CN218943779U - Butterfly wing double-vibration type device for body shaping and fat-reducing machine - Google Patents

Abstract

The utility model relates to a butterfly wing double-vibration device for a body shaping fat-reducing machine, which comprises a pedal seat, a base and a supporting shaft, wherein the supporting shaft is arranged on the base, the pedal seat comprises a left pedal seat, a middle frame and a right pedal seat, the middle frame is arranged on the supporting shaft, the middle frame is positioned between the left pedal seat and the right pedal seat, a first hinging seat is arranged on one side of the left pedal seat, which is close to the middle frame, a second hinging seat is arranged on the right pedal seat, which is close to the middle frame, a third hinging seat which is in hinged fit with the first hinging seat is arranged on the left side of the supporting shaft, a fourth hinging seat which is in hinged fit with the second hinging seat is arranged on the right side of the supporting shaft, and a first driving mechanism for driving the left pedal seat to perform a vibrating motion and a second driving mechanism for driving the right pedal seat to perform a vibrating motion are arranged on the base. Through adopting above-mentioned scheme, pedal seat on it adopts split type structure, and left pedal seat and right pedal seat can independently beat.

Description

Butterfly wing double-vibration type device for body shaping and fat-reducing machine

Technical Field

The utility model relates to the technical field of body shaping and fat reducing machines, in particular to a butterfly wing double-vibration type device for a body shaping and fat reducing machine.

Background

The patent of chinese patent No. 201921780021.4, the application day is 2019.10.22, it discloses a get rid of fat massage device, including the footboard seat, base and back shaft, back shaft activity sets up on the base, the footboard seat is installed on the back shaft, the back shaft passes through the back shaft to be connected on the base, the back shaft articulates the setting on the base through the articulated shaft, the back shaft rotates and sets up on the back shaft, be equipped with drive footboard seat around back shaft wobbling first drive assembly and drive back shaft wobbling second drive assembly around articulated shaft on the base, first drive assembly and second drive assembly are located the both sides of back shaft respectively, first drive assembly includes first drive shaft and first connecting rod, first drive shaft sets up on the base along vertical rotation, the vertical setting of first connecting rod, the one end of first connecting rod articulates the cooperation with first drive shaft, the other end articulates the cooperation with the footboard seat, the eccentric motion is done to first drive shaft, second drive assembly includes second drive shaft and second connecting rod, the second drive shaft is along vertical rotation setting on the base, the second connecting rod transversely sets up, the second connecting rod is articulated with the second drive shaft cooperation with the second drive pedal. The technical scheme has the problem that the pedal seat is of an integrated structure, and the left pedal and the right pedal cannot swing independently.

Disclosure of Invention

The utility model overcomes the defects of the prior art and provides a butterfly wing double-vibration device for a body shaping and fat-reducing machine, wherein a pedal seat on the butterfly wing double-vibration device adopts a split structure, and a left pedal seat and a right pedal seat can vibrate independently.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: a butterfly wing double vibration type device for a body shaping fat liquoring machine comprises a pedal seat, a base and a supporting shaft, wherein the supporting shaft is arranged on the base, the pedal seat comprises a left pedal seat, a middle frame and a right pedal seat, the middle frame is arranged on the supporting shaft, the middle frame is arranged between the left pedal seat and the right pedal seat, the left pedal seat is provided with a first hinging seat at one side close to the middle frame, the right pedal seat is provided with a second hinging seat at one side close to the middle frame, the middle frame is provided with a third hinging seat which is hinged to the first hinging seat at the left side of the supporting shaft, the middle frame is provided with a fourth hinging seat which is hinged to the second hinging seat at the right side of the supporting shaft, and the base is provided with a first driving mechanism for driving the left pedal seat to perform a vibrating motion and a second driving mechanism for driving the right pedal seat to perform a vibrating motion.

Through adopting above-mentioned scheme, wherein vertical is vertical direction to perpendicular to horizontal plane, wherein transversely all is located the horizontal plane with vertically, transversely is the length direction of base, transversely and vertical mutually perpendicular, wherein the footboard seat is located the base top, and the footboard seat adopts split type structure, because left pedal seat and right pedal seat respectively with the articulated cooperation of intermediate frame, left pedal seat and right pedal seat can independently run out under first actuating mechanism and second actuating mechanism's drive, wherein left pedal seat and right pedal seat run out the motion and can be: the left and right symmetrical runout can be left and right asymmetrical runout.

