B4, and bottom connecting seat B4 is the top edge position that sets up at bottom plate B201 perpendicularly to pass through screw fixed connection with bottom plate B201. Be equipped with the cross axle IB5 between bottom connecting seat B4 and the bottom joint B3, bottom connecting seat B4 and bottom joint B3 pass through cross axle IB5 swing joint, and the bottom of roof B101 is equipped with top connecting seat B7, and top connecting seat B7 is the bottom edge position that sets up at roof B101 perpendicularly to pass through screw fixed connection with roof B101, be equipped with cross axle IIB9 between top joint B8 and the top connecting seat B7, top joint B8 and top connecting seat B7 pass through cross axle IIB9 swing joint.

The balance trainer C comprises a balance trainer 1 and a fixing mechanism 2. The balance trainer 1 comprises a base 101, a motor fixing frame 102, a motor 105, a main locating frame 106 and a balance bar 110. The securing mechanism 2 includes a collet 201, side guards 202, rear sheath 203, calf cuff 206, top securing cuff 207, bottom securing cuff 209.

The motor 105 is the level setting intermediate position at the top of base 101, motor mount 102 nestification sets up the one end at motor 105, and motor mount 102's bottom passes through screw fixed connection with base 101, main locating rack 106 nestification sets up the one end at motor 105, and main locating rack 106's bottom passes through screw fixed connection with base 101, main locating rack 106's top is equipped with rotatory axle sleeve 109, rotatory axle sleeve 109 runs through the top that sets up at main locating rack 106, and with main locating rack 106 swing joint, one side of motor 105 is equipped with pinion 103, pinion 103 passes through motor 105 axle swing joint with motor 105, motor 105's top is equipped with the pivot II107 that is the level setting, pivot II107 runs through the inside that sets up at rotatory axle sleeve 109, and realize clearance fit with rotatory axle sleeve 109, one side of pivot II107 is equipped with gear wheel 104, gear wheel 104 nestification sets up the one end at pivot II107, and realize interference fit with pivot II107, the top of pivot II107 is equipped with fixed plate 108, fixed plate 108 and pivot II107 pass through screw fixed connection, balance bar 110 and pivot II pass through fixed plate 108 fixed connection with pivot 107, the top of balance bar 110 is equipped with fixture 2.

The bottom support 201 is fixedly connected with the balance bar 110 through screws, the side baffle 202 is vertically arranged on the side wall of the bottom support 201 and is fixedly connected with the bottom support 201 through screws, the rear sheath 203 is vertically arranged on one side of the side baffle 202 and is hinged with the side baffle 202, the bottom end of the lower leg sleeve 206 is embedded into the top end of the rear sheath 203 and is hinged with the rear sheath 203, a fixing buckle A211 is arranged on one side of the top fixing sleeve 207, the top fixing sleeve 207 is fixedly connected with the side baffle 202 through the fixing buckle A211, a buckle A208 is arranged on the opposite side of the fixing buckle A211 and is hinged with the top fixing sleeve 207, a magic tape A204 is arranged on one side of the rear sheath 203, one end of the magic tape A204 is fixedly connected with the rear sheath 203 through screws, a fixing buckle B212 is arranged on one side of the bottom fixing sleeve 209, the bottom fixing sleeve 209 is fixedly connected with the side baffle 202 through the fixing buckle B212, a buckle B210 is arranged on the opposite side of the fixing buckle B210 and is hinged with the bottom fixing sleeve 209, a magic tape B205 is arranged on one side of the side baffle 202, and one end of the magic tape B205 is fixedly connected with the side baffle 202 through screws.

The simulated curved slideway can drive a skier to realize the arc-shaped movement of the simulated curved slideway, the connection is firm, the derailment is not easy, and the running resistance of the chain plate is small. The concrete advantages are as follows:

advantage 1: the link joint is cavity form, can alleviate the self weight of link joint, reduces the installation degree of difficulty, can also guarantee its compressive strength simultaneously, and pivot and bearing housing pass through bearing swing joint, adopt the bearing to connect can reduce the running resistance of pivot for the pivot operation is more smooth and easy, avoids appearing the dead situation of card.

Advantage 2: two groups of symmetrically distributed chains are arranged on the side face of the chain plate, the chains are meshed with the internal gear, friction force can be reduced by adopting the chains to match with the rotation of the internal gear, and energy loss is reduced.

