Vibrating flapping massage mechanism

Abstract

A vibrating flapping massage mechanism includes a cup-shaped housing, a motor arranged in the cup-shaped housing, and eccentric wheels fixedly connected to a motor rotating shaft of the motor. The eccentric wheels include eccentric wheel horizontal shafts connected to at least one push-pull piece. An air cushion soft rubber piece is arranged on the at least one push-pull piece. A curved concave cavity is defined on the air cushion soft rubber piece. A soft rubber convex cavity is defined on the curved concave cavity. A bottom portion of the soft rubber convex cavity is embedded and bonded with the top portion of the at least one push-pull piece. At least one push-pull piece circular hole soft rubber piece is arranged on the at least one push-pull pieces. The at least one push-pull piece circular hole soft rubber piece is sleeved on a corresponding eccentric wheel horizontal shaft.

Claims

1. A vibrating flapping massage mechanism, comprising: a cup-shaped housing (11), a motor (1) arranged in the cup-shaped housing (11), and eccentric wheels (3) fixedly connected to a motor rotating shaft (2) of the motor (1); wherein the eccentric wheels (3) comprises eccentric wheel horizontal shafts (3-1); each of the eccentric wheel horizontal shafts (3-1) is arranged on an outer side of each of the eccentric wheels (3); the eccentric wheel horizontal shafts (3-1) are connected to at least one push-pull piece (4); an air cushion soft rubber piece (5) is arranged on a top portion of the at least one push-pull piece (4); wherein a curved concave cavity is defined on a top portion of the air cushion soft rubber piece (5); a soft rubber convex cavity (7) protruding upward is defined on a central portion of the curved concave cavity (6); an inner side of a bottom portion of the soft rubber convex cavity (7) is embedded and bonded with the top portion of the at least one push-pull piece (4); wherein at least one push-pull piece circular hole soft rubber piece (4-1) is arranged on a bottom portion of the at least one push-pull piece (4); the at least one push-pull piece circular hole soft rubber piece (4-1) is sleeved on a corresponding eccentric wheel horizontal shaft (3-1); each of the eccentric wheels (3) defines an eccentric hole; each eccentric hole is fixedly connected to the motor rotating shaft (2); a position of the eccentric hole on each of the eccentric wheels (3) is symmetrical to a position of a corresponding eccentric wheel horizontal shaft (3-1) by taking a center point of each of the eccentric wheels (3) as a midpoint; wherein the motor rotating shaft (2) drives the eccentric wheels (3) to perform eccentric rotation to vibrate when the motor rotating shaft (2) works; each of the eccentric wheel horizontal shafts (3-1) drives the at least one push-pull piece circular hole soft rubber piece (4-1) to perform centrifugal rotation by taking the motor rotating shaft (2) as a center, so as to reciprocate the at least one push-pull piece (4) to push up and pull down; the at last one push-pull piece (4) is driven to push upwards when the at least one push-pull piece circular hole soft rubber piece (4-1) rotates upwards, and a bottom portion of the air cushion soft rubber piece (5) and the soft rubber convex cavity (7) are jacked up; the at least one push-pull piece (4) is driven to pull downwards when the at least one push-pull piece circular hole soft rubber piece (4-1) rotates downwards, and the bottom portion of the air cushion soft rubber piece (5) and the soft rubber convex cavity (7) are pulled downwards, so that the soft rubber convex cavity (7) is repeatedly jacked up and pulled downwards to forms a flapping action.

2. The vibrating flapping massage mechanism according to claim 1, wherein when two or more push-pull pieces (4) are provided, the top portion of each push-pull piece (4) is fixedly connected to a corresponding air cushion soft rubber piece (5).

3. The vibrating flapping massage mechanism according to claim 2, wherein each push-pull piece(4) faces the corresponding air cushion soft rubber piece (5); an orientation of each air cushion soft rubber piece (5) is adjustable.

4. The vibrating flapping massage mechanism according to claim 1, wherein when only one push-pull piece (4) is provide, there are two eccentric wheels (3); a first eccentric wheel (3) is fixedly connected to a left end of the motor rotating shaft (2) of the motor (1); a second eccentric wheel (3) is fixedly connected to a right end of the motor rotating shaft (2) of the motor (1); a distance of the first eccentric wheel (3) to the motor (1) is equal to a distance of the second eccentric wheel (3) to the motor (1); the one push-pull piece (4) is bridged on the two eccentric wheels (3); two push-pull piece circular hole soft rubber pieces (4-1) are arranged at the bottom portion of the one push-pull piece (4); each of the push-pull piece circular hole soft rubber pieces is rotatable and is sleeved on a corresponding eccentric wheel horizontal shaft (3-1).

5. The vibrating flapping massage mechanism according to claim 1, wherein when two or more push-pull pieces (4) are provided, a number of the eccentric wheels (3) is same as a number of the push-pull pieces(4); each push-pull piece (4) is connected to a corresponding eccentric wheel (3); the eccentric wheels (3) are respectively fixedly connected to a left end and a right end of the motor rotating shaft (2) of the motor (1); each push-pull piece (4) is cylindrical; the bottom portion of each push-pull piece (4) is connected to a corresponding push-pull piece circular hole soft rubber piece (4-1); each push-pull piece circular hole soft rubber piece is rotatable and is sleeved on a corresponding eccentric wheel horizontal shaft (3-1).