The utility model is further provided with the following steps: the support seat is hinged on the base through a hinge shaft, the support shaft is rotatably arranged on the support seat, the middle frame can swing around the support shaft, and the support seat can swing around the hinge shaft.

Through adopting above-mentioned scheme, the supporting seat is provided with two to be located the both ends of back shaft, the both ends of back shaft rotate through the bearing respectively and set up on the supporting seat, and two supporting seats are articulated to be set up on the base through the articulated shaft respectively, and the intermediate frame is fixed or integrative to be set up on the back shaft, and supporting shaft and supporting seat play certain supporting role to the footboard seat, under first actuating mechanism and/or first actuating mechanism's effect, supporting seat and footboard seat can swing together left and right sides.

The utility model is further provided with the following steps: the first driving mechanism comprises a first motor, a first driving shaft and a first connecting sleeve, the first driving shaft is arranged on the base in a longitudinal rotation mode, the first motor drives the first driving shaft to rotate, one end of the first connecting sleeve is in hinged fit with the first driving shaft, the other end of the first connecting sleeve is in hinged fit with the left pedal seat, and the first driving shaft drives the first connecting sleeve to do eccentric motion.

By adopting the scheme, the first connecting sleeve can be vertically or transversely arranged, and when the first connecting sleeve is vertically arranged, the first driving shaft drives the first connecting sleeve to make eccentric motion, the first connecting sleeve can be driven to move up and down, so that the left pedal seat is driven to swing up and down; when the first connecting sleeve is transversely arranged, the first driving shaft drives the first connecting sleeve to do eccentric motion, and the first connecting sleeve can be driven to move left and right.

The utility model is further provided with the following steps: the second driving mechanism comprises a second motor, a second driving shaft and a second connecting sleeve, the second driving shaft is arranged on the base in a longitudinal rotation mode, the second motor drives the second driving shaft to rotate, one end of the second connecting sleeve is in hinged fit with the second driving shaft, the other end of the second connecting sleeve is in hinged fit with the right pedal seat, and the second driving shaft drives the second connecting sleeve to eccentrically move.

By adopting the scheme, the second connecting sleeve can be vertically or transversely arranged, and when the second connecting sleeve is vertically arranged, the second driving shaft drives the second connecting sleeve to make eccentric motion, the first connecting sleeve can be driven to move up and down, so that the right pedal seat is driven to swing up and down; when the second connecting sleeve is transversely arranged, the second driving shaft drives the second connecting sleeve to do eccentric motion, the second connecting sleeve can be driven to move left and right, and the supporting seat and the pedal seat can swing left and right together because the supporting seat is hinged on the base.

The utility model is further provided with the following steps: the first driving shaft is provided with a first eccentric part at one end close to the first connecting sleeve, the first eccentric part is eccentrically arranged relative to the main body of the first driving shaft, a first bearing is sleeved in one end of the first connecting sleeve, a second bearing is sleeved in the other end of the first connecting sleeve, the first bearing is sleeved in the first eccentric part, a first pin shaft is sleeved in the second bearing, and the first pin shaft is hinged and matched with the left pedal seat.

Through adopting above-mentioned scheme, first eccentric part becomes the eccentric shaft setting, first eccentric part endotheca is in the first bearing of first adapter sleeve, compare in first eccentric part direct endotheca in first adapter sleeve, first round pin axle endotheca is in the second of first adapter sleeve, compare in first round pin axle direct endotheca in first adapter sleeve, can reduce the wearing and tearing of first eccentric part and first round pin axle, the operation is also more smooth and easy, when first motor drives first drive shaft rotation, when first drive shaft drives first eccentric part and do eccentric motion, thereby drive first adapter sleeve and remove, moreover, the steam generator is simple in structure, and reasonable in design.

The utility model is further provided with the following steps: the second driving shaft is provided with a second eccentric part at one end close to the second connecting sleeve, the second eccentric part is eccentrically arranged relative to the main body of the second driving shaft, a third bearing is sleeved in one end of the second connecting sleeve, a fourth bearing is sleeved in the other end of the second connecting sleeve, the third bearing is sleeved in the second eccentric part, a second pin shaft is sleeved in the fourth bearing, and the second pin shaft is hinged and matched with the right pedal seat.