Advantage 3: the two adjacent chain plates are hinged through the connecting plate, so that each chain plate forms a ring shape and can drive each other to reciprocate.

The hydraulic regulator is used for simulating the rugged slideway of the slideway. The concrete advantages are as follows: advantage 1: the top of roof is equipped with a plurality of mounting hole, and the mounting hole encircles the setting around the through-hole and is the equidistance and distribute, can conveniently be connected the roof with curved slide of simulation or balance training ware through the mounting hole that sets up, and the adaptation ability is stronger. Advantage 2: the end of the cross shaft I penetrates through the bottom connecting seat and the bottom connector respectively, and is in clearance fit with the bottom connecting seat and the bottom connector, and the bottom connector can flexibly rotate along various angles on the bottom connecting seat through the cross shaft I. Advantage 3: the internal diameter of through-hole I is less than the internal diameter of through-hole II, and the installation of being convenient for is fixed, improves the stability of product, has five hydraulic telescoping rods altogether between top base and the bottom base, and hydraulic telescoping rod is by the flexible operating condition of outside PLC program control respective respectively, simulates the unsmooth slide of slide, can train skiing sportsman's balancing ability.

The balance training device has good balance training effect, is convenient for fixing the legs and has high safety performance. The concrete advantages are as follows:

advantage 1: the pinion is meshed with the large gear, the motor drives the pinion to rotate, and then the pinion drives the large gear to reciprocate, so that the balance rod is driven to operate. Advantage 2: the magic subsides A are through buckle A and self adhesion, with fixed cover in top and rear sheath fixed connection, and the magic subsides B is through buckle B and self adhesion, with fixed cover in bottom and side shield fixed connection, is fixed through magic subsides A, magic subsides B, can make things convenient for the user to operate, reduces the operation degree of difficulty, can't be fixed fast when avoiding both feet to be located fixed establishment top. Advantage 3: the top intermediate position of collet is equipped with evenly distributed's non-slip pores, and the top edge of collet is equipped with the arch, can increase the frictional force of sole and collet through the non-slip pores that set up, avoids the training in-process landing, and the arch at collet edge can play the effect of blockking to the shoes simultaneously, and shoes slide on above that when avoiding training, and fixed establishment is whole to be the fretwork form, reinforcing permeability, the ventilative heat dissipation of being convenient for, convenient long-time training use.

Drawings

FIG. 1 is a schematic view of the overall assembled partial structure of the simulated skiing curve balance training device of the present invention;

FIG. 2 is an enlarged schematic view of the overall assembly structure of the simulated skiing curve balance training device of the invention;

FIG. 3 is a schematic view of a simulated curved slideway A;

FIG. 4 is an enlarged view of a portion of a curved track of a simulated curved ramp A of the present invention;

FIG. 5 is a schematic view of a rolling mechanism of the simulated curved slideway A;

FIG. 6 is a schematic view of a rolling mechanism part of the simulated curved slideway A;

FIG. 7 is a schematic view of a partial structure of a link plate mechanism of the simulated curved slide A of the present invention;

FIG. 8 is a schematic diagram of a hydraulic regulator B according to the present invention;

FIG. 9 is a schematic view of a partial top base structure of the hydraulic regulator B of the present invention;

FIG. 10 is a schematic diagram of the balance trainer C of the present invention;

FIG. 11 is a schematic view showing a partial structure of a fixing mechanism of the balance trainer C of the present invention;

fig. 12 is a schematic view showing a partial structure of the fixing buckle a of the balance trainer C according to the present invention.

Number shown in the figure: a curved rail A1; a mounting foot A2; a rolling mechanism A3; footing a301; bearing sleeve a302; a rotation axis IA303; inner gear a304; bearing a305; a link plate mechanism A4; a link plate a401; connecting plate a402; chain a403; plug interface a404; an L-shaped mounting plate A405; a top base B1; a top plate B101; a mounting hole B102; a via BI103; a bottom base B2; a bottom plate B201; a through hole IIB202; a bottom joint B3; a bottom connecting seat B4; a cross axle IB5; a hydraulic telescopic rod B6; a top connecting seat B7; a top joint B8; cross IIB9; a balance trainer 1; a base 101; a motor mount 102; a pinion 103; a large gear 104; a motor 105; a main positioning frame 106; a rotation axis II107; a fixing plate 108; a rotating sleeve 109; a balance bar 110; a fixing mechanism 2; a shoe 201; side guards 202; a rear sheath 203; magic tape A204; magic tape B205; a calf sleeve 206; a top retaining sleeve 207; clasp a208; a bottom retaining sleeve 209; clasp B210; a fixing buckle A211; retaining button B212.

