CN116920333A - Body-building stick and body-building suite - Google Patents

Abstract

According to embodiments of the present disclosure, fitness poles and fitness kits are provided. The body-building crutch comprises: a handle having an annular shape adapted for grasping by a hand; the crutch head is suitable for being abutted against the support so as to enable the gymnastic crutch to take a preset posture; the connecting rod is arranged between the handle and the crutch head, is used for connecting the handle and the crutch head and is suitable for adjusting the whole length of the gymnastic crutch by telescoping: and a shock absorbing rod disposed between the connecting rod and the tip, adapted to absorb shock when the tip is in contact with the support, comprising: a spring cavity; the sliding rod is penetrated in the spring cavity and is connected with the spring cavity in a sliding manner along the length direction of the body-building crutch; and the damping spring is arranged in the spring cavity and is suitable for being pushed by the sliding rod to deform to absorb shock during the sliding of the sliding rod in the spring cavity. Thus, the user can be helped to safely and effectively perform muscle strength, aerobic endurance and flexible stretching training, and the corresponding actions cover most muscle groups of the whole body.

Description

Body-building stick and body-building suite

Technical Field

Example embodiments of the present disclosure relate generally to the field of fitness equipment, and in particular, to a fitness pole and fitness kit.

Background

Proper exercise is critical to the physical and mental health of a person, and the society of today is deeply aware of this, whether it is a country or a person, and has a great investment. One suitable athletic exercise would include muscle strength training, aerobic endurance training, and flexible stretch training, with ease of movement matching the exerciser's ability to achieve the proper beneficial stimulation to the body without injury. But also is convenient for the exerciser to adhere to daily.

Exercise gyms can perform muscle strength, aerobic endurance, and flexible stretch exercises, but for a variety of reasons gyms are not suitable for many totalities.

1. For economic reasons, the cost of gymnasiums cannot be borne;

2. for time and distance reasons, no whole time is needed for exercise in gymnasium due to busy life and work and the time for going to gymnasium;

3. most elderly people do not accept gymnasium exercise due to habitual problems.

Special people, such as the elderly, overweight and obese people and rehabilitation patients, need equipment or personnel to assist, reduce the intensity and difficulty of exercise action to be suitable for the length of the people, and avoid injury.

Disclosure of Invention

In a first aspect of the present disclosure, a fitness pole is provided. The body-building crutch comprises: a handle having an annular shape adapted for grasping by a hand; the crutch head is suitable for being abutted against the support so as to enable the gymnastic crutch to take a preset posture; the connecting rod is arranged between the handle and the crutch head, is used for connecting the handle and the crutch head and is suitable for adjusting the whole length of the gymnastic crutch by telescoping: and a shock absorbing rod disposed between the connecting rod and the tip, adapted to absorb shock when the tip is in contact with the support, comprising: a spring cavity; the sliding rod is penetrated in the spring cavity and is connected with the spring cavity in a sliding manner along the length direction of the body-building crutch; and the damping spring is arranged in the spring cavity and is suitable for being pushed by the sliding rod to deform to absorb shock during the sliding of the sliding rod in the spring cavity.

In some embodiments, the shock rod further comprises: the first baffle plate is coupled on the inner wall of the spring cavity and is abutted with the first end of the cushioning spring; the second baffle plate is coupled on the peripheral surface of the sliding rod and is suitable for abutting against a second end, opposite to the first end, of the damping spring; the first baffle plate and the second baffle plate are suitable for adjusting the compression degree of the cushioning spring by changing the distance.

In some embodiments, the first baffle plate is in threaded connection with the inner wall of the spring cavity, and an adjusting hole for rotating the first baffle plate is formed in the first baffle plate.

In some embodiments, the tip comprises: and a mounting slot configured to receive and couple the tip to the cushioning rod.

In some embodiments, the connecting rod comprises: an inner tube; the outer tube is sleeved on the outer side of the inner tube and slides along the axial direction with the inner tube; the positioning holes are arranged on the side wall of the outer tube and distributed along the axial direction of the outer tube, penetrate through the inner side wall and the outer side wall of the outer tube, and are distributed along the length direction of the outer tube; at least one through hole arranged on the side wall of the inner tube and suitable for coinciding with any one of the positioning holes on the axis along with the relative sliding of the inner tube and the outer tube; and at least one positioning ball arranged in the through hole and suitable for being partially clamped into the positioning hole after the through hole is aligned with the positioning hole in the radial direction so as to prevent the inner tube and the outer tube from sliding relatively.

In some embodiments, the fitness pole further comprises a spring adapted to flex to store energy during misalignment of the positioning hole and the through hole in a radial direction and release energy to drive the positioning ball portion into the positioning hole after alignment of the through hole and the positioning hole in the radial direction.

In some embodiments, the plurality of locating holes comprises: a plurality of pairs of positioning holes, each pair of positioning holes being radially distributed on both sides of the outer tube in a radial direction of the outer tube and being arranged through on a side wall of the outer tube, at least one through hole including a pair of through holes, a pair of through holes being arranged through on a side wall of the inner tube in a radial direction of the inner tube, at least one positioning ball including a pair of positioning balls adapted to be respectively arranged in the pair of through holes and adapted to be partially caught in the positioning holes to hinder a relative sliding of the inner tube and the outer tube after the through holes are aligned with the positioning holes in a radial direction, and the gymnastic cane further comprising: the elastic sheet is in a V shape as a whole, two ends of the elastic sheet are respectively coupled with a pair of positioning marbles and are suitable for being bent to store energy during the period that the through hole is not aligned with the radial direction of the positioning hole, and the energy is released after the through hole is aligned with the positioning hole in the radial direction to push the positioning marble part to be clamped into the positioning hole.

In some embodiments, a spring cavity is inserted inside the inner tube and coupled with the inner tube.

In some embodiments, the handle is generally isosceles trapezoid, and the upper base of the isosceles trapezoid is coupled to the outer tube.

In some embodiments, the four corners of the isosceles trapezoid are each provided with a chamfer.

In some embodiments, a locking and positioning assembly is also disposed between the outer tube and the inner tube, the locking and positioning assembly comprising: an outer fixing part coupled to an end of the outer tube; and a fastening part coupled to the outer fixing part and adapted to be coupled to the inner tube by being tightened on the outer circumferential surface of the inner tube by reducing the inner diameter.

In some embodiments, the fitness pole further comprises: the anti-skid sleeve is movably sleeved on the connecting rod.

In some embodiments, the anti-skid sleeve is notched in the axial direction of the anti-skid sleeve.

In some embodiments, the overall length of the exercise cane is 150cm-185cm.

In some embodiments, the fitness pole further comprises: and the heart rate sensor is coupled to at least one of the handle and the connecting rod and is suitable for detecting the heart rate of a user when the user uses the exercise cane to exercise.

In some embodiments, the fitness pole further comprises: a metronome coupled to the handle or the connecting rod and adapted to produce a beat sound capable of adjusting the frequency when the user uses the fitness stick.

In some embodiments, the fitness pole further comprises: and the gyroscope posture sensor is suitable for detecting the movement posture of the exercise cane.

In some embodiments, the fitness pole further comprises: the input module is suitable for inputting information into the exercise stick.

In some embodiments, the fitness pole further comprises: and a display configured to display at least data acquired by a sensor on the fitness pole or state information of the fitness pole.

In some embodiments, the fitness pole further comprises: and the communication module is suitable for sending the data received by the sensor on the exercise stick to external equipment in real time.

In some embodiments, the fitness pole further comprises: and the micro control unit is suitable for communicating with the sensor on the exercise stick and calculating the received data in real time.

In some embodiments, the fitness pole further comprises: the power supply module comprises a self-generating module, and the self-generating module is suitable for converting the energy of mutual sliding between the sliding rod and the spring cavity into electric power; and a battery for storing at least electrical power and powering the electronic components in the exercise cane.

