CN112402173A

CN112402173A - Double amplitude rhythm method and device

Info

Publication number: CN112402173A
Application number: CN201910785013.7A
Authority: CN
Inventors: 陈宇助; 黄正训
Original assignee: B Green Technology Co Ltd
Current assignee: B Green Technology Co Ltd
Priority date: 2019-08-23
Filing date: 2019-08-23
Publication date: 2021-02-26

Abstract

The invention relates to a double-amplitude rhythm device, comprising: a base provided with a plurality of support rods; a primary and secondary platform set, which is sleeved on the upper part of the base, and a plurality of bearing seats are arranged at the lower part of the primary and secondary platform set; several link rod sets, which are pivoted to the supporting rods on the base, and several pull rods with the same length are pivoted to a first cross rod, and the top end of each pull rod is pivoted to a part of bearing seats of the primary and secondary platform sets, and a second cross rod is pivoted to the other bearing seats; and a power unit, extending from any position of the connecting rod group and connecting a power input rod, providing the mother platform and the son platform with relative motion with different amplitudes by means of the power input rod, and providing rhythm with different amplitudes to stimulate the skeletal muscles of the body so as to achieve the effect of passive motion.

Description

Double amplitude rhythm method and device

Technical Field

The invention relates to a sports fitness device, in particular to the technical field of a double-amplitude rhythm device.

Background

At present, the conventional known vibration training device mainly includes a set of vibration stepping platform, the vibration stepping platform has a housing and a vibration generator disposed in the housing, the vibration generator can be a motor-driven eccentric block or a cam to generate vibration wave, sound wave transmission, seesaw type vibration, or link transmission, so that the vibration stepping platform can generate vibration effect, such as taiwan patent No. 107122202 "vibration body-building machine".

When the traditional vibration training machine is used, the traditional vibration training machine is placed on the ground, a user stands on the vibration stepping platform by two feet or one foot, and the vibration generator built in the vibration stepping platform generates vertical vibration effect by setting the vibration frequency, amplitude and the like, and transmits the vibration to other parts of the body through the sole of the user to vibrate muscles of the whole body.

However, the vibration platform of the conventional vibration training machine can only be used as a single amplitude rhythm, and cannot generate different amplitude rhythms at the same time, so that only a single amplitude rhythm is provided for the user, and the stimulation of the skeletal muscle pattern of the body is single, and the improvement is needed.

Disclosure of Invention

Accordingly, in view of the above problems, the present inventors have developed a double-amplitude rhythm method and apparatus in accordance with the present invention, and therefore, the present invention is mainly aimed at: providing an exercise device having dual amplitude rhythms; therefore, the secondary objectives of the present invention are: a plurality of motion mechanisms with double amplitude configuration and dynamic configuration are provided.

In order to achieve the above purpose, the present invention uses the following technical means:

a dual amplitude rhythm method, comprising: a base construction step, which is provided with a plurality of supporting rods, wherein the plurality of supporting rods are set to be different in height; a primary and secondary platform assembly step, which is sleeved above the base, wherein a primary platform which is horizontal is provided with a through hole, and a secondary platform which is horizontal and protrudes out of the through hole is arranged on the through hole; a plurality of connecting rod set building steps, a first fulcrum and a second fulcrum are formed at any position of a first cross rod and a second cross rod which are pivoted on each supporting rod on the base, a height difference is formed between the first cross rod and the second cross rod, the first cross rod and the second cross rod are pivoted with a connecting rod, a plurality of pull rods with the same length are pivoted at two sides of the first fulcrum of the first cross rod at the lower position, the top ends of the pull rods are pivoted with partial bearing seats of the primary-secondary platform set, and the second cross rod is pivoted with the rest bearing seats; and a power input rod establishing step, wherein the power input rod is pivoted at any position of the first cross rod, the second cross rod, the connecting rod or the pull rod, so that the power input rod drives each connecting rod group, and the connecting rod group further links the mother platform and the son platform to simultaneously perform vertical motion with different amplitudes.

In the double-amplitude rhythm method, the pivoting positions of the connecting rod group and the bearing seats have the same height position.

In the double-amplitude rhythm method, the pull rods move with smaller amplitude when being closer to the first fulcrum and move with larger amplitude when being farther from the first fulcrum; and each bearing seat connected with the second cross bar moves with smaller amplitude when being closer to the second fulcrum and moves with larger amplitude when being farther from the second fulcrum.