Description of the embodiments

The following detailed description of the present invention, taken in conjunction with the accompanying drawings, will clearly and completely describe the technical solutions of embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, 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. Furthermore, the terms "first," "second," "third," "upper," "lower," "left," "right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless explicitly stated and defined otherwise, the terms "connected", "connected" and "connected" should be interpreted broadly, and for example, may be fixedly connected, detachably connected, or integrally connected; the mechanical connection and the electrical connection can be adopted; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

1-2, the balance training device for the simulated skiing curve comprises a simulated curved slideway A, a hydraulic regulator B arranged on the simulated curved slideway A, and a balance training device C arranged on the hydraulic regulator B; the plug-in port A404 of the simulated curved slideway A and the mounting hole B102 of the bottom plate B201 in the hydraulic regulator B are fixed into a whole through bolts, the base 101 of the balance trainer C and the mounting hole B102 of the top plate B101 in the hydraulic regulator B are fixed into a whole through bolts, and the balance trainer C and the hydraulic regulator B integrally move along an arc curve on the simulated curved slideway A.

As shown in fig. 3-7, the simulated curved slideway A comprises a curved rail A1 and mounting feet A2, wherein the mounting feet A2 are vertically arranged on the side wall of the curved rail A1 and fixedly connected with the curved rail A1 through screws, and a rolling mechanism A3 is arranged between two adjacent curved rails A1; the rolling mechanism A3 comprises a footing A301, a bearing sleeve 302, a rotating shaft IA303, an inner gear A304 and a bearing A305, wherein the footing A301 is embedded into the inner side wall of the bent rail A1 and is fixedly connected with the bent rail A1 through a screw, the bearing sleeve 302 is vertically arranged at the middle position of the top of the footing A301 and is fixedly connected with the footing A301 through the screw, the bearing A305 is embedded into the bearing sleeve 302 and is movably connected with the bearing sleeve 302, two ends of the rotating shaft IA303 penetrate through the inside of the bearing A305 and are movably connected with the bearing A305, a chain plate mechanism A4 is arranged on the side face of the rolling mechanism A3, the chain plate mechanism A4 comprises a chain plate A401, a connecting plate A402, a chain A403 and an L-shaped mounting plate A405, the chain A403 is vertically arranged at the bottom edge position of the chain plate A401, the chain A403 is horizontally arranged at the side wall of the L-shaped mounting plate A405 and is welded with the L-shaped mounting plate A405, a connecting plate A402 is arranged on the opposite side of the L-shaped mounting plate A405, and a connecting plate A402 is welded with the middle part of the chain A401 and two side edges of the chain A401 are respectively inserted and connected with the chain A404.

The chain plate A401 is hollow, so that the self weight of the chain plate A401 can be reduced, the installation difficulty is reduced, and the compressive strength of the chain plate A can be ensured. The middle part and the two sides of the surface of the chain plate A401 are respectively provided with a plug-in port A404. The rotating shaft IA303 is movably connected with the bearing sleeve A302 through the bearing A305, the running resistance of the rotating shaft IA303 can be reduced by adopting the bearing A305 to connect, so that the rotating shaft IA303 runs more smoothly, the clamping condition is avoided, two groups of symmetrically distributed chains A403 are arranged on the side surface of the chain plate A401, the chains A403 are meshed with the inner gear A304, the friction force can be reduced by adopting the chains A403 to match with the rotation of the inner gear 301, the energy loss is reduced, an outer gear is arranged on the outer side of the inner gear A304, and the outer gear is connected with an external driving assembly. Two adjacent chain plates A401 are hinged through a connecting plate A402, so that each chain plate A401 forms a ring shape and can drive each other to reciprocate.

The working principle of the simulated curved slideway A is as follows: the simulated bending slide way A is fixed on a transportation station through a mounting foot A2, then a driving device is connected with a rotating shaft IA303, the rotating shaft IA303 is driven to rotate through the driving device, an internal gear A304 at two ends of the rotating shaft IA303 can be driven to rotate in the rotating process of the rotating shaft IA303, the internal gear A304 is meshed with a chain A403, the chain A403 can be driven to operate in the rotating process of the internal gear A304, and then a chain plate A401 is driven to operate by the chain A403, so that the whole chain plate mechanism A4 operates, a workpiece can be placed at the top of the chain plate mechanism A4 at one end, the workpiece is moved from one end to the other end in the operating process of the chain plate mechanism A4, bending motion is realized, and the rotating shaft IA303 is connected with a bearing sleeve A302 through a bearing A305, so that the blocking force in the rotating process is greatly reduced.