In some embodiments, the fitness pole further comprises: the self-generating mechanism includes: a generator including an input shaft coupled with a gear set; and a rack coupled to the sliding rod and coupled to the gear set to drive the generator to generate electricity through the movement of the sliding rod.

According to the embodiment of the disclosure, a user can use the exercise stick to perform various exercise actions when performing indoor exercise, the exercise stick can be used as a reference on one hand to feed back the standardization of the actions to the user, and on the other hand, the exercise stick can also be used as a protective device to reduce accidents such as falling and the like when the user, especially the old or the rehabilitation personnel perform the exercise actions.

In a second aspect of the present disclosure, a fitness kit is provided. The exercise kit comprises: the first aspect of the present disclosure provides a fitness stick; and a exercise mat comprising: a pad body; and an anti-slip pocket coupled to the pad body and adapted to secure the tip during insertion of the tip into the anti-slip pocket.

In some embodiments, the exercise mat further comprises: and the tearing-resistant material layer is coupled on the pad body.

In some embodiments, the exercise kit further comprises a bungee cord configured at least for winding up the strapping exercise mat and the exercise cane.

In a third aspect of the present disclosure, a exercise kit is provided. The exercise kit comprises:

the first aspect of the present disclosure provides a fitness stick and an anti-skid block; the antiskid block comprises: a block body; and at least one securing hole disposed on the block body and adapted to secure the tip during insertion of the fitness stick.

It should be understood that what is described in this section of the disclosure is not intended to limit key features or essential features of the embodiments of the disclosure, nor is it intended to limit the scope of the disclosure. Other features of the present disclosure will become apparent from the following description.

Drawings

The above and other features, advantages and aspects of embodiments of the present disclosure will become more apparent by reference to the following detailed description when taken in conjunction with the accompanying drawings. In the drawings, wherein like or similar reference numerals denote like or similar elements, in which:

FIG. 1 illustrates an overall structural schematic of a fitness pole of an embodiment of the present disclosure in a contracted state;

FIG. 2 illustrates an overall structural schematic of a fitness pole of an embodiment of the present disclosure in an extended state;

FIG. 3 illustrates an exploded view of a fitness stick of an embodiment of the present disclosure;

FIG. 4 shows a schematic overall structure of a mount of an embodiment of the present disclosure;

FIG. 5 illustrates an overall structural schematic of a locking and securing assembly of an embodiment of the present disclosure;

FIG. 6 illustrates an exploded view of a locking fixture assembly of an embodiment of the present disclosure;

FIG. 7 illustrates a schematic view of other forms of locking detent assemblies of embodiments of the present disclosure;

FIG. 8 illustrates a schematic view of a lock positioning assembly of an embodiment of the present disclosure in a locked state and an unlocked state;

FIG. 9 shows a schematic overall structure of an cleat according to an embodiment of the present disclosure;

FIG. 10 illustrates an overall structural schematic of a handle of an embodiment of the present disclosure;

FIG. 11 illustrates an overall schematic view of a shock rod of an embodiment of the present disclosure;

FIG. 12 illustrates a cross-sectional view of the internal structure of a shock rod of an embodiment of the present disclosure;

FIG. 13 illustrates a schematic diagram of a power module of a fitness pole of an embodiment of the present disclosure;

FIG. 14 illustrates a simplified schematic diagram of a "double stick static squat-pull-up" action using a fitness stick in accordance with an embodiment of the present disclosure;

FIG. 15 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick for a "double stick squat-pull-up" maneuver at another perspective;

FIG. 16 illustrates a simplified schematic of a "single stick static squat-pull-up" using a fitness stick in accordance with an embodiment of the present disclosure;

FIG. 17 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick for an action "double stick reverse rowing";

FIG. 18 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick to perform a motion "single arm tip up";

FIG. 19 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick to act "travel crank down";

FIG. 20 illustrates a simplified schematic diagram of another state of an embodiment of the present disclosure using a fitness stick to act "travel crank down";

FIG. 21 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick to perform an action "one leg Romania hard pull";

FIG. 22 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick for an action "sitting quadriceps flexor stretch";

FIG. 23 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick for an action "sitting tibialis anterior flexion and extension";

FIG. 24 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick to perform an action "dead worm";

FIG. 25 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick for motion "single stick skip, in situ ultra jogging";

FIG. 26 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick for motion "double stick skip, in situ ultra jogging";

FIG. 27 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick to perform an action "in situ stepping";

FIG. 28 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick for an action "uppermost stretch";

FIG. 29 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick to perform an action "turn-up" or "turn-up";

FIG. 30 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick for motion "straight arm flexion;

figure 31 shows a simplified schematic of an embodiment of the present disclosure using a fitness stick to perform an action "kneeling adductor stretching";

figure 32 illustrates a simplified schematic diagram of an embodiment of the present disclosure using a fitness stick to perform a motion "kneeling position Tianma meteor fist";

FIG. 33 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick to act "reverse plate";

FIG. 34 illustrates a schematic diagram of the use of a fitness pad and a fitness pole in a fitness kit according to an embodiment of the present disclosure;

FIG. 35 illustrates a schematic view of a exercise mat and an exercise cane in an exercise kit for use with another view of an embodiment of the present disclosure;

FIG. 36 shows a schematic overall construction of a bungee cord of an exercise kit of an embodiment of the present disclosure;

FIG. 37 illustrates a schematic view of a exercise mat and a fitness pole being wound up with a bungee cord according to an embodiment of the present disclosure;

FIG. 38 shows a schematic overall construction of a cleat of a exercise kit of an embodiment of the present disclosure; and

Fig. 39 shows a schematic overall structure of the cleat of the exercise kit of an embodiment of the present disclosure at another perspective.

Detailed Description

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure have been illustrated in the accompanying drawings, it is to be understood that the present disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein, but rather, these embodiments are provided so that this disclosure will be more thorough and complete. It should be understood that the drawings and embodiments of the present disclosure are for illustration purposes only and are not intended to limit the scope of the present disclosure.

It should be noted that any section/subsection headings provided herein are not limiting. Various embodiments are described throughout this document, and any type of embodiment may be included under any section/subsection. Furthermore, the embodiments described in any section/subsection may be combined in any manner with any other embodiment described in the same section/subsection and/or in a different section/subsection.

In describing embodiments of the present disclosure, the term "comprising" and its like should be taken to be open-ended, i.e., including, but not limited to. The term "based on" should be understood as "based at least in part on". The term "one embodiment" or "the embodiment" should be understood as "at least one embodiment". The term "some embodiments" should be understood as "at least some embodiments". Other explicit and implicit definitions are also possible below. The terms "first," "second," and the like, may refer to different or the same object. Other explicit and implicit definitions are also possible below.

As mentioned briefly above, when a user exercises indoors, exercise effects are affected and even the body is damaged due to nonstandard actions. Particularly for elderly or rehabilitation patients, if there is insufficient protection during the exercise, impact or injury is easily caused to, for example, knee joints, ankle joints, lumbar vertebrae, etc.

Embodiments of the present disclosure provide a fitness pole. To solve or at least partially solve the above-mentioned and other potential problems with conventional solutions. According to various embodiments of the present disclosure, a user may perform various exercise actions using the exercise bar when performing indoor exercise, the exercise bar may serve as a reference on one hand to feed back the standardization of the performed actions to the user, and on the other hand, the exercise bar may serve as a protection device to reduce accidents such as falling down when the user performs exercise actions, especially for the elderly or rehabilitation personnel. When a user performs body building by using the body building crutch of the embodiment of the disclosure, the user can perform aerobic endurance training, can perform muscle strength training and can perform flexible stretching training, so that target muscle groups are stimulated effectively.

