BACKGROUND
1. Technical Field
[0001] The present disclosure generally relates to the field of massage devices, and especially
relates to a finger swinging massage device.
2. Description of Related Art
[0002] Nowadays pace of life is faster and faster, and a time for leisure and exercise is
greatly squeezed so that more and more people choose massage devices for leisure and
relaxation. A conventional portable massage device is compact and easy to be operated,
however, a massage mode of the conventional portable massage device is usually single,
which brings limited massage experiences to users. Therefore, such conventional massage
device needs to be improved.
SUMMARY
[0003] The technical problems to be solved: in view of the shortcomings of the related art,
the present disclosure provides an improved finger swinging massage device.
[0004] The technical solution adopted for solving technical problems of the present disclosure
is:
[0005] a finger swinging massage device includes a hard inner housing, a soft outer housing
surrounding the hard inner housing, and at least one swinging member installed between
the hard inner housing and the soft outer housing; the at least one swinging member
including a rotary motor, an eccentric wheel connected with the rotary motor in transmission,
a limiting sleeve fixed on the hard inner housing, and a swinging rod, with two opposite
sides of the swinging rod rotatably connecting with the limiting sleeve, and a lower
end of the swinging rod connecting with the eccentric wheel in transmission; and wherein
the eccentric wheel cooperates with the limiting sleeve to convert rotation of the
rotary motor into to-and-fro movement of the swinging rod, the swinging rod exposed
on a top portion of the hard inner housing, and the soft outer housing comprising
a massage portion corresponding to connect with the swinging rod.
[0006] Wherein the hard inner housing includes an opening for the swinging rod to pass therethrough,
the limiting sleeve with a hollow structure embedded at the opening and sleeved outside
the rotary motor, a pair of posts formed on an upper end of the limiting sleeve and
opposite to each other, and the two opposite sides of the swinging rod rotatably connected
with the pair of posts, respectively.
[0007] Wherein a pair of flanges is arranged on the periphery of the limiting sleeve and
arranged at intervals from top to bottom to form a clamping slot therebetween, and
the clamping slot clamped on an edge of the opening.
[0008] Wherein the hard inner housing further includes a clamping block surrounding the
opening, and abutted against the periphery of the limiting sleeve.
[0009] Wherein a pair of opposite notches is formed on the upper end of the limiting sleeve
and connected to each other to form a sliding channel therebetween so that a lower
end of the swinging rod slides in the sliding channel.
[0010] Wherein a limiting block is formed on an inner wall of the limiting sleeve, and abutted
against an upper surface of the rotary motor.
[0011] Wherein the massage device further includes a vibrating motor received in the swinging
rod.
[0012] Wherein the massaging portion is a finger-shape configuration.
[0013] Wherein the swinging rod includes a rotating pin rotatably connected with the limiting
sleeve, and a nozzle structure located at an end of the swinging rod near the rotating
pin, and an opposite end of the swinging rod away from the rotating pin sleeved with
the massaging portion; and
[0014] the nozzle structure including a first portion and a second portion opposite to the
first portion, and a receiving chamber formed between the first and second portions;
and wherein the eccentric wheel extends into the receiving cavity and contacts with
the first and second portions back and forth during rotating the eccentric wheel,
and the nozzle structure moves linearly back and forth, so that the swinging rod swings
around the rotating pin.
[0015] Wherein the hard inner housing is made of plastic material, and the soft outer housing
is made of silica gel material.
[0016] Wherein the eccentric wheel includes a first shaft connected with the rotary motor,
and a second shaft eccentrically arranged on the first shaft and extending into the
receiving cavity of the nozzle structure.
[0017] Wherein both a control circuit board and a battery are received in the hard inner
housing, both the rotary motor and the battery electrically connected with the control
circuit board, respectively; the control circuit board configured to control an action
of the rotary motor, and the battery equipped with a magnetic-suction charging terminal
to supply power in time and maintain an endurance capacity.
[0018] The present disclosure provides the advantages as below.