6. The vibrating flapping massage mechanism according to claim 1, wherein an outer edge of the top portion of the air cushion soft rubber piece (5) is embedded and fixed on an inner side of an edge of a top opening of the cup-shaped housing (11).

7. The vibrating flapping massage mechanism according to claim 6, wherein the motor (1) is connected to a switch circuit board (8) in series through a motor wire (9-1); the switch circuit board (8) is connected to a battery (9) in series through a battery wire (8-1); the switch circuit board (8) is connected to a charging component (10) in series through a charging wire (10-1); the switch circuit board (8) controls the motor (1) to work.

8. The vibrating flapping massage mechanism according to claim 7, wherein a hard rubber inner housing (12) is arranged on an inner side of the cup-shaped housing (11); the hard rubber inner housing (12) defines a cavity; the motor (1), the eccentric wheels (3), the at least one push-pull piece (4), the air cushion soft rubber piece (5), the switch circuit board (8), the battery wire (8-1), the battery (9), the motor wire (9-1), the charging component (10), and the charging wire (10-1) are arranged in the cavity of the hard rubber inner housing (12); the curved concave cavity (6) defined on the top portion of the air cushion soft rubber piece (5) is exposed out of the hard rubber inner housing (12); the hard rubber inner housing (12) comprises an inner housing upper cover (13) and an inner housing lower cover (14); the outer edge of the top portion of the air cushion soft rubber piece (5) is bonded and fixed at a top opening of the inner housing lower cover (14) and a top opening of the inner housing upper cover (13).

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a front side cross-sectional schematic diagram of a vibrating flapping massage mechanism including only one push-pull piece of the present disclosure.

(2) FIG. 2 is a side cross-sectional schematic diagram of the vibrating flapping massage mechanism including only one push-pull piece of the present disclosure.

(3) FIG. 3 is an exploded schematic diagram of the vibrating flapping massage mechanism including only one push-pull piece of the present disclosure.

(4) FIG. 4 is a cross-sectional schematic diagram of the vibrating flapping massage mechanism including two push-pull pieces of the present disclosure.

(5) In the Drawings:

(6) 1. motor; 2. motor rotating shaft 3. eccentric wheel; 3-1. eccentric wheel horizontal shaft; 4. push-pull piece; 4-1. push-pull piece circular hole soft rubber piece; 5. air cushion soft rubber piece; 6. curved concave cavity; 7. soft rubber convex cavity; 8. switch circuit board; 8-1. battery wire; 9. battery; 9-1. motor wire; 10. charging component; 10-1. charging wire; 11. cup-shaped housing; 12. hard rubber inner housing 13. inner housing upper cover; 14. inner housing lower cover.

DETAILED DESCRIPTION

(7) As shown in FIGS. 1-4, the present disclosure provides a vibrating flapping massage mechanism. The vibrating flapping massage mechanism comprises a cup-shaped housing 11, a motor 1 arranged in the cup-shaped housing 11, and eccentric wheels 3 fixedly connected to a motor rotating shaft 2 of the motor 1. The eccentric wheels 3 comprises eccentric wheel horizontal shafts 3-1. Each of the eccentric wheel horizontal shafts 3-1 is arranged on an outer side of each of the eccentric wheels 3. The eccentric wheel horizontal shafts 3-1 are connected to at least one push-pull piece 4. An air cushion soft rubber piece 5 is arranged on a top portion of the at least one push-pull piece 4.

(8) A curved concave cavity 6 is defined on a top portion of the air cushion soft rubber piece 5. A soft rubber convex cavity 7 protruding upward is defined on a central portion of the curved concave cavity 6. An inner side of a bottom portion of the soft rubber convex cavity 7 is embedded and bonded with the top portion of the at least one push-pull piece 4.

(9) At least one push-pull piece circular hole soft rubber piece 4-1 is arranged on a bottom portion of the at least one push-pull piece 4. The at least one push-pull piece circular hole soft rubber piece 4-1 is sleeved on a corresponding eccentric wheel horizontal shaft 3-1. Each of the eccentric wheels 3 defines an eccentric hole. Each eccentric hole is fixedly connected to the motor rotating shaft 2. A position of the eccentric hole on each of the eccentric wheels 3 is symmetrical to a position of a corresponding eccentric wheel horizontal shaft 3-1 by taking a center point of each of the eccentric wheels 3 as a midpoint.