FIGS. 1 and 2 show overall structural schematic views of a fitness pole in contracted and extended states, respectively, according to embodiments of the present disclosure. As shown in fig. 1 and 2, generally, a fitness stick provided according to an embodiment of the present disclosure includes a handle 1, a connecting rod 3, a shock absorbing rod 4, and a tip 2 coupled in sequence. The user can hold the handle 1 and press the tip 2 against a support, such as the ground, corner, surface of a fitness blanket, etc., for performing a fitness action.

FIG. 3 illustrates an exploded view of a fitness pole of an embodiment of the present disclosure. As shown in fig. 3, in some embodiments, the connecting rod 3 includes an inner tube 31 and an outer tube 32 coaxially sleeved outside the inner tube 31 and capable of sliding relatively along the axis of the inner tube 31, and the sliding of the inner tube 31 and the outer tube 32 can adjust the overall length of the connecting rod 3, so that the gymnastic pole can be suitable for users with different heights. Meanwhile, after the connecting rod 3 is adjusted to be shortest, the whole volume of the exercise crutch is reduced, so that the exercise crutch can be conveniently stored. In some embodiments, the overall length of the fitness pole during use (i.e., performing fitness activities using the fitness pole) may be adjusted between 150cm and 185cm, thereby accommodating users of different heights. The connecting rod 3 further comprises a fixing member coupled between the inner tube 31 and the outer tube 32 for coupling and fixing the inner tube 31 and the outer tube 32 at different positions.

Fig. 4 illustrates an overall structural schematic of a mount of an embodiment of the present disclosure, as shown in fig. 4, which in some embodiments includes a dome 34 and a pair of locating marbles 33. The elastic sheet 34 is generally V-shaped, a pair of positioning marbles 33 are respectively coupled to two ends of the elastic sheet 34, and two positioning marbles 33 are respectively positioned on two opposite sides of the elastic sheet 34. The inner tube 31 is provided with a pair of through holes 311, the through holes 311 are respectively provided on both sides of the inner tube 31 along the radial direction of the inner tube 31, and the through holes 311 penetrate the inner and outer side walls of the inner tube 31. The elastic piece 34 is disposed inside the inner tube 31, and the two positioning marbles 33 are respectively located in the pair of through holes 311. A plurality of pairs of positioning holes 321 are also formed in the pipe wall of the outer pipe 32 along the axial direction of the outer pipe 32, and two positioning holes 321 in each pair of positioning holes 321 are distributed on two sides of the outer pipe 32 along the radial direction of the outer pipe 32. When the outer tube 32 and the inner tube 31 slide in the axial direction, the through holes 311 on the inner tube 31 may be sequentially aligned with the plurality of positioning holes 321 on the same side as the outer tube 32. When the through hole 311 of the inner tube 31 is dislocated from the positioning hole 321 of the outer tube 32, the positioning balls 33 in the through hole 311 are pressed by the inner wall of the outer tube 32 and are received in the through hole 311, and at this time, the elastic sheet 34 is pressed by the positioning balls 33 at both sides to elastically deform and accumulate energy. Along with the relative sliding of the inner tube 31 and the outer tube 32, after a pair of through holes 311 on the inner tube 31 and a pair of positioning holes 321 on the outer tube 32 are aligned along the radial direction of the inner tube 31, the elastic sheet 34 pushes a part of the positioning marble 33 to be clamped into the positioning holes 321, and the positioning marble 33 is simultaneously clamped in the through holes 311 and the positioning holes 321, so that the further sliding of the inner tube 31 and the outer tube 32 is prevented, and the inner tube 31 and the outer tube 32 are fixed relatively. If the fixing members are required to be released from the fixing of the inner tube 31 and the outer tube 32, the positioning marbles 33 are only required to be pressed into the through holes 311, so that the inner tube 31 and the outer tube 32 can slide continuously.

In some embodiments, the end of the positioning bead 33 facing away from the spring 34 may have a chamfer, for example, the end of the positioning bead 33 facing away from the spring 34 may be spherical or hemispherical, by which the user does not need to press the positioning bead 33 completely into the through hole 311 when unlocking the position of the securing member to the outer tube 32, the inner tube 31. For example, a user may press a part of the positioning beads 33 into the through holes 311, and when the inner tube 31 and the outer tube 32 are relatively slid, the positioning holes 321 are applied to the chamfer surfaces toward the edges of the inner side walls, and the positioning holes 321 are decomposed by the pressure applied to the edges of the positioning holes 321 with respect to the surfaces of the positioning beads 33 by the chamfer surfaces, so that the positioning beads 33 are pressed into the through holes 311.

In some embodiments, the positioning member may also include a spring 34 and a positioning ball 33, where a corresponding through hole 311 on the inner tube 31 may be provided with one hole, and a plurality of positioning holes 321 on the outer tube 32 may be disposed on the same side of the outer tube 32. The positioning marble 33 is disposed in the through hole 311 and the positioning marble 33 is coupled with the elastic piece 34, and the elastic piece 34 is coupled on the inner wall of the inner tube 31. The spring 34 may be flat in a stressed state, or may be curved to have a certain shape, such as V-shape, Z-shape, etc. Similarly to the above, when the through hole 311 of the inner tube 31 is not overlapped with the positioning hole 321 of the outer tube 32, the inner wall of the outer tube 32 presses the positioning beads 33, so that the positioning beads 33 are completely received in the through hole 311, the elastic sheet 34 is elastically deformed and accumulates energy due to the pressing of the positioning beads 33, and after the through hole 311 is aligned with the positioning hole 321, the elastic sheet 34 releases the accumulated energy and pushes the positioning beads 33, so that the positioning beads 33 are caught in the positioning hole 321, and the positioning beads 33 are simultaneously caught between the through hole 311 of the inner tube 31 and the positioning hole 321 of the outer tube 32, thereby locking the positions of the inner tube 31 and the outer tube 32.

It should be understood that the shape of the spring 34 proposed in the embodiments of the present disclosure is merely illustrative, and is not intended to limit the specific shape of the spring 34, and in fact, any material that can provide elasticity so that the positioning ball 33 is caught between the through hole 311 and the positioning hole 321 may be used in the present disclosure, as long as the deformation may occur during the period when the through hole 311 is not overlapped with the positioning hole 321, so that the positioning ball 33 is received in the through hole 311, and the positioning ball 33 may be pushed after the through hole 311 is overlapped with the positioning hole 321. For another example, in some alternative embodiments, the spring 34 may be replaced with a spring, torsion spring, or the like.

In some embodiments, the number of positioning holes 321 in the outer tube 32 on the same cross section perpendicular to the axis may also be three, four, etc. Correspondingly, the through holes 311 on the inner tube 31 and the positioning balls 33 in the through holes 311 may be plural (e.g. three, four, etc.), and the principle and effect thereof are similar, and will not be described herein.

Through the telescopic sliding of the inner tube 31 and the outer tube 32 in the connecting rod 3, a user can adjust the exercise stick according to the height of the user, so that the standard of the exercise action is improved. For example, when the exercise stick is used for performing actions such as double-stick reverse rowing, the height of the exercise stick handle 1 should be equivalent to the height of a user, so that the corresponding muscle group of the body can be conveniently mobilized, and when the single-leg Romania hard pulling and the like are performed, the height of the exercise stick can be adjusted to the height of the shoulder of the user, so that the exercise stick can be more effectively matched with the actions, and the training of the specific muscle group is enhanced.

Fig. 5 illustrates an overall structural schematic view of a locking and fixing assembly of a gym pole according to an embodiment of the present disclosure, and fig. 6 illustrates an exploded view of the locking and fixing assembly of the gym pole according to an embodiment of the present disclosure. As shown in fig. 5 and 6, in some embodiments, a locking positioning assembly 5 is further disposed between the inner tube 31 and the outer tube 32, and the locking positioning assembly includes an outer fixing portion 51 coupled to an end of the outer tube 32, and a fastening portion coupled to the outer fixing portion 51, where the fastening portion is sleeved outside the inner tube 31 and adapted to be fastened outside the inner tube 31 by reducing an inner diameter, so as to fix the fastening portion to the inner tube 31. The outer fixing portion 51 is coupled with the outer tube 32, and the fastening portion is coupled with the inner tube 31, so that the locking and positioning assembly 5 can fix the inner tube 31 with the outer tube 32.