As shown in fig. 8 to 9, the hydraulic regulator B includes a top base B1 and a bottom base B2, a hydraulic telescopic rod B6 is disposed between the top base B1 and the bottom base B2, a bottom joint B3 is disposed at the bottom of the hydraulic telescopic rod B6, the bottom joint B3 is hinged to the bottom end of the hydraulic telescopic rod B6, a top joint B8 is disposed at the top of the hydraulic telescopic rod B6, the top joint B8 is nested on the top end of the hydraulic telescopic rod B6 and is in clearance fit with the hydraulic telescopic rod B6, the bottom base B2 includes a bottom plate B201 and a through hole IIB202, the through hole IIB202 is disposed at the middle position of the bottom plate B201, the top base B1 includes a top plate B101, a mounting hole B102 and a through hole BI103, the through hole BI103 is disposed at the middle position of the top plate B101, the installation sets up the top border position at roof B101, the top of bottom plate B201 is equipped with bottom connecting seat B4, bottom connecting seat B4 is the top border position that sets up perpendicularly at bottom plate B201, and pass through screw fixed connection with bottom plate B201, be equipped with cross axle IB5 between bottom connecting seat B4 and the bottom joint B3, bottom connecting seat B4 and bottom joint B3 pass through cross axle IB5 swing joint, the bottom of roof B101 is equipped with top connecting seat B7, top connecting seat B7 is the bottom border position that sets up at roof B101 perpendicularly, and pass through screw fixed connection with roof B101, top joint B8 and top connecting seat B7 between be equipped with cross axle IIB9, top joint B8 and top connecting seat B7 pass through cross axle IIB9 swing joint.

The top of roof B101 is equipped with a plurality of mounting hole B102, mounting hole B102 encircles the setting around the through-hole and is the equidistance and distributes, can conveniently be connected roof B101 and simulation curved slide or balance training ware through the mounting hole B102 that sets up, adaptive capacity is stronger, the end of cross axle IB5 runs through the inside that sets up in bottom connecting seat B4, bottom joint B3 respectively, and with bottom connecting seat B4, realize clearance fit between the bottom joint B3, through the cross axle IB5 that sets up, make bottom joint B3 can rotate along each angle is nimble on bottom connecting seat B4, the internal diameter of through-hole BI103 is less than the internal diameter of through-hole IIB202, be convenient for install fixedly, improve the stability of product, five hydraulic telescoping rods B6 of total between top base B1 and the bottom base B2, coordinate top base B1 rotation through five hydraulic telescoping rods B6 that set up, can train athlete's balanced ability.

The working principle of the hydraulic regulator B is as follows: the staff passes through mounting hole B102 with roof B101 of the top base B1 of hydraulic regulator B and is connected with curved slide of simulation or balance training ware, is connected the bottom base B2 of bottom with curved slide A of simulation again, improves connection stability. The hydraulic telescopic rods are respectively controlled by external PLC programs to respectively extend and retract, and simulate uneven slide ways of the slide ways.