By adopting the scheme, the second eccentric part is arranged as the eccentric shaft, the second eccentric part is sleeved on the third bearing of the second connecting sleeve, compared with the second eccentric part which is directly sleeved on the second connecting sleeve, the second pin shaft is sleeved on the fourth bearing of the second connecting sleeve, compared with the second pin shaft which is directly sleeved on the second connecting sleeve, the abrasion of the second eccentric part and the second pin shaft can be reduced, the operation is smoother, and when the second motor drives the second driving shaft to rotate, the second driving shaft drives the second eccentric part to do eccentric motion, thereby driving the second connecting sleeve to move, and the device has simple structure and reasonable design.

The utility model is further provided with the following steps: the output shaft of the first motor is parallel to the first driving shaft, a first belt pulley is synchronously rotated on the output shaft of the first motor, a second belt pulley is synchronously rotated on the first driving shaft at the position corresponding to the first belt pulley, and the first belt pulley and the second belt pulley are driven by the first belt.

Through adopting above-mentioned scheme, the wheel diameter of first belt pulley is less than the wheel diameter of second belt pulley, can realize the deceleration effect, and belt transmission is steady and the noise is little, has the buffering effect of absorbing vibration, has overload protection effect, and is not high to manufacturing and installation accuracy requirement, is suitable for long-distance transmission.

The utility model is further provided with the following steps: the output shaft of the second motor is parallel to the second driving shaft, a third belt pulley is synchronously rotated on the output shaft of the second motor, a fourth belt pulley is synchronously rotated on the position corresponding to the third belt pulley, and the third belt pulley and the fourth belt pulley are driven by a second belt.

Through adopting above-mentioned scheme, the wheel diameter of third belt pulley is less than the wheel diameter of fourth belt pulley, can realize the deceleration effect, and belt transmission is steady and the noise is little, has the buffering effect of absorbing vibration, has overload protection effect, and is not high to manufacturing and installation accuracy requirement, is suitable for long-distance transmission.

The utility model is further described below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic diagram of the mating structures of the left pedal seat, the middle frame and the right pedal seat;

FIG. 3 is a schematic diagram of the explosive structure of FIG. 2;

FIG. 4 is a schematic diagram of a matching structure of a supporting shaft and a supporting seat;

FIG. 5 is a schematic view of the mounting structure of the components on the base;

FIG. 6 is a schematic view of the mating structure of the first drive shaft and the first coupling sleeve;

fig. 7 is a schematic diagram of a fitting structure of the second driving shaft and the second connecting sleeve.

In the figure: 1. a pedal seat; 11. a left pedal seat; 111. a first hinge base; 12. a middle frame; 121. a third hinge base; 122. a fourth hinge base; 13. a right pedal seat; 131. the second hinge seat; 2. a base; 3. a support shaft; 4. a support base; 5. a hinge shaft; 61. a first motor; 62. a first drive shaft; 621. a first eccentric portion; 63. a first connection sleeve; 64. a first bearing; 65. a second bearing; 66. a first pin; 67. a first pulley; 68. a second pulley; 69. a first belt; 71. a second motor; 72. a second drive shaft; 721. a second eccentric portion; 73. a second connecting sleeve; 74. a third bearing; 75. a fourth bearing; 76. a second pin; 77. a third pulley; 78. a fourth pulley; 79. a second belt.

Detailed Description

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

As shown in fig. 1-7, a butterfly wing double-vibration device for a body shaping fat-reducing machine comprises a pedal seat 1, a base 2 and a supporting shaft 3, wherein the supporting shaft 3 is installed on the base 2, the pedal seat 1 is located above the base 2, the pedal seat 1 comprises a left pedal seat 11, an intermediate frame 12 and a right pedal seat 13, the intermediate frame 12 is installed on the supporting shaft 3, the intermediate frame 12 is located between the left pedal seat 11 and the right pedal seat 13, the left pedal seat 11 is provided with a first hinging seat 111 at one side close to the intermediate frame 12, the right pedal seat 13 is provided with a second hinging seat 131 at the position close to the intermediate frame 12, the intermediate frame 12 is provided with a third hinging seat 121 in hinging fit with the first hinging seat 111 at the left side of the supporting shaft 3, the intermediate frame 12 is provided with a fourth hinging seat 122 in hinging fit with the second hinging seat 131 at the right side of the supporting shaft 3, and the base 2 is provided with a first driving mechanism for driving the left pedal seat 11 to swing and a second driving mechanism for driving the right pedal seat 13 to swing. Wherein the left pedal seat and the right pedal seat can do the oscillating motion: the left and right symmetrical runout can be left and right asymmetrical runout. Wherein the vertical direction is the A direction in fig. 5, the horizontal direction is the B direction in fig. 5, and the longitudinal direction is the C direction in fig. 5. Wherein the intermediate frame 12 is provided here in two, but of course one or more structures may be provided.