In some embodiments, the locking and positioning assembly 5 further includes an inner fixing portion 52, where the inner fixing portion 52 is sleeved on the inner tube 31, and coupled with the outer fixing portion 51 through a threaded connection. The inner peripheral surface of the inner fixing part 52 is provided with a chamber for accommodating the locking part, the side wall of the chamber is a conical surface, and the necking end of the conical surface is positioned at one end of the inner fixing part 52 far away from the outer fixing part 51. When the inner fixing portion 52 and the outer fixing portion 51 are brought close to each other by screwing, the locking portion is received in the cavity of the inner fixing portion 52, and as the inner fixing portion 52 approaches the outer fixing portion 51, the tapered surface of the cavity pushes the fastening portion against and tightens the fastening portion in the axial direction of the inner tube 31. The fastening portion is tightened on the inner tube 31 while being clamped by the outer fixing portion 51 and the inner fixing portion 52. So that the locking position further secures the inner tube 31 with the outer tube 32.

Fig. 7 shows a schematic view of other forms of the locking and positioning assembly 5 of the exercise bar of the embodiment of the present disclosure, and fig. 8 shows a schematic view of the locking and positioning assembly 5 of the exercise bar of the embodiment of the present disclosure in a locked state and an unlocked state. As shown in fig. 7 and 8, in some alternative embodiments, the fastening portion may also take the form of a hoop, for example, the fastening portion is coupled to the outer fixing portion 51 (for example, the fastening portion and the outer fixing portion 51 may be integrally formed), the fastening portion is sleeved on the outer side of the inner tube 31, and the fastening portion has a notch for facilitating deformation of the fastening portion. One side of the notch of the fastening part is pivoted with a cam, the cam is coupled with a handle 1 for driving the cam to rotate, the other side of the notch of the fastening part opposite to the cam is coupled with a pressing sheet, a connecting pin penetrates through the pressing sheet, and one end of the connecting pin is coupled with the cam mulberry. When the wrench rotates to drive the cam to rotate, the cam drives the connecting pin to move, the pressing piece is pulled towards the cam direction, and the fastening part is tightened on the inner tube 31, so that the inner tube 31 and the outer tube 32 are fixed.

The setting of locking positioning assembly 5 has improved the fixed stability of inner tube 31 and outer tube 32 to when the body-building cane extension, locking positioning assembly 5 can reduce the rocking of inner tube 31 and outer tube 32 along radial direction, has improved the stability of body-building cane. When the exercise cane is shortened and stored, the locking and positioning assembly 5 can also independently fix the inner tube 31 and the outer tube 32 (namely, the inner tube 31 and the outer tube 32 are fixed without depending on a fixing piece), so that the storage convenience of the exercise cane is improved.

Fig. 9 shows a schematic overall structure of the anti-slip cover 6 of the fitness stick according to the embodiment of the present disclosure. As shown in fig. 9, in some embodiments, the outer peripheral surface of the outer tube 32 is further sleeved with an anti-slip sleeve 6, the peripheral surface of the anti-slip sleeve 6 is provided with a notch 61 along the axial direction of the anti-slip sleeve 6, and the anti-slip sleeve 6 can be wrapped on the outer peripheral surface of the outer tube 32 through the notch 61, so that on one hand, the friction force when the outer tube 32 is gripped can be improved, and on the other hand, the situation that the hand is frozen when the hand is used in winter can be reduced.

It was mentioned above that the connecting rod 3 is arranged between the handle 1 and the tip 2, and fig. 10 shows a schematic overall structure of the handle 1 of the fitness stick according to the embodiment of the present disclosure. As shown in fig. 10, in some embodiments, the handle 1 may be coupled to the outer tube 32. Specifically, a cannula is coupled to the side of the handle 1 facing the outer tube 32, and the cannula is inserted into the outer tube 32. The cannula and the outer tube 32 may be connected by interference fit at the time of insertion, may be connected by a fastener such as a pin, a rivet, or a bolt, or may be fixed by gluing, welding, or the like.

The handle 1 is suitable for a user to grip by hand or pedal by foot. In order to improve the comfort of the fitness pole in use, in some embodiments the handle 1 as a whole has the shape of an isosceles trapezoid, with the upper base 11 of the isosceles trapezoid being arranged towards the connecting rod 3. The isosceles trapezoid upper base 11 can be coupled to the cannula by welding, bonding, or the like. The four corners of the isosceles trapezoid are provided with arc chamfers so as to be convenient for a user to grasp. The user can grasp the upper sole 11 or the lower sole 12 of the handle 1 and the like to perform actions such as double-stick static squat-pull-up, double-stick reverse rowing and the like, and can also stretch the sole into the handle 1 and tread on the upper sole 11 to perform actions such as dead worm and the like.

In some embodiments, in order to facilitate the user's training of various activities using the fitness stick, the length of the upper sole 11 in the handle 1 may be not less than 50mm in consideration of the palm size and sole size of the user. Optionally, the length of the lower base 12 may be 150mm-250mm. Optionally, the distance from the upper base 11 to the lower base 12 may be 80mm-180mm. Optionally, the chamfer radius of the four corners of the isosceles trapezoid may be 30mm-70mm.

In some embodiments, the handle 1 may be further coated with a flexible material such as sponge, rubber, polyurethane foam, etc. to improve the comfort of the handle 1 in use.

Fig. 11 shows an overall schematic view of the shock rod 4 of the fitness stick according to the embodiment of the present disclosure, and fig. 12 shows an internal structural sectional view of the shock rod 4 of the embodiment of the present disclosure. As shown in fig. 11 and 12, the shock absorbing rod 4 is disposed between the connecting rod 3 and the tip 2, and includes a spring chamber 41, a slip rod 42 slidably connected to the spring chamber 41 in the axial direction and a shock absorbing spring 43 disposed inside the spring chamber 41. One end of the shock absorbing spring 43 is coupled in the spring chamber 41, and the other end is coupled with the slide rod 42. The spring chamber 41 and the sliding rod 42 are coupled with the tip 2 and the connecting rod 3, respectively. For example, in some embodiments, the spring cavity 41 of the shock rod 4 is coupled with the inner tube 31 of the connecting rod 3 and the slip rod 42 is coupled with the tip 2. Vibration generated when the crutch head 2 is abutted with a support is firstly transmitted to the sliding rod 42 through the crutch head 2, at the moment, the sliding rod 42 slides towards the direction of the spring cavity 41, the end part of the sliding rod 42 is abutted with the cushioning spring 43, and the cushioning spring 43 is compressed, so that the cushioning spring 43 can absorb the vibration generated when the crutch head 2 is abutted with the support, the vibration is transmitted to the connecting rod 3 and the handle 1, the impact of the vibration to the shoulder joint and the wrist joint of a user is reduced, and the user is protected.

In some embodiments, the outer circumferential surface of the spring cavity 41 is provided with external threads, the inner circumferential surface of the inner tube 31 is provided with internal threads matching the external threads, the spring cavity 41 can be inserted into the inner tube 31, and the spring cavity 41 is coupled and fixed with the inner tube 31 through the threaded matching between the inner tube 31 and the spring cavity 41. In other embodiments, the spring chamber 41 may be fixedly coupled to the inner tube 31 by welding or integral molding.