[0019] The finger swinging massage device of the present disclosure converts the rotation
of the rotary motor into the to-and-fro movement of the swinging rod through providing
the eccentric wheel and the limiting sleeve, so as to drive the massage portion arranged
on the swinging rod to swing left and right for massaging the human body, which has
stable operation and reliable usage by imitating human fingers to improve massage
comfort of users.
BRIEF DESCRIPTION OF THE DRAWINGS
[0020]
FIG. 1 is an exploded, schematic view of a finger swinging massage device in accordance
with an embodiment of the present disclosure.
FIG. 2 is a further exploded, schematic view of the finger swinging massage device
of FIG. 1.
FIG. 3 is a schematic view of an eccentric wheel and a swinging rod of the finger
swinging massage device of FIG. 1.
FIG. 4 is a schematic view of the limiting sleeve of the finger swinging massage device
of FIG. 3.
FIG. 5 is an exploded, schematic view of the swinging rod of the finger swinging massage
device of FIG. 3.
[0021] The element labels according to the exemplary embodiment of the present disclosure
shown as below:
100 finger swinging massage device, 10 hard inner housing, 10a top portion, 11 opening,
11a edge, 12 clamping block, 13 control circuit board, 14 battery, 15 magnetic-suction
charging terminal, 20 soft outer housing, 21 massaging portion, 30 swinging member,
31 rotary motor, 31a upper surface, 32 eccentric wheel, 321 first shaft, 322 second
shaft, 33 limiting sleeve, 33a upper end, 33b inner wall, 331 post, 332 flange, 333
clamping slot, 334 notch, 335 sliding channel, 336 limiting block, 34 swinging rod,
34a opposite sides, 34b lower end, 341 rotating pin, 342 nozzle structure, 343 first
portion, 344 second portion, 345 receiving chamber, 35 vibrating motor.
DETAILED DESCRIPTION
[0022] Reference will now be made in detail to embodiments, examples of which are illustrated
in the accompanying drawings. In the following detailed description, numerous specific
details are set forth in order to provide a thorough understanding of the subject
matter presented herein. Obviously, the implementation embodiment in the description
is a part of the present disclosure implementation examples, rather than the implementation
of all embodiments, examples. According to the described embodiment of the present
disclosure, all other embodiments obtained by one of ordinary skill in the related
art on the premise of no creative work are within the protection scope of the present
disclosure.
[0023] In the description of the present disclosure, it needs to be explained that all the
directional indicators (such as the terms: "upper", "below", "left", "right", "front",
"back"...), are shown in the specification of the present disclosure. The indicated
orientation or position of the terms shown in the detailed description is based on
the orientation or position shown in the figures of the accompanying drawings of the
present disclosure, which is only to easily simplify the description of the present
disclosure, but not indicated that the devices or elements of the present disclosure
should have a particular orientation or should be designed and operated in a particular
orientation. So the terms illustrated in the detail description are not by way of
the limitation of the present disclosure.
[0024] In the description of the present disclosure, except where specifically otherwise
illustrated or limited, the terms "connect" and "link" used herein should be understood
in a broad sense. Such as, the meaning may be tight connection, removable connection,
or integrated connection. The meaning may also be mechanical connection, electrical
connection, direct connection or indirect connection through intermediaries, or internal
connection within two elements. The meaning of the terms used herein may be understood
by one of ordinary skill in the related art according to specific conditions of the
present disclosure.
[0025] Furthermore, in the description of the present disclosure, the terms such as "first"
and "second" shown in the specification are only used to describe, but not indicated
that the elements of the present disclosure is important or represented the amount
of the elements. That is, the features limited by the terms of "first" and "second"
may explicitly or implicitly include one or more features.
[0026] Referring to FIGS. 1-5, a finger swinging massage device 100 in accordance with an
embodiment of the present disclosure includes a hard inner housing 10, a soft outer
housing 20 surrounding the hard inner housing 10, and at least one swinging member
30 installed between the hard inner housing 10 and the soft outer housing 20.