In this embodiment, the support seat 4 is further provided with two support seats 4, and is located at two ends of the support shaft 3, the support seat 4 is hinged on the base 2 through the hinge shaft 5, the hinge shaft 5 is fixed or integrally arranged on the base 2, the support seat 4 is rotatably arranged on the hinge shaft 5 through a bearing, two ends of the support shaft 3 are rotatably arranged on the support seat 4 through bearings respectively, the middle frame 12 is fixed or integrally arranged on the support shaft 3, the middle frame 12 can swing around the support shaft 3, and the support seat 4 can swing around the hinge shaft 5.

In this embodiment, the first driving mechanism includes a first motor 61, a first driving shaft 62 and a first connecting sleeve 63, the first driving shaft 62 is disposed on the base 2 along the longitudinal rotation, the first motor 61 drives the first driving shaft 62 to rotate, one end of the first connecting sleeve 63 is hinged to the first driving shaft 62, the other end of the first connecting sleeve 63 is hinged to the left pedal seat 11, and the first driving shaft 62 drives the first connecting sleeve 63 to make eccentric motion.

In this embodiment, the second driving mechanism includes a second motor 71, a second driving shaft 72 and a second connecting sleeve 73, the second driving shaft 72 is disposed on the base 2 along the longitudinal rotation, the second motor 71 drives the second driving shaft 72 to rotate, one end of the second connecting sleeve 73 is hinged to the second driving shaft 72, the other end of the second connecting sleeve 73 is hinged to the right pedal seat 13, and the second driving shaft 72 drives the second connecting sleeve 73 to perform eccentric motion.

In this embodiment, the first driving shaft 62 is provided with a first eccentric portion 621 at one end near the first connecting sleeve 63, the first eccentric portion 621 is eccentrically disposed with respect to the main body of the first driving shaft 62, a first bearing 64 is sleeved in one end of the first connecting sleeve 63, a second bearing 65 is sleeved in the other end of the first connecting sleeve 63, the first bearing 64 is sleeved outside the first eccentric portion 621, a first pin 66 is sleeved in the second bearing 65, and the first pin 66 is hinged with the left pedal seat 11. Of course, the first eccentric part can also be replaced by the structure of the eccentric wheel.

In this embodiment, the second driving shaft 72 is provided with a second eccentric portion 721 at one end near the second connecting sleeve 73, the second eccentric portion 721 is eccentrically disposed with respect to the main body of the second driving shaft 72, a third bearing 74 is sleeved in one end of the second connecting sleeve 73, a fourth bearing 75 is sleeved in the other end of the second connecting sleeve 73, the third bearing 74 is sleeved outside the second eccentric portion 721, a second pin 76 is sleeved in the fourth bearing 75, and the second pin 76 is in hinged fit with the right pedal seat 13. Of course the second eccentric part can also be replaced by the structure of the eccentric wheel.

In the present embodiment, the output shaft of the first motor 61 and the first driving shaft 62 are parallel to each other, the first pulley 67 is provided on the output shaft of the first motor 61 in synchronous rotation, the second pulley 68 is provided on the first driving shaft 62 in synchronous rotation at the position corresponding to the first pulley 67, and the first pulley 67 and the second pulley 68 are driven by the first belt 69.

In this embodiment, the output shaft of the second motor 71 is parallel to the second driving shaft 72, a third pulley 77 is provided on the output shaft of the second motor 71 in synchronous rotation, a fourth pulley 78 is provided on the second driving shaft 72 in synchronous rotation at a position corresponding to the third pulley 77, and the third pulley 77 and the fourth pulley 78 are driven by a second belt 79.