As shown in fig. 12, in some embodiments, the shock absorbing rod 4 further includes a first baffle 44 coupled to an inner wall of the spring cavity 41 and a second baffle 45 coupled to an outer circumferential surface of the sliding rod 42, the shock absorbing spring 43 is disposed between the first baffle 44 and the second baffle 45, and two ends of the shock absorbing spring 43 are respectively abutted against the first baffle 44 and the second baffle 45. The first baffle plate 44 and/or the second baffle plate 45 may slide along the axis of the inner tube 31 to change the interval between the first baffle plate 44 and the second baffle plate 45, thereby changing the precompression degree of the cushioning spring 43 in the spring cavity 41, and further adjusting the shock absorbing performance of the cushioning spring 43.

In some embodiments, the first baffle 44 is at least partially annular or at least partially circular, and the outer peripheral surface of the first baffle 44 is in threaded engagement with the inner peripheral surface of the spring cavity 41, and by controlling the rotation of the first baffle 44 within the spring cavity 41 about the axis of the spring cavity 41, the position of the first baffle 44 within the spring cavity 41 in the axial direction can be varied, thereby adjusting the degree of precompression of the cushioning spring 43. Further, the first baffle plate 44 is further provided with an adjusting hole, for example, a cross section of the adjusting hole perpendicular to the axial direction may be a regular hexagon, so that a user can control the rotation of the baffle plate through the adjusting hole, and further change the coupling position of the baffle plate in the spring cavity 41.

As shown in fig. 12, in some embodiments, the shock rod 4 further includes a stop ring 46, and the stop ring 46 is coupled to the end of the spring cavity 41 facing the tip 2 and limits the sliding range of the sliding rod 42 by being locked with the second blocking piece 45. In some embodiments, the limiting ring 46 is in threaded connection with the end of the spring cavity 41, so that the distance between the first baffle 45 and the first baffle 44 can be adjusted by controlling the relative rotation of the limiting ring 46 and the spring cavity 41, and further the compressed degree of the damping spring 43 is changed, and the performance of the damping spring 43 on shock absorption is adjusted.

In some embodiments, the side of the tip 2 facing the shock rod 4 is provided with a mounting groove 21, and the end of the sliding rod 42 is inserted into the mounting groove 21, so that the shock rod 4 is coupled with the tip 2. The sliding rod 42 and the mounting groove 21 of the tip 2 can be fixed by interference fit, or can be fixed by means of fasteners such as bolts, gluing, and the like.

In some embodiments, the side of the tip 2 facing away from the cushioning rod 4 is further provided with an anti-slip surface for contacting with a support, for example, the anti-slip surface may be made of rubber, and the anti-slip surface is provided with a plurality of grooves which are arranged in a staggered manner, so that friction force is increased, and water on the surface of the support can be discharged, thereby reducing the slipping condition of the tip 2 on the surface of the support.

In some embodiments, the fitness stick further comprises a heart rate sensor, which can detect heart rate by means of electrocardio or by means of photoelectricity. In some embodiments, the heart rate sensor is in the form of an electrocardiograph, and at least two sensors are mounted on the corresponding exercise pole at the handle 1 and/or the outer tube 32, so that the exercise pole can detect heart rate information of the user in real time when the user holds the sensors of the exercise pole with both hands. In some alternative embodiments, the heart rate sensor is in the form of a photoelectric sensor, which may be arranged at any location on the fitness pole grip 1 or the outer tube 32, the sensor interface detecting the current heart rate of the user when the user is gripping on the sensor.

In some embodiments, the fitness pole may also include a metronome that may sound at a user-set frequency while the user is exercising to assist the user in completing the motion.

In some embodiments, the exercise cane may further include a display screen for displaying at least parameter information such as a user's current heart rate, a metronome preset frequency time, and the like. The display may be coupled to the handle 1 or alternatively.

In some embodiments, the exercise cane may further include a gyroscope for detecting positional information of the exercise cane, thereby determining a current exercise performed by the user based on the positional change of the exercise cane, or counting, e.g., counting or timing, the exercise performed by the user based on the positional change of the exercise cane.

The fitness pole may in some embodiments further comprise a micro-control unit for processing the above data, such as heart rate sensor, metronome, gyroscope, etc., and processing the data for display at least via a display.

In some embodiments, the exercise cane may further include an input module that inputs signals to the micro-control unit, such that the micro-control unit may display corresponding information according to a user's needs, and the input module may further cause the micro-control unit to enter a setup mode, such that parameters, such as metronome frequency, may be adjusted according to the user's needs.

In some embodiments, the input module may be a physical key, a touch control unit coupled to a display screen, or the like, in some embodiments, the input module may be further coupled to a gyroscope, and a user may hold the fitness stick with a hand to make a specific action, and the fitness stick senses a position change when the specific action, so as to input specific information to the micro control unit.

For example, the user lifts his hands flat, holds his hands together, and clamps the outer tube 32 of the exercise bar between his hands, while the length direction of the exercise bar is perpendicular to the horizontal plane, and the user hands rub the exercise bar back and forth, so that the exercise bar rotates back and forth around its own axis. When the micro control unit detects that parameters such as the angle, the rotation angular speed, the reciprocating rotation number and the like of the fitness stick output by the gyroscope reach a threshold value, the micro control unit judges that the fitness stick enters a setting mode, and further, in the setting mode, the micro control unit detects that the handle 1 swings to one side, namely, the setting value is determined to be increased or decreased.

In some embodiments, the fitness stick may further comprise a communication module, which may include bluetooth communication, wireless local area network communication, GPRS communication, 4G communication, 5G communication, etc. Through the communication module, the exercise cane can upload various data of a user when the user exercises with the exercise cane to external equipment, such as a cloud server or mobile equipment (e.g. a mobile phone). So that a user can sort various data during body building and accurately judge the body building condition.

Fig. 13 shows a schematic view of a power module of a fitness pole of an embodiment of the present disclosure. As shown in fig. 13, in some embodiments, the fitness pole may further comprise a power module to power at least the heart rate sensor, metronome, display, gyroscope, micro-control unit, input module, communication module. In some embodiments, the power module may include a battery, and in other embodiments the power module may also include a self-generating mechanism. For example, the self-generating mechanism may be used to convert the energy of the mutual slippage between the slippage rod 42 and the spring chamber 41 into electrical power during operation of the cushioning mechanism. For example, the self-generating mechanism may include a generator 49 coupled in the spring cavity 41, a gear set 48 is coupled to an input shaft of the generator 49, a rack 47 is coupled to the sliding rod 42, and when the sliding rod 42 slides in the spring cavity 41, the rack 47 drives the gear set 48 to rotate, and the gear set 48 drives the generator 49 to rotate, so that kinetic energy of sliding of the sliding rod 42 is converted into electric energy, and the electric energy is stored in the storage battery.

How the exercise bar assists the user in performing exercises will be described in detail below in connection with some exercise activities.

1) Static squat-pull-up of double sticks.

Target muscle group: latissimus dorsi, biceps brachii, forearm muscle group, quadriceps femoris, gluteus maximus.

Fig. 14 and 15 illustrate simplified schematic diagrams of embodiments of the present disclosure in two perspectives of a "double stick squat-pull-up" action using a fitness stick. As shown in fig. 14 and 15.

Static squatting of double sticks: the lower limbs are used as training targets, the length of the exercise crutch is adjusted to be close to the height of a user, then the user holds the handles of a pair of exercise crutch respectively by two hands, the crutch heads of the exercise crutch are enabled to be propped against the corners of the wall, then the body slowly squats backwards until the angle of the knee joint is close to 90 degrees, and the hip bending angle is smaller than 90 degrees, during the period, the upper limbs provide proper pulling force by grasping the exercise crutch, so that the pressure born by the knee joint during squatting is reduced. Not only the quadriceps is exercised during this action, but also the hip muscles are exercised. When the exerciser squats to approach to exhaustion, the exercise crutch can not only keep balance, but also help the exerciser to stand up more safely, which is very important for the old and the lower limb rehabilitation patients. Compared with a short exercise cane or crutch (for example, the length is 120cm and 150 cm), the exercise cane with the height similar to that of a user can provide stable tension for the upper limb conveniently so as to reduce the pressure of the lower limb such as knee joint.