As shown in fig. 10-12, the balance trainer C comprises a balance trainer 1 and a fixing mechanism 2, the balance trainer 1 comprises a base 101, a motor fixing frame 102, a motor 105, a main positioning frame 106 and a balance rod 110, the motor 105 is horizontally arranged at the middle position of the top of the base 101, the motor fixing frame 102 is nested at one end of the motor 105, the bottom end of the motor fixing frame 102 is fixedly connected with the base 101 through a screw, the main positioning frame 106 is nested at one end of the motor 105, the bottom end of the main positioning frame 106 is fixedly connected with the base 101 through a screw, the top of the main positioning frame 106 is provided with a rotary shaft sleeve 109, the rotary shaft sleeve 109 penetrates through the top of the main positioning frame 106 and is movably connected with the main positioning frame 106, one side of the motor 105 is provided with a pinion 103, the pinion 103 is movably connected with the motor 105 through a motor 105 shaft, the top of the motor 105 is provided with a rotating shaft II107 which is horizontally arranged, the rotating shaft II107 is arranged in the rotating shaft sleeve 109 in a penetrating way and is in clearance fit with the rotating shaft sleeve 109, one side of the rotating shaft II107 is provided with a large gear 104, the large gear 104 is nested at one end of the rotating shaft II107 and is in interference fit with the rotating shaft II107, the top of the rotating shaft II107 is provided with a fixing plate 108, the fixing plate 108 is fixedly connected with the rotating shaft II107 through a screw, a balance rod 110 is fixedly connected with the rotating shaft II107 through the fixing plate 108, the top of the balance rod 110 is provided with a fixing mechanism 2, the fixing mechanism 2 comprises a collet 201, a side baffle 202, a rear sheath 203, a shank sheath 206, a top fixing sleeve 207 and a bottom fixing sleeve 209, the collet 201 is fixedly connected with the balance rod 110 through a screw, the side baffle 202 is vertically arranged on the side wall of the collet 201 and is fixedly connected with the collet 201 through a screw, the rear sheath 203 is vertically arranged on one side of the side baffle 202 and is hinged with the side baffle 202, the bottom embedding of shank cover 206 sets up on the top of rear sheath 203 to articulated with rear sheath 203, one side of top fixed cover 207 is equipped with fixed knot A211, top fixed cover 207 passes through fixed knot A211 fixed connection with side shield 202, the opposite side of fixed knot A211 is equipped with buckle A208, buckle A208 is articulated with top fixed cover 207, one side of rear sheath 203 is equipped with the magic subsides A204, one end and the rear sheath 203 of magic subsides A204 pass through screw fixed connection, one side of bottom fixed cover 209 is equipped with fixed knot B212, bottom fixed cover 209 passes through fixed knot B212 fixed connection with side shield 202, the opposite side of fixed knot B212 is equipped with buckle B210, buckle B210 is articulated with bottom fixed cover 209, one side of side shield 202 is equipped with the magic subsides B205, one end and the side shield 202 of magic subsides B205 pass through screw fixed connection.

Pinion 103 and gear wheel 104 meshing drive pinion 103 through motor 105 and rotate, drive gear wheel 104 by pinion 103 and reciprocate, thereby drive balancing pole 110 operation, the magic subsides A204 is through buckle A208 and self adhesion, with top fixed cover 207 and rear sheath 203 fixed connection, the magic subsides B205 is through buckle B210 and self adhesion, fixed cover 209 and side shield 202 fixed connection bottom, it is fixed through the magic subsides A204, the magic subsides B205, can make things convenient for the user to operate, reduce the operation degree of difficulty, avoid unable quick fixation when both feet are located fixed establishment 2 tops, the top intermediate position of collet 201 is equipped with evenly distributed's non-slip hole, and the top edge of collet 201 is equipped with the arch, frictional force of sole and collet 201 can be increased through the non-slip hole that sets up, avoid the landing in the training process, and simultaneously the arch on collet 201 edge can play the effect of blocking to the shoes, slide above during the training is avoided, fixed establishment 2 is whole to be hollow form, the reinforcing nature is convenient for ventilative. The top fixing sleeve 207 and the bottom fixing sleeve 209 of the fixing mechanism 2 are respectively fixed through the fixing buckle A211, the magic tape A204, the fixing buckle B212 and the magic tape B205, can adapt to feet with different code numbers, and has strong adaptability.

Working principle of balance trainer C: the staff stands on the two bottom brackets 201 with feet, the magic tape A204 and the magic tape B205 are adhered through the buckles A and B respectively, the feet are fixed in the fixing mechanism 2, the balance trainer 1 is started at this moment, the motor 105 starts to operate and drives the pinion 103 to operate through the motor shaft, and the pinion 103 is adhered with the large gear 104, so that the large gear 104 can rotate along with the large gear 104, the large gear 104 can drive the rotating shaft II107 to rotate in the rotating shaft sleeve 109 in the rotating process, and the balance rod 110 is driven to incline through the rotating shaft II107; the motor 105 is of a single-phase asynchronous motor type, can realize forward and reverse rotation, drives the balance bar 110 to incline left and right by driving the pinion 103 to rotate forward and reverse, and a worker stands on the fixing mechanism 2, and the body is slowly adapted to the inclination degree of the balance bar 110 to play a role in balance training.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A simulated skiing curve balance training device is characterized in that: the device comprises a simulated curved slideway (A), a hydraulic regulator (B) arranged on the simulated curved slideway (A), and a balance trainer (C) arranged on the hydraulic regulator (B); the plug-in port (A404) of the simulated curved slideway (A) and the mounting hole (B102) of the bottom plate (B201) in the hydraulic regulator (B) are fixed into a whole through bolts, the base (101) of the balance trainer (C) and the mounting hole (B102) of the top plate (B101) in the hydraulic regulator (B) are fixed into a whole through bolts, and the balance trainer (C) and the hydraulic regulator (B) integrally move along an arc curve on the simulated curved slideway (A);