The above embodiments are only preferred embodiments of the present utility model, and common variations and substitutions by those skilled in the art within the scope of the technical solution of the present utility model are included in the scope of the present utility model.

Claims (8)

1. A two devices that shake of butterfly wing for getting into shape on fat machine that gets rid of, including footboard seat, base and back shaft, the back shaft is installed on the base, its characterized in that: the pedal seat comprises a left pedal seat, a middle frame and a right pedal seat, the middle frame is arranged on a supporting shaft, the middle frame is located between the left pedal seat and the right pedal seat, a first hinging seat is arranged on one side, close to the middle frame, of the left pedal seat, a second hinging seat is arranged on the position, close to the middle frame, of the right pedal seat, a third hinging seat in hinged fit with the first hinging seat is arranged on the left side, located on the supporting shaft, of the middle frame, a fourth hinging seat in hinged fit with the second hinging seat is arranged on the right side, and a first driving mechanism for driving the left pedal seat to perform a vibrating motion and a second driving mechanism for driving the right pedal seat to perform a vibrating motion are arranged on the base.

2. The butterfly wing double vibration device for the body shaping and fat reducing machine according to claim 1, wherein: the support seat is hinged on the base through a hinge shaft, the support shaft is rotatably arranged on the support seat, the middle frame can swing around the support shaft, and the support seat can swing around the hinge shaft.

3. A butterfly wing double vibration device for a body shaping and fat reducing machine according to claim 1 or 2, characterized in that: the first driving mechanism comprises a first motor, a first driving shaft and a first connecting sleeve, the first driving shaft is arranged on the base in a longitudinal rotation mode, the first motor drives the first driving shaft to rotate, one end of the first connecting sleeve is in hinged fit with the first driving shaft, the other end of the first connecting sleeve is in hinged fit with the left pedal seat, and the first driving shaft drives the first connecting sleeve to do eccentric motion.

4. A butterfly wing double vibration device for a body shaping and fat reducing machine according to claim 1 or 2, characterized in that: the second driving mechanism comprises a second motor, a second driving shaft and a second connecting sleeve, the second driving shaft is arranged on the base in a longitudinal rotation mode, the second motor drives the second driving shaft to rotate, one end of the second connecting sleeve is in hinged fit with the second driving shaft, the other end of the second connecting sleeve is in hinged fit with the right pedal seat, and the second driving shaft drives the second connecting sleeve to eccentrically move.

5. A butterfly wing double vibration device for a body shaping and fat reducing machine according to claim 3, wherein: the first driving shaft is provided with a first eccentric part at one end close to the first connecting sleeve, the first eccentric part is eccentrically arranged relative to the main body of the first driving shaft, a first bearing is sleeved in one end of the first connecting sleeve, a second bearing is sleeved in the other end of the first connecting sleeve, the first bearing is sleeved in the first eccentric part, a first pin shaft is sleeved in the second bearing, and the first pin shaft is hinged and matched with the left pedal seat.

6. The butterfly wing double vibration device for the body shaping and fat reducing machine according to claim 4, wherein: the second driving shaft is provided with a second eccentric part at one end close to the second connecting sleeve, the second eccentric part is eccentrically arranged relative to the main body of the second driving shaft, a third bearing is sleeved in one end of the second connecting sleeve, a fourth bearing is sleeved in the other end of the second connecting sleeve, the third bearing is sleeved in the second eccentric part, a second pin shaft is sleeved in the fourth bearing, and the second pin shaft is hinged and matched with the right pedal seat.

7. A butterfly wing double vibration device for a body shaping and fat reducing machine according to claim 3, wherein: the output shaft of the first motor is parallel to the first driving shaft, a first belt pulley is synchronously rotated on the output shaft of the first motor, a second belt pulley is synchronously rotated on the first driving shaft at the position corresponding to the first belt pulley, and the first belt pulley and the second belt pulley are driven by the first belt.

8. The butterfly wing double vibration device for the body shaping and fat reducing machine according to claim 4, wherein: the output shaft of the second motor is parallel to the second driving shaft, a third belt pulley is synchronously rotated on the output shaft of the second motor, a fourth belt pulley is synchronously rotated on the position corresponding to the third belt pulley, and the third belt pulley and the fourth belt pulley are driven by a second belt.

Images