The double sticks pull up: the upper limb is used as a training target, and after the static squatting is completed, the body slowly stands up by the tension of the upper limb and the assistance of the lower limb, and returns to the initial posture before the static squatting action. The strength of the lower limbs is used as assistance to reduce the strength required by the upper limbs when the upper limbs are pulled up, and the difficulty of pull-up can be reduced, thereby effectively exercising the muscle groups of the upper limbs.

The double-stick static squat and the double-stick pull-up can be matched and can be trained according to the physical quality of a user.

2) Single stick static squat-pull-up.

FIG. 16 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick for "single stick static squat-pull-up". As shown in fig. 16.

Single stick static squatting: the double sticks are similar to squat, and the user adjusts the length of the exercise stick to be close to the height of the user. The two feet are slightly wider than the shoulders, the same exercise crutch is grasped by both hands (the same exercise crutch can be grasped by both hands positively, both hands reversely or both hands positively and reversely at the handle or the outer tube of the exercise crutch), the head of the exercise crutch is positioned between the two legs and submitted at the corner of the rear wall, and then the user squats slowly towards the rear of the body on the premise that the upper limbs provide pulling force. During this time, the upper limb provides the proper tension by grasping the fitness stick to reduce the compressive forces experienced by the knee joint when squatting.

Single stick static squatting: after the static squatting of the single stick is completed, the upper limbs of the user exert force, slowly pull up the body and gradually return to the treatment posture before the static squatting of the single stick. During this time, the user's lower limbs are slowly forced, assisting in body lifting.

Similar to the double-stick static squat-pull-up, the single-stick static squat-pull-up can respectively exercise muscle groups of lower limbs and upper limbs, is close to a body-building stick with height, is convenient for a user to hold, reduces exercise difficulty, improves exercise safety, and is more suitable for old people or rehabilitation people.

3) Double sticks are used for rowing in opposite directions.

FIG. 17 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness pole for motion "double pole reverse rowing". As shown in fig. 17.

The user double-shaft holds the two body-building crutch handle parts respectively, the crutch heads of the body-building crutch are propped against the corners backwards, the feet respectively stride forward by one step, then the body is leaned backwards on the premise that the upper limbs keep the tensile force, and then the upper limbs pull up the body. This action can cover most of the muscle groups of the back while training the upper limb muscles. The body-building crutch handle is designed to enable the wrist of an exerciser to always keep a neutral position for doing the action, so that the risk of wrist injury is reduced.

4) The single arm is lifted obliquely.

FIG. 18 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick to perform a "single arm diagonal lift". As shown in fig. 18.

The arms of the user on one side exert a force obliquely downward and rearward (using the relatively strong latissimus dorsi and triceps) to act as resistance, and the shoulder exerting arms on the other side are raised obliquely upward. This action stimulates the shoulder muscles more effectively than conventional dumbbell front and side lifts because the resistance is always parallel to the arm path due to shoulder contraction, the shoulder remains high resistance all the time, unlike a dumbbell which always applies vertical downward resistance, and only gets maximum resistance when the large arm is parallel to the ground.

When doing this, the obliquely elevated hand needs to be grasped at the upper bottom of the fitness pole handle, and if grasped on the fitness pole body, i.e. on the pipe linked below the handle, the large arm will be excessively rotated outwards or inwards, thus causing shoulder damage.

5) The traveling curved arm is depressed.

Fig. 19 and 20 show simplified schematic diagrams of embodiments of the present disclosure in two states of motion "traveling crank down" using a fitness stick. As shown in fig. 19 and 20.

The user holds the handles of the two fitness sticks respectively by the hands, and makes the heads of the fitness sticks backwards press against the corners of the walls, and then pushes the gravity center of the exerciser to move forwards by the latissimus dorsi and triceps brachii, and the lower limbs with much larger relative strength act as resistance.

6) Single leg romania hard pull.

FIG. 21 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness pole to perform an action "one leg Romania hard pull". As shown in fig. 21.

The user performs hip bending action on the ground contact side of a single foot, the attention of the action is focused on the hip muscle on the ground contact side, and the body is controlled to be stable by the hip muscle on the ground contact side. This action has difficulty in compensating for other muscles such as bending down, and the other arm and leg assist in balancing, which reduces target gluteus muscle irritation. The fitness stick can help the body of the exerciser and the arms and legs on the other side form a triangle to form a rigid body, so that the attention is returned to the gluteus muscle of the target muscle group. The upper bottom of the handle is propped against the foot surface, so that the round stick head is more stable and has small pressure intensity.

7) The quadriceps of the sitting posture are flexed and stretched.

FIG. 22 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick for an action "sitting quadriceps flexor extension". As shown in fig. 22.

The user sits on the chair, holds in the hand and is held in the body-building cane one end that is close to the cane head to make the lower bottom of body-building cane butt at the instep, knee joint rotates this moment, and the shank lifts up, and the weight that latissimus dorsi and arm received is as training resistance. The self-sensing type electric resistance force adjusting device is particularly suitable for the elderly and rehabilitation patients, and the resistance force is adjusted at any time along with self-sensing, so that the self-sensing type electric resistance force adjusting device is safe and effective.

8) The tibialis anterior is flexed and stretched in a sitting position.

FIG. 23 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick for motion "sitting tibialis anterior flexion and extension". As shown in fig. 23.

The user sits on the chair, holds in the hand and is held in the body-building cane one end that is close to the cane head to make the lower bottom of body-building cane butt at the instep, use the heel that keeps at this moment and land, rotate the ankle joint, make the tiptoe lift, the gravity that latissimus dorsi and arm received is as training resistance. The self-sensing type electric resistance force adjusting device is particularly suitable for the elderly and rehabilitation patients, and the resistance force is adjusted at any time along with self-sensing, so that the self-sensing type electric resistance force adjusting device is safe and effective.

9) Dead insects.

FIG. 24 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick to perform an action "dead worm". As shown in fig. 24.

Dead insects are a classical action of exercising the abdominal core strength and are also commonly used for rehabilitation training of patients with spine related diseases. Some exercisers have poor physical coordination ability and poor core strength and cannot finish the action, the exercise can be finished with the aid of the exercise cane, the exercisers sit on the cushion, the waist sticks to the cushion, the feet step on the lower bottom edge of the handle, the hands on the same side grasp one end of the exercise cane, which is close to the cane head, and the hands and the feet on the two sides respectively move in opposite directions, so that the exercise cane can share the tension applied to a part of abdomen to help the exercisers finish the action, and the exercise is a reduced-order insect type exercise cane.

For higher-order trainers, their core strength is very strong, requiring increased tension on the abdomen. The hands and feet on the same side exert force towards the center along the body-building crutch, so that the tension applied to the abdomen of a trainer can be increased, and the abdomen can be stimulated more strongly.

10 Longitudinal jump, in-situ ultra jogging.

FIG. 25 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness pole for motion "single pole skip, in situ ultra jogging". FIG. 26 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness pole for motion "double pole skip-forward, in-situ ultra jogging". As shown in fig. 25 and 26.

Single stick longitudinal jump, in-situ ultra jogging: the user places the body-building cane in front of the body, holds the body-building cane at an outer tube or a handle by two hands, then jumps or jogges in situ, and the upper limbs in the movement process can reduce the impact force applied to the ankle joints and the lumbar vertebrae of the knee joint by holding the body-building cane, so that the movements of jumping and jogging in situ are more friendly to the heavy person, and the damage risk is reduced. Can stretch the spine during jumping, and increase the health of the spine. The body-building crutch handle is designed to enable the wrist of an exerciser to always keep a neutral position for doing the action, so that the risk of wrist injury is reduced.