The invention relates to a double-amplitude rhythm device, comprising: a base, which is provided with a plurality of supporting rods, and the supporting rods are set to be different in height; a primary and secondary platform set, which is sleeved on the base, and a horizontal primary platform is provided with a through hole, and a horizontal secondary platform protruding from the through hole is arranged on the through hole, and a plurality of bearing seats are arranged below the primary and secondary platform set; several link sets, the pivot joint is in every fulcrum bar of the base set up a first horizontal pole and a second horizontal pole to form a first fulcrum and a second fulcrum, and form a difference in height and pin joint connecting rod between a first horizontal pole and a second horizontal pole, locate at the lower position the first horizontal pole pin joint has several tie rods of the same length again, and the top of every tie rod is in the partial bearing seat of the pin joint in the primary and secondary platform set, another the second horizontal pole pin joint with other bearing seats; and the power unit extends from any position of the connecting rod group to form a power input rod.

The double-amplitude rhythm device is characterized in that the connecting rod group is provided with two groups and is arranged on two sides of the base, the other two power input rods are arranged, one ends of the two power input rods are respectively pivoted on the eccentric shafts at two ends of a rotating shaft, and the other ends of the power input rods are pivoted on any one of the first cross rod, the second cross rod, the connecting rod or the pull rod except the first fulcrum and the second fulcrum.

In the double-amplitude rhythm device, each connecting rod group is pivoted with each bearing seat so as to be connected with the primary and secondary platforms.

In the double-amplitude rhythm device, the primary-secondary platform set is provided with a plurality of bearing seats corresponding to the connecting rod set, and the bearing seats are respectively connected with a plurality of ribs arranged below the primary-secondary platform set.

In the double-amplitude rhythm device, each pull rod moves with smaller amplitude when being closer to the first fulcrum and moves with larger amplitude when being farther from the first fulcrum; and each bearing seat connected with the second cross bar moves with smaller amplitude when being closer to the second fulcrum and moves with larger amplitude when being farther from the second fulcrum.

In the double-amplitude rhythm device, the plurality of support rods arranged on the base corresponding to the connecting rod groups are respectively provided with a plurality of first support rods and a plurality of second support rods, and the height position of the first support rods is lower than that of the second support rods.

The invention achieves the above purpose, and can achieve the following effects:

1. the invention uses a plurality of connecting rod sets to drive the primary and secondary platform sets, so that the primary and secondary platforms can simultaneously generate rhythm with different amplitudes, such as: the feet stand on the mother platform and the child platform stand on the child platform and the child platform stand on the mother platform and the child platform stand on the mother platform can be switched and used by the user according to needs, so that the body skeletal muscles can be stimulated by the two different amplitude.

2. The invention can flexibly configure and pivot the support rods at different positions, the power input rods at different positions and the motor position of the connecting rod group according to the requirement of double amplitude degree so as to manufacture double amplitude rhythm devices with various forms and specifications. The pivot points of the first cross bar and the second cross bar can be arranged at an inner pivot joint-a pivot point-an outer pivot joint; fulcrum-inner pivot-outer pivot; inner pivot joint, outer pivot joint and pivot. And the other end of each power input rod can be pivoted at any position of the first cross rod, the second cross rod, the connecting rod or the pull rod except the first fulcrum and the second fulcrum.

Drawings

Fig. 1 is a perspective external view of the dual amplitude rhythm device of the present invention.

Fig. 2 is a perspective view of the internal structure of the dual amplitude rhythm device of the present invention.

Fig. 3 is a perspective view of another internal structure of the dual amplitude rhythm device of the present invention.

Fig. 4 is a plan view of the internal structure of the dual amplitude rhythm device of the present invention.

Fig. 5 is a schematic diagram of a dual amplitude rhythm device of the present invention.

FIG. 6 is a schematic diagram of the structure of the dual amplitude rhythm device of the present invention.

FIG. 7 is a simplified schematic diagram of another embodiment of the dual amplitude rhythm device of the present invention.

FIG. 8 is a diagram of an implementation of the dual amplitude pulse generator of the present invention.

FIG. 9 is a flow chart of a dual amplitude pulse method of the present invention.