the simulated curved slideway (A) comprises a curved rail (A1) and a mounting foot (A2); the mounting feet (A2) are vertically arranged on the side wall of the bent rail (A1) and are fixedly connected with the bent rail (A1) through screws, and a rolling mechanism (A3) is arranged between two adjacent bent rails (A1); a chain plate mechanism (A4) is arranged on the side surface of the rolling mechanism (A3);

the rolling mechanism (A3) comprises a foundation leg (A301), a bearing sleeve (A302), a rotating shaft I (A303), an internal gear (A304) and a bearing (A305); the bearing (A305) is embedded into the bearing sleeve (A302) and is movably connected with the bearing (A305), and two ends of the rotating shaft I (A303) penetrate through the bearing (A305) and are movably connected with the bearing (A305);

the chain plate mechanism (A4) comprises a chain plate (A401), a connecting plate (A402), a chain (A403) and an L-shaped mounting plate (A405), wherein the L-shaped mounting plate (A405) is vertically arranged at the bottom edge position of the chain plate (A401) and is fixedly connected with the chain plate (A401) through screws, the chain (A403) is horizontally arranged on the side wall of the L-shaped mounting plate (A405) and is welded with the L-shaped mounting plate (A405), the connecting plate (A402) is arranged on the opposite side of the L-shaped mounting plate (A405), the connecting plate (A402) is vertically arranged on the side wall of the chain (A403) and is welded with the chain (A403), and the middle part and two sides of the surface of the chain plate (A401) are respectively provided with an inserting port (A404);

the hydraulic regulator (B) comprises a top base (B1) and a bottom base (B2); a hydraulic telescopic rod (B6) is arranged between the top base (B1) and the bottom base (B2), a bottom joint (B3) is arranged at the bottom of the hydraulic telescopic rod (B6), the bottom joint (B3) is hinged with the bottom end of the hydraulic telescopic rod (B6), and a top joint (B8) is arranged at the top of the hydraulic telescopic rod (B6); the top connector (B8) is nested at the top end of the hydraulic telescopic rod (B6) and is in clearance fit with the hydraulic telescopic rod (B6);

the top base (B1) comprises a top plate (B101), a mounting hole (B102) and a through hole I (B103), wherein the through hole I (B103) is arranged at the middle position of the top plate (B101) and is arranged at the top edge position of the top plate (B101); the bottom base (B2) comprises a bottom plate (B201), a mounting hole (B102) and a through hole II (B202), wherein the through hole II (B202) is arranged in the middle of the bottom plate (B201); the top of the bottom plate (B201) is provided with a bottom connecting seat (B4), and the bottom connecting seat (B4) is vertically arranged at the top edge position of the bottom plate (B201) and is fixedly connected with the bottom plate (B201) through a screw; a cross shaft I (B5) is arranged between the bottom connecting seat (B4) and the bottom connector (B3), the bottom connecting seat (B4) and the bottom connector (B3) are movably connected through the cross shaft I (B5), a top connecting seat (B7) is arranged at the bottom of the top plate (B101), the top connecting seat (B7) is vertically arranged at the bottom edge position of the top plate (B101) and is fixedly connected with the top plate (B101) through a screw, a cross shaft II (B9) is arranged between the top connector (B8) and the top connecting seat (B7), and the top connector (B8) and the top connecting seat (B7) are movably connected through the cross shaft II (B9);

the balance trainer (C) comprises a balance trainer (1) and a fixing mechanism (2); the balance training device (1) comprises a base (101), a motor fixing frame (102), a motor (105), a main positioning frame (106) and a balance rod (110); the fixing mechanism (2) comprises a bottom bracket (201), a side baffle (202), a rear sheath (203), a shank sleeve (206), a top fixing sleeve (207) and a bottom fixing sleeve (209);