(10) The motor rotating shaft 2 drives the eccentric wheels 3 to perform eccentric rotation to vibrate when the motor rotating shaft 2 works. Each of the eccentric wheel horizontal shafts 3-1 drives the at least one push-pull piece circular hole soft rubber piece 4-1 to perform centrifugal rotation by taking the motor rotating shaft 2 as a center, so as to reciprocate the at least one push-pull piece 4 to push up and pull down. The at last one push-pull piece 4 is driven to push upwards when the at least one push-pull piece circular hole soft rubber piece 4-1 rotates upwards, and a bottom portion of the air cushion soft rubber piece 5 and the soft rubber convex cavity 7 are jacked up. The at least one push-pull piece 4 is driven to pull downwards when the at least one push-pull piece circular hole soft rubber piece 4-1 rotates downwards, and the bottom portion of the air cushion soft rubber piece 5 and the soft rubber convex cavity 7 are pulled downwards, so that the soft rubber convex cavity 7 is repeatedly jacked up and pulled downwards to forms a flapping action.

(11) When two or more push-pull pieces 4 are provided, the top portion of each push-pull piece 4 is fixedly connected to a corresponding air cushion soft rubber piece 5.

(12) Each push-pull piece 4 faces the corresponding air cushion soft rubber piece 5. An orientation of each air cushion soft rubber piece 5 is adjustable according to actual use.

(13) When only one push-pull piece 4 is provide, there are two eccentric wheels 3. A first eccentric wheel 3 is fixedly connected to a left end of the motor rotating shaft 2 of the motor 1. A second eccentric wheel 3 is fixedly connected to a right end of the motor rotating shaft 2 of the motor 2. A distance of the first eccentric wheel 3 to the motor 1 is equal to a distance of the second eccentric wheel 3 to the motor 2. The push-pull piece 4 is bridged on the two eccentric wheels 3. Two push-pull piece circular hole soft rubber pieces 4-1 are arranged at the bottom portion of the push-pull piece 4. Each of the push-pull piece circular hole soft rubber pieces 4-1 is rotatable and is sleeved on a corresponding eccentric wheel horizontal shaft 3-1.

(14) When two or more push-pull pieces 4 are provided, the number of the eccentric wheels 3 is same as the number of the push-pull pieces 4. Each push-pull piece 4 is connected to a corresponding eccentric wheel 3. The eccentric wheels 3 are respectively fixedly connected to a left end and a right end of the motor rotating shaft 2 of the motor 1. Each push-pull piece 4 is cylindrical. The bottom portion of each push-pull piece 4 is connected to a corresponding push-pull piece circular hole soft rubber piece 4-1. Each push-pull piece circular hole soft rubber piece 4-1 is rotatable and is sleeved on the corresponding eccentric wheel horizontal shaft 3-1.

(15) An outer edge of the top portion of each air cushion soft rubber piece 5 is embedded and fixed on an inner side of an edge of a top opening of the cup-shaped housing 11.

(16) The motor 1 is connected to a switch circuit board 8 in series through a motor wire 9-1. The switch circuit board 8 is connected to a battery 9 in series through a battery wire 8-1. The switch circuit board 8 is connected to a charging component 10 in series through a charging wire 10-1. The switch circuit board 8 controls the motor 1 to work.

(17) A hard rubber inner housing 12 is arranged on an inner side of the cup-shaped housing 11. The hard rubber inner housing 12 defines a cavity. The motor 1, the eccentric wheels 3, each push-pull piece 4, each air cushion soft rubber piece 5, the switch circuit board 8, the battery wire 8-1, the battery 9, the motor wire 9-1, the charging component 10, and the charging wire 10-1 are arranged in the cavity of the hard rubber inner housing 12. The curved concave cavity 6 defined on the top portion of each air cushion soft rubber piece 5 is exposed out of the hard rubber inner housing 12. The hard rubber inner housing 12 comprises an inner housing upper cover 13 and an inner housing lower cover 14. The outer edge of the top portion of each air cushion soft rubber piece 5 is bonded and fixed at a top opening of the inner housing lower cover 14 and a top opening of the inner housing upper cover 13.

(18) The eccentric wheels 3 centrifugally rotate to generate vibration effect. When the vibrating flapping massage mechanism is powered, each push-pull piece 4 reciprocates against the bottom portion of the corresponding air cushion soft rubber piece 5. Since the soft rubber convex cavity 7 protruding upward and sealed is defined on the central portion of the corresponding air cushion soft rubber piece 5, when the bottom portion of the corresponding air cushion soft rubber piece 5 is repeatedly impacted, each soft rubber convex cavity 7 is deformed and generates reciprocating elastic force. That is, an upward thrust from the at least one push-pull piece 4 is transmitted, making an outer wall of a corresponding soft rubber convex cavity 7 generate an upward thrust, and the pull force of the at least one push-pull piece 4 causes the outer wall of the corresponding soft rubber convex cavity 7 to generate a downward pull force. Therefore, the outer wall of the corresponding soft rubber convex cavity repeatedly flaps the human body. Therefore, the vibrating flapping massage mechanism has a flapping effect and a vibration massage effect.

(19) Foregoing descriptions are only optional embodiments of the present disclosure and are not intended to limit the present disclosure. Any modification, equivalent replacement, or improvement within the technical scope of the present disclosure should be included in the protection scope of the present disclosure.