Description of reference numerals: a dual amplitude rhythm device A; a base 1; a strut 11; a first strut 111; a second strut 112; a first branch point 1111; a second fulcrum 1112; a rotating shaft 42; an eccentric shaft 421; a primary and secondary platform group 2; a mother platform 21; a through hole 211; a sub-platform 22; a bearing seat 23; a pivot joint 231; the ribs 24; the first ribs 241; the second ribs 242; a linkage 3; the first cross bar 31; an outer pivot joint 311; an inner pivot joint 312; a second cross bar 32; an outer pivot joint 321; an inner pivot joint 322; (ii) a A connecting rod 33; a pull rod 34; a height difference h; a power unit 4; a power input rod 41; a rotating shaft 42; an eccentric shaft 421; a motor 43; a pulley 44; a belt 45; a dual amplitude pulse method B; a step a; b, performing a step; c, performing a step; and d, step d.

Detailed Description

Referring to fig. 1 to 4, the present invention relates to a dual amplitude rhythm device a for providing dual platforms simultaneously generating different amplitude rhythms for exercise by human rhythms, comprising: a base 1, a primary-secondary platform set 2, a connecting rod set 3 and a power unit 4.

As shown in fig. 2 and 4, the base 1 is provided with a plurality of upright supporting rods 11 with different lengths on the base 1, and the plurality of supporting rods 11 are respectively provided with a plurality of first supporting rods 111 and a plurality of second supporting rods 112, wherein the second supporting rods 112 are longer, so that when the first supporting rods 111 and the second supporting rods 112 are fixedly connected to the base 1, pivot points (a first supporting point 1111 and a second supporting point 1112) with different height positions are formed to connect the connecting rod set 3.

The primary and secondary platform set 2, as shown in fig. 1 and 4, is sleeved on the upper portion of the base 1, and a horizontal primary platform 21 is provided with a through hole 211, and the through hole 211 is provided with a horizontal secondary platform 22 protruding from the through hole 211; a plurality of bearing seats 23 of a plurality of pivoting positions 231 are arranged at the lower part of the primary-secondary platform group 2; furthermore, the plurality of bearing seats 23 of the primary-secondary platform set 2 corresponding to the connecting rod set 3 are respectively connected to a plurality of ribs 24 disposed below the primary-secondary platform set 2, and the plurality of ribs 24 are formed as a first rib 241 and a second rib 242, and each rib 24 can improve the structural strength of the primary-secondary platform set 2.

As shown in fig. 2 to 5, the plurality of link assemblies 3 are pivotally connected to a first cross bar 31 and a second cross bar 32 of each support rod 11 on the base 1, wherein a proper position of the first cross bar 31 is pivotally connected to a first pivot 1111 of the first support rod 111, and a proper position of the second cross bar 32 is pivotally connected to a second pivot 1112 of the second support rod 112, so that the first cross bar 31 and the second cross bar 32 form a height difference h and are then pivotally connected to a connecting rod 33 (fig. 5), i.e. the first cross bar 31, the second cross bar 32 and the connecting rod 33 form a Z-shaped link assembly 30; a plurality of pull rods 34 with the same length are pivoted on the first cross bar 31 to keep the freedom of movement of the linkage, the top end of each pull rod 34 is pivoted on a part of the bearing 23 corresponding to the primary-secondary platform set 1, and the second cross bar 32 is pivoted with the rest of the corresponding bearing 23; particularly, the linkage 3 may have two sets and is installed at two sides adjacent to the base 1. And

as shown in fig. 2 to 5, the power unit 4 extends from any one of the connecting rods 3 to form a power input rod 41; the two power input rods 41 are also provided, and one end of each power input rod 41 is respectively pivoted to the eccentric shafts 421 disposed at two ends of the rotating shaft 42, and the other end of each power input rod 41 is further pivoted to any one of the first cross bar 31, the second cross bar 32, the connecting rod 33 or the pull rod 34 except the first fulcrum 1111 and the second fulcrum 1112, in this embodiment, the power input rod 41 is pivoted to the middle of the second cross bar 32; particularly, the rotating shaft 42 is provided with a belt wheel 44, the belt wheel 44 is sleeved with a belt 45, the belt 45 is sleeved with a rotating axis of a motor 43, the motor 43 can drive the rotating shaft 42 to rotate by virtue of the belt 45 and the belt wheel 44, and the eccentric wheel 121 of the rotating shaft 42 drives the power input rod 41 to perform deflection motion; in particular, the motor 43, the shaft 42, the pulley 44, and the belt 45 are assembled and fixed to the base 1.