Double-stick longitudinal jump and in-situ ultra-jogging: similar to single-pole longitudinal jump and in-situ ultra-jogging, a user holds one exercise pole by two hands respectively, a pair of exercise poles are supported on two sides of the user, and the impact force on knee joints, ankle joints and lumbar vertebrae is reduced through the support of upper limbs and the exercise poles in the in-situ longitudinal jump or jogging process of the user.

11 A step is stepped on in situ.

FIG. 27 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness pole to perform an action "in situ stepping". As shown in fig. 27.

The handles of the gymnastic stick are respectively held by the hands, a pair of gymnastic exhibits are respectively supported on the body twice, and then the steps are climbed under the auxiliary effect of supporting the gymnastic stick by the upper limbs. The action can help old people and rehabilitation patients to train lower limb strength and knee joints.

12 The uppermost stretch).

FIG. 28 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick to perform an action "uppermost stretch". As shown in fig. 28.

The user holds the two ends of the body-building crutch with both hands respectively, bends over and holds one side hand at one end of the crutch head to go to the ankle at the opposite side, and the other side hand lifts up backward. This is an efficient and comprehensive whole body stretching action that stretches the user's arms, shoulders, chest, back, spine and rear thigh. The gymnastic pole acts as a scaffold in this stretching action, providing horizontal back-to-head and upward force for stretching and twisting of different parts of the body. The upper bottom or the lower bottom of the high hand main grip body-building crutch handle always keeps a neutral position, and the risk of wrist injury is reduced.

13 A rotating body is pushed obliquely upwards.

FIG. 29 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick to perform an action "turn-around-up". As shown in fig. 29.

The user holds the two ends of the exercise crutch with both hands, lifts one hand holding the handle of the exercise crutch to the upper back of the body, keeps the two feet stationary, and rotates the body, which is a stretching exercise very suitable for the elderly, and he can rotate the spine, stretch the chest, shoulders and arms. The body-building crutch handle is designed to enable the wrist of an exerciser to always keep a neutral position for doing the action, so that the risk of wrist injury is reduced.

14 Straight arm flexion hip).

FIG. 30 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick for motion "straight arm flexion. As shown in fig. 30.

The user holds the handles of a pair of gymnastics sticks with both hands respectively, the heads of the gymnastics sticks extend forwards and prop against corners of the wall, the waist and the back are kept straight, and the arms are bent backwards. This is an action that can simultaneously stretch the popliteal muscle, hip muscle, thoracic vertebra, shoulder and chest. The body-building crutch can avoid the error of bending the hip by bending the waist.

15 Stretching the adductor muscle group in the kneeling posture.

Figure 31 shows a simplified schematic of an embodiment of the present disclosure using a fitness stick to perform an action "kneeling adductor stretching". As shown in fig. 31.

The user holds the exercise cane handle with one hand and holds the outer tube with the other hand, then kneels down with the knee joint on the same side of the hand holding the handle, and the upper limbs keep a stretched state, and the knees contacted with the ground and the soles are in the same straight line. The action can stretch the thigh adductor muscle group, the gravity center of the user can easily deviate from the straight line formed by the knee joint and the sole at the other side when the user performs the training of the action, and the body-building crutch can help the user to keep stable and balanced body when stretching. The body-building crutch handle is designed to enable the wrist of an exerciser to always keep a neutral position for doing the action, so that the risk of wrist injury is reduced.

16 Kneeling position Tianma meteor fist.

Figure 32 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick to perform the action "kneeling position Tianma meteor fist". As shown in fig. 32.

The user holds the body-building crutch handle by one hand, holds the outer tube by the other hand, kneels down with the knee joint on the same side of the holding handle, takes a step forward by the other side foot, and keeps the upper limb on one side of the holding handle stretched. This action stretches the quadriceps, qu Kuanji group, latissimus dorsi, and shoulder. The fitness pole provides a highly suitable gripping point for the user while increasing the ground fulcrum to help maintain balance. The body-building crutch handle is designed to enable the wrist of an exerciser to always keep a neutral position for doing the action, so that the risk of wrist injury is reduced.

17 Reverse plate.

FIG. 33 illustrates a simplified schematic of an embodiment of the present disclosure using a fitness stick to act "reverse plate". As shown in fig. 33.

The user sits on the ground, the feet naturally extend forwards, the hands are respectively held at the handles of the body-building crutch, the hands are lifted up, the heads of the body-building crutch are propped against the corners of the back of the body, the body is bent backwards, and the stretching of the upper limbs is kept. This action can allow the back and the back of the shoulder of the user to maintain tension for exercise and enhance, and can improve the bad posture of the user with chest and humpback. The body-building crutch provides a gripping point with proper height for a user, and the problem of excessive internal rotation and external rotation of a big arm can be avoided when the user grips the upper bottom of the handle of the body-building crutch, so that the shoulder injury is avoided.

Fig. 34 and 35 illustrate schematic views of the fitness pad 7 and the fitness pole used in a fitness kit according to embodiments of the present disclosure, as shown in fig. 34 and 35, in some embodiments, a fitness kit is provided according to the present disclosure, including a fitness pole and a fitness pad 7. The exercise mat 7 includes a mat body 71 for being placed on the ground, and an anti-slip bag 72 disposed on the upper surface of the mat body 71, the anti-slip bag 72 being disposed near one end of the mat body 71 in the length direction, and the opening direction of the anti-slip bag 72 being near the middle of the mat body 71. When a user uses the fitness kit, the user can spread the pad body 71 on the ground and then stand on the upper surface of the pad body 71 and insert the head 2 of the fitness stick into the anti-slip bag 72, so that the anti-slip bag 72 can fix the head 2 of the fitness stick, the slip of the head 2 relative to the ground is avoided, and the safety of the user for exercising the fitness stick is improved. Exercise mat 7 may also cushion the user during the exercise to protect the user.

In some embodiments, exercise mat 7 further includes a layer of tear resistant material 73, tear resistant material 73 coupled to mat body 71 to increase the tensile capacity of mat body 71.

Fig. 36 is a schematic view showing the overall structure of a bungee cord of a fitness kit according to an embodiment of the present disclosure, and fig. 37 is a schematic view showing a state in which a fitness pad 7 and a fitness stick according to an embodiment of the present disclosure are wound up with the bungee cord. As shown in fig. 36 and 37, in some embodiments, the exercise kit further comprises a bungee cord, which may be detachably coupled at both ends to the ends of the exercise bar near the handle 1 and the head 2, so that the user may perform more exercise actions using the combination of the bungee and the exercise bar. After the fitness kit is used, the elastic rope can also be used for accommodating the fitness pad 7 and the fitness stick. Specifically, after the exercise mat 7 winds the exercise stick, the elastic rope can be tied around the periphery of the wound exercise mat 7, so that the exercise kit can be stored conveniently.

Fig. 38 and 39 show an overall structural schematic of the cleat 8 of the exercise kit of the embodiment of the present disclosure. As shown in fig. 38 and 39, in some embodiments, a fitness kit provided according to the present disclosure includes a fitness pole and a cleat 8, the cleat 8 may be disposed on the ground and rest against a corner, the cleat 8 including a block body 81 and at least one securing hole 82 disposed on the block body 81. The block body 81 may be made of a material having good frictional properties with respect to the ground, such as rubber, and the fixing hole 82 is provided to receive the tip 2 of the body-building stick to be inserted and fix the tip 2. The anti-skid blocks 8 are arranged, so that on one hand, the stability of the fixing of the crutch head 2 and the ground is improved, and the safety of a user when the user performs body-building actions by using the body-building crutch is improved. On the other hand, the anti-slip block 8 can also reduce the pressure of the tip 2 to the corner, thereby protecting the corner.

The foregoing description of implementations of the present disclosure has been provided for illustrative purposes, is not exhaustive, and is not limited to the implementations disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various implementations described. The terminology used herein was chosen in order to best explain the principles of each implementation, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand each implementation disclosed herein.