the motor (105) is horizontally arranged at the middle position of the top of the base (101), the motor fixing frame (102) is nested at one end of the motor (105), the bottom end of the motor fixing frame (102) is fixedly connected with the base (101) through a screw, the main locating frame (106) is nested at one end of the motor (105), the bottom end of the main locating frame (106) is fixedly connected with the base (101) through a screw, the top of the main locating frame (106) is provided with a rotary shaft sleeve (109), the rotary shaft sleeve (109) penetrates through the top of the main locating frame (106) and is movably connected with the main locating frame (106), one side of the motor (105) is provided with a pinion (103), the pinion (103) is movably connected with the motor (105) through the motor (105), the top of the motor (105) is provided with a rotary shaft II (107) which is horizontally arranged, the rotary shaft II (107) penetrates through the inside the rotary shaft sleeve (109) and is in clearance fit with the rotary shaft sleeve (109), one side of the rotary shaft II (107) is provided with a large gear (104), the large gear (104) is arranged at one end of the rotary shaft II (107) and is in interference fit with the rotary shaft II (107), one side of the rotary shaft II) is in interference fit with the rotary shaft II (107) through the screw, the nested with the rotary shaft II (107) and is in the rotary shaft II (107) through the screw, the balance rod (110) is fixedly connected with the rotating shaft II (107) through a fixed plate (108), and a fixed mechanism (2) is arranged at the top of the balance rod (110);

the bottom support (201) is fixedly connected with the balance bar (110) through screws, the side baffle (202) is vertically arranged on the side wall of the bottom support (201) and is fixedly connected with the bottom support (201) through screws, the rear sheath (203) is vertically arranged on one side of the side baffle (202) and is hinged with the side baffle (202), the bottom end of the lower leg sleeve (206) is embedded into the top end of the rear sheath (203) and is hinged with the rear sheath (203), one side of the top fixing sleeve (207) is provided with a fixing buckle A (211), the top fixing sleeve (207) is fixedly connected with the side baffle (202) through the fixing buckle A (211), the opposite side of the fixing buckle A (211) is provided with a buckle A (208), the buckle A (208) is hinged with the top fixing sleeve (207), one side of the rear sheath (203) is provided with a magic tape A (204), one end of the magic tape A (204) is fixedly connected with the rear sheath (203) through screws, one side of the bottom fixing sleeve (209) is provided with a fixing buckle B (212), one side of the bottom fixing sleeve (209) is fixedly connected with the side baffle (202) through the fixing buckle B (212), one side of the bottom fixing sleeve (209) is fixedly connected with the side baffle (210) through the fixing buckle B (210), one end of the magic tape B (205) is fixedly connected with the side baffle (202) through a screw;

the chain plate (A401) is hollow; the two adjacent chain plates (A401) are hinged through a connecting plate (A402); the rotating shaft I (A303) is movably connected with the bearing sleeve (A302) through a bearing (A305); two groups of symmetrically distributed chains (A403) are arranged on the side surface of the chain plate (A401), and the chains (A403) are meshed with the internal gear (A304); an external gear is arranged on the outer side of the internal gear (A304) and is connected to an external driving assembly.

2. A simulated skiing curve balance training device as claimed in claim 1, wherein: five hydraulic telescopic rods (B6) are shared between the top base (B1) and the bottom base (B2), and the hydraulic telescopic rods (B6) are controlled by external PLC programs to respectively extend and retract; the tail ends of the cross shafts I (B5) are respectively arranged in the bottom connecting seat (B4) and the bottom joint (B3) in a penetrating manner, and are in clearance fit with the bottom connecting seat (B4) and the bottom joint (B3); the top plate (B101) and the bottom plate (B201) are respectively provided with a plurality of mounting holes (B102), and the mounting holes (B102) are circumferentially arranged around the through holes and distributed at equal intervals.

3. A simulated skiing curve balance training device as claimed in claim 1, wherein: the whole fixing mechanism (2) is hollow; the middle position of the top of the bottom support (201) is provided with uniformly distributed anti-slip holes, and the edge of the top end of the bottom support (201) is provided with a bulge; the magic tape A (204) is adhered to the self through the buckle A (208), the top fixing sleeve (207) is fixedly connected with the rear sheath (203), the magic tape B (205) is adhered to the self through the buckle B (210), and the bottom fixing sleeve (209) is fixedly connected with the side baffle (202).