With the above components constituting the dual-amplitude rhythm device a of the present invention, as shown in fig. 4 and 5, in the present embodiment, when the first cross bar 31 and the second cross bar 32 of the linkage 3 are in a horizontal state, the plurality of pull rods 34, the plurality of seats 23, the first rib 241 connected to the outer pivot 311 of each first cross bar 31, and the plurality of seats 23 and the first rib 241 connected to the outer pivot 321 of the second cross bar 32 support the primary platform 21 in a horizontal position; similarly, the plurality of tie bars 34, the plurality of seats 23, and the second rib 242 connected to the pivot 312 of each first cross bar 31, and the plurality of seats 23 and the second rib 242 connected to the pivot 322 of the second cross bar 32 support the sub-platform 22 in a horizontal position, so that the sub-platform 22 slightly protrudes from the through hole 211 of the main platform 21.

Referring to fig. 4, 6 to 8, a user may stand on the primary and secondary platform set 2, then start the motor 43 to drive the rotating shaft 42 to rotate, the eccentric shafts 421 disposed at two ends of the rotating shaft 42 will drive the two power input rods 41 to swing, and then each power input rod 41 will drive the corresponding plurality of connecting rod sets 3, and particularly, the first cross rod 31 will swing with the first fulcrum 1111 of the first cross rod 111 as a fulcrum; similarly, the second cross bar 32 also swings around the second fulcrum 1112 of the second supporting rod 112, so that the tilting direction of the first cross bar 31 is opposite to the tilting direction of the second supporting rod 112 due to the swinging movement.

Thus, if the outer pivot 311 of the first cross bar 31 and the outer pivot 321 of the second cross bar 32 link the mother platform 21 to move downward, and the inner pivot 312 of the first cross bar 31 and the inner pivot 322 of the second cross bar 32 link the child platform 21 to move upward; if the outer pivot 311 of the first cross bar 31 and the outer pivot 321 of the second cross bar 32 link the mother platform 21 to move upward, the inner pivot 312 of the first cross bar 31 and the inner pivot 322 of the second cross bar 32 link the daughter platform 21 to move downward.

Because the inner pivot 312 and the inner pivot 322 are far away from the support rod, the inner pivot 312 and the inner pivot 322 will couple the sub-platform 22 to generate a larger amplitude; on the other hand, since the outer pivot 311 and the outer pivot 321 are far from the strut, the outer pivot 311 and the outer pivot 321 will link the mother platform 21 to generate a smaller amplitude; in other words, the user may stand on mother platform 21 if he or she desires a smaller amplitude workout, or on daughter platform 22 if he or she desires a larger amplitude workout.

By summarizing the double-amplitude rhythm device a of the present invention, the following double-amplitude rhythm method B of the present invention can be obtained, which, as shown in fig. 4, 5 and 8, includes: a base construction step a, a plurality of supporting rods 11 are arranged, and the plurality of supporting rods 11 are set to different heights; a primary and secondary platform assembly step b, which is sleeved above the base 1, wherein a primary platform 21 in a horizontal shape is provided with a through hole 211, and a secondary platform 22 in a horizontal shape and protruding out of the through hole 211 is arranged on the through hole 211; a plurality of link rod sets building step c, pivotally connecting to any one of a first cross rod 31 and a second cross rod 32 of each support rod 11 on the base 1 to form a first fulcrum 1111 and a second fulcrum 1112, and forming a height h difference between the first cross rod 31 and the second cross rod 32 and pivotally connecting a connecting rod 33, and pivotally connecting a plurality of pull rods 34 with the same length at two sides of the first fulcrum 1111 at the first cross rod 31 located at a lower position, and the top end of each pull rod 34 pivotally connecting to a corresponding partial bearing 23 of the primary-secondary platform set 2, and the second cross rod 32 pivotally connecting to a corresponding residual bearing 23; and a power input rod establishing step d, each power input rod 41 is pivoted to any one of the first cross rod 31, the second cross rod 32, the connecting rod 33 or the pull rod 34 except the first fulcrum 1111 and the second fulcrum 1112, so that the power input rod 4 drives the connecting rod set 3, the connecting rod set 3 is linked with the mother platform 21 and the son platform 22 to simultaneously perform vertical movements with different amplitudes, and thereby rhythms with different amplitudes are provided to stimulate the skeletal muscles of the body, so as to achieve the effect of passive movement.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A dual amplitude rhythm method, comprising:

a base construction step, which is provided with a plurality of supporting rods, wherein the plurality of supporting rods are set to be different in height;