Claims (20)

1. A fitness stick comprising:

a handle (1) having an annular shape suitable for gripping by a hand;

a tip (2) adapted to abut a support to cause the fitness pole to assume a predetermined attitude;

a connecting rod (3) arranged between the handle (1) and the tip (2) for connecting the handle (1) and the tip (2) and adapted to adjust the overall length of the fitness stick by telescoping; and

a shock absorbing rod (4) arranged between the connecting rod (3) and the tip (2) and adapted to absorb shock when the tip (2) is in contact with the support, comprising:

a spring chamber (41);

The sliding rod (42) is penetrated in the spring cavity (41) and is connected with the spring cavity (41) in a sliding manner along the length direction of the exercise pole; and

and a damping spring (43) arranged in the spring cavity (41) and adapted to be pushed by the sliding rod (42) to deform to absorb shock during sliding of the sliding rod (42) in the spring cavity (41).

2. The fitness stick according to claim 1, characterized in that the shock absorbing rod (4) further comprises:

a first baffle (44) coupled to the inner wall of the spring cavity (41) and abutting against the first end of the damping spring (43);

a second baffle (45) coupled to the outer peripheral surface of the sliding rod (42) and adapted to abut against a second end of the shock-absorbing spring (43) opposite to the first end;

the first baffle plate (44) and the second baffle plate (45) are suitable for adjusting the compression degree of the shock absorption spring (43) by changing the distance.

3. The fitness stick according to claim 2, characterized in that the first blocking piece (44) is in threaded connection with the inner wall of the spring cavity (41), and the first blocking piece (44) is provided with an adjusting hole for rotating the first blocking piece (44).

4. Fitness stick according to claim 1, characterized in that the tip (2) comprises:

And a mounting groove (21) configured to accommodate insertion of a shock rod (4) and to couple the tip (2) with the shock rod (4).

5. Fitness stick according to one of claims 1 to 4, characterized in that the connecting rod (3) comprises:

an inner tube (31);

an outer tube (32) which is sleeved outside the inner tube (31) and slides along the axial direction with the inner tube (31);

a plurality of positioning holes (321) which are arranged on the side wall of the outer tube (32) and distributed along the axial direction of the outer tube (32) and penetrate the inner and outer side walls of the outer tube (32), wherein the plurality of positioning holes (321) are distributed along the length direction of the outer tube (32);

at least one through hole (311) arranged on a side wall of the inner tube (31) and adapted to coincide on an axis with any one of the positioning holes (321) of the plurality of positioning holes (321) in response to a relative sliding movement of the inner tube (31) and the outer tube (32); and

at least one positioning ball (33) is arranged in the through hole (311) and is suitable for being partially clamped into the positioning hole (321) after the through hole (311) is aligned with the positioning hole (321) in the radial direction so as to prevent the relative sliding of the inner tube (31) and the outer tube (32).

6. The fitness stick according to claim 5, characterized in that it further comprises a spring plate (34), which spring plate (34) is adapted to bend to store energy during misalignment of the positioning hole (321) with the through hole (311) in the radial direction and to release energy to drive the positioning ball (33) partly into the positioning hole (321) after alignment of the through hole (311) with the positioning hole (321) in the radial direction.

7. The fitness stick of claim 5, characterized in that the plurality of positioning holes (321) comprises:

a plurality of pairs of positioning holes (321), each pair of positioning holes being distributed on both sides of the outer tube (32) in a radial direction of the outer tube (32) and being arranged through on a side wall of the outer tube (32);

the at least one through hole (311) includes a pair of through holes (311), the pair of through holes (311) being penetratingly arranged on a side wall of the inner tube (31) in a radial direction of the inner tube (31);

the at least one positioning ball (33) comprises a pair of positioning balls (33) adapted to be respectively arranged in the pair of through holes (311) and to be partially clamped into the positioning holes (321) after the through holes (311) are aligned with the positioning holes (321) in the radial direction so as to block the relative sliding of the inner tube (31) and the outer tube (32), and the gymnastic cane further comprises: the elastic piece (34) is in a V shape as a whole, two ends of the elastic piece (34) are respectively coupled with the pair of positioning balls (33) and are suitable for being bent to store energy during the period that the through hole (311) is not aligned with the positioning hole (321) in the radial direction, and the through hole (311) is aligned with the positioning hole (321) in the radial direction, and then the energy is released to push the positioning balls (33) to be partially clamped into the positioning hole (321).

8. Fitness stick according to claim 5, characterized in that the spring chamber (41) is inserted inside the inner tube (31) and is coupled with the inner tube (31).

9. Fitness stick according to claim 5, characterized in that the handle (1) as a whole has the shape of an isosceles trapezoid, and the upper base (11) of the isosceles trapezoid is coupled with the outer tube (32).

10. The fitness stick of claim 9, wherein the four corners of the isosceles trapezoid are respectively provided with a chamfer.

11. Fitness stick according to claim 5, characterized in that a locking and positioning assembly (5) is also arranged between the outer tube (32) and the inner tube (31), the locking and positioning assembly (5) comprising:

an outer fixing part (51) coupled to an end of the outer tube (32); and

and a fastening portion (53) coupled to the outer fixing portion (51) and adapted to be coupled to the inner tube (31) by being tightened on the outer peripheral surface of the inner tube (31) by reducing the inner diameter.

12. The fitness pole of any one of claims 1-4, 6 and 8-11, further comprising:

and the anti-skid sleeve (6) is movably sleeved on the connecting rod (3).

13. Fitness stick according to claim 12, characterized in that the anti-slip cover (6) is provided with a gap (61) along the axial direction of the anti-slip cover (6).

14. The fitness pole of any one of claims 1-4, 6, 8-11 and 13, characterized in that the overall length of the fitness pole is 150cm-185cm.

15. The fitness pole of any one of claims 1-4, 6, 8-11 and 13, further comprising at least one of:

a heart rate sensor coupled to at least one of the handle (1) and the connecting rod (3) adapted to detect a heart rate of a user when using the fitness stick for exercise;

a metronome coupled to said handle (1) or to said connecting rod (3) and adapted to produce a beat sound capable of adjusting the frequency when the user uses said fitness stick;

and the gyroscope posture sensor is suitable for detecting the movement posture of the exercise cane.

A display configured to display at least data acquired by a sensor on the fitness pole or state information of the fitness pole;

a communication module adapted to transmit at least data received by the sensor on the fitness stick to an external device; and

a micro-control unit coupled to the sensor of the fitness pole and determining at least one physical parameter of the user from the data sensed by the sensor.

16. The fitness pole of claim 15, further comprising:

the power supply module comprises a self-generating module which is suitable for converting the energy of the mutual sliding between the sliding rod (42) and the spring cavity (41) into electric power; and

a battery for storing at least said electricity and for powering the electronic components in said fitness pole.

17. The fitness pole of claim 16, wherein the self-generating mechanism comprises:

a generator (49) comprising an input shaft coupled with a gear set (48); and

a rack (47) coupled to the slipping bar (42) and to the gear set (48) to drive a generator (49) to generate electricity by movement of the slipping bar (42).

18. A fitness kit comprising:

the fitness stick of any one of claims 1-17; and

at least one of a gymnastic mat (7) and a non-slip block (8), wherein the gymnastic mat (7) comprises:

a pad body (71); and

-a non-slip pocket (72) coupled to the pad body (71) adapted to fix the tip (2) during insertion of the tip (2) into the non-slip pocket (72);

the non-slip block (8) comprises:

a block body (81); and

At least one fixing hole (82) arranged on the block body (81) and adapted to fix the tip (2) during insertion of the fitness stick.

19. The exercise kit of claim 18, wherein the exercise mat (7) further comprises:

-a layer of tear resistant material (73), the layer of tear resistant material (73) being coupled to the pad body (71).

20. The exercise kit of claim 18 or 19, further comprising a bungee cord configured at least for winding up the exercise mat (7).