a primary and secondary platform assembly step, which is sleeved above the base, wherein a primary platform which is horizontal is provided with a through hole, and a secondary platform which is horizontal and protrudes out of the through hole is arranged on the through hole;

a plurality of connecting rod set building steps, wherein any position of a first cross rod and a second cross rod which are arranged on each supporting rod of the base in a pivoted mode forms a first fulcrum and a second fulcrum, a height difference is formed between the first cross rod and the second cross rod, the first cross rod and the second cross rod are pivoted with a connecting rod, a plurality of pull rods with the same length are pivoted on the side of the first fulcrum of the first cross rod positioned at the lower position, the top ends of the pull rods are pivoted with partial bearing seats of the primary-secondary platform set, and the second cross rod is pivoted with the rest corresponding bearing seats; and

and a power input rod establishing step, wherein the power input rod is pivoted at any position of the first cross rod, the second cross rod, the connecting rod or the pull rod except the first fulcrum and the second fulcrum, so that the power input rod drives each connecting rod set, and the connecting rod set further links the mother platform and the son platform to simultaneously perform vertical motion with different amplitudes, thereby providing rhythm with different amplitudes to stimulate skeletal muscles of a body and achieving the effect of passive motion.

2. A dual amplitude pulse method as defined in claim 1, wherein: the connecting rod group is pivoted with each bearing seat to connect the primary and secondary platforms.

3. A dual amplitude rhythm method as claimed in claim 1 or 2, wherein: each pull rod moves with smaller amplitude when being closer to the first fulcrum and moves with larger amplitude when being farther from the first fulcrum; and each bearing seat connected with the second cross bar moves with smaller amplitude when being closer to the second fulcrum and moves with larger amplitude when being farther from the second fulcrum.

4. A dual amplitude rhythm device, comprising:

a base, which is provided with a plurality of supporting rods, and the supporting rods are set to be different in height;

a primary and secondary platform set, which is sleeved on the base, a primary platform in horizontal shape is provided with a through hole, a secondary platform in horizontal shape and protruding from the through hole is arranged on the through hole, and a plurality of bearing seats are arranged below the primary and secondary platform set;

several link sets, the pivot joint is in every fulcrum bar of the base set up a first horizontal pole and a second horizontal pole to form a first fulcrum and a second fulcrum, and form a difference in height and pin joint connecting rod between a first horizontal pole and a second horizontal pole, locate at lower position this first horizontal pole pivot have several tie rods, and the top of every tie rod is in the partial bearing seat of the pin joint in the primary and secondary platform set, another this second horizontal pole is pin joint with other bearing seats; and

the power unit extends from any position of the connecting rod group to form a power input rod;

by actuating the power input rod and driving each linkage, the linkage further links the mother platform and the child platform to simultaneously perform vertical movements with different amplitudes, thereby providing rhythms with different amplitudes to stimulate the skeletal muscles of the body to achieve the effect of passive movement.

5. A dual amplitude rhythm device as claimed in claim 4, wherein: the connecting rod group is provided with two groups and is arranged at two sides of the base, the power input rods are also provided with two groups, one ends of the two power input rods are respectively pivoted on the eccentric shafts at two ends of a rotating shaft, and the other ends of the power input rods are pivoted at any position of the first cross rod, the second cross rod, the connecting rod or the pull rod except the first fulcrum and the second fulcrum.

6. A dual amplitude rhythm device as claimed in claim 4 or 5 wherein: each linkage is pivotally connected to each bearing seat to connect the primary and secondary platforms.

7. A dual amplitude rhythm device as recited in claim 6, wherein: the primary-secondary platform set is provided with a plurality of bearing seats corresponding to the connecting rod set and is respectively connected with a plurality of ribs arranged below the primary-secondary platform set.

8. A dual amplitude rhythm device as recited in claim 7, wherein: each pull rod moves with smaller amplitude when being closer to the first fulcrum and moves with larger amplitude when being farther from the first fulcrum; and each bearing seat connected with the second cross bar moves with smaller amplitude when being closer to the second fulcrum and moves with larger amplitude when being farther from the second fulcrum.

9. A dual amplitude rhythm device as recited in claim 6, wherein: the plurality of supporting rods arranged on the base corresponding to each connecting rod group are respectively provided with a plurality of first supporting rods and a plurality of second supporting rods, and the height positions of the first supporting rods are lower than the height positions of the second supporting rods.