[0027] In an embodiment of the present disclosure, the hard inner housing 10 is made of
plastic material, which is hardness and difficult to deform, and has a certain anti-collision
protection ability to protect components received in the hard inner housing 10 from
being damaged. The soft outer housing 20 is made of silica gel material, which is
relatively soft, has advantages of good elasticity and good hand feeling, without
harming skins of users, so as to feel more comfortable during in contact with skins
of users.
[0028] The at least one swinging member 30 includes a rotary motor 31, an eccentric wheel
32 connected with the rotary motor 31 in transmission, a limiting sleeve 33 fixed
on the hard inner housing 10, and a swinging rod 34. Two opposite sides 34a of the
swinging rod 34 are rotatably connecting with the limiting sleeve 33, respectively,
and a lower end 34b of the swinging rod 34 connects with the eccentric wheel 32 in
transmission. The limiting sleeve 33 is provided for fixing the swinging rod 34. The
eccentric wheel 32 cooperates with the limiting sleeve 33 to convert rotation of the
rotary motor 31 into to-and-fro movement of the swinging rod 34, which has stable
operation and reliable usage.
[0029] Specifically, both a control circuit board 13 and a battery 14 are received in the
hard inner housing 10, both the rotary motor 31 and the battery 14 are electrically
connected with the control circuit board 13, respectively. The control circuit board
13 is configured to control an action of the rotary motor 31, and the battery 14 is
equipped with a magnetic-suction charging terminal 15 to supply power in time and
maintain an endurance capacity.
[0030] The swinging rod 34 is exposed on a top portion 10a of the hard inner housing 10,
and the soft outer housing 20 includes a massage portion 21 corresponding to connect
with the swinging rod 34. Preferably, the massage portion 21 is a finger-shape configuration.
[0031] During using the massage device 100, the rotary motor 31 rotates, and the eccentric
wheel 32 cooperates with the limiting sleeve 33 to convert rotation of the rotary
motor 31 into to-and-fro movement of the swinging rod 34, so as to drive the massaging
portion 21 of the swinging rod 34 to swing left and right to massage bodies of users,
which can imitate human fingers to improve massage comfort of users.
[0032] Of course, in other embodiments of the present disclosure, a plurality of swing members
30 can be set, and the number of massaging portions 21 of the soft outer housing 20
is set corresponding to the number of swinging rods 34 of the swing member 30. In
this way, a plurality of massaging portions 21 can be used to massage the human body
at the same time to further improve the massage effect.
[0033] In some embodiments of the present disclosure, the hard inner housing 10 includes
an opening 11 for the swinging rod 34 to pass therethrough, the limiting sleeve 33
with a hollow structure embedded at the opening 11 and sleeved outside the rotary
motor 31. Specifically, a pair of flanges 332 is arranged on the periphery of the
limiting sleeve 33 and arranged at intervals from top to bottom to form a clamping
slot 333 therebetween, and the clamping slot 333 clamped on an edge of the opening
11, to prevent the limiting sleeve 33 from falling out of the hard inner housing 10
under a condition of up and down movement, which is a simple structure and convenient
for installation and disassembly the massage device 100.
[0034] The limiting sleeve 33 is a hollow structure, a pair of posts 331 is formed on an
upper end 33a of the limiting sleeve 33 and opposite to each other, and two opposite
sides 34a of the swinging rod 34 rotatably connected with the pair of posts 331, respectively,
which has good structural stability. Specifically, a pair of opposite notches 334
is formed on the upper end 33a of the limiting sleeve 33 and connected to each other
to form a sliding channel 335 therebetween so that a lower end 34b of the swinging
rod 34 slides left and right in the sliding channel 335. In this way, a sliding track
of the massaging portion 21 is formed to play the role of guidance and limitation.
[0035] In some embodiments of the present disclosure, the hard inner housing 10 further
includes a clamping block 12 surrounding the opening 11, and abutted against the periphery
of the limiting sleeve 33, to prevent the limiting sleeve 33 from shaking left and
right and improve stability therebetween.
[0036] In some embodiments of the present disclosure, a limiting block 336 is formed on
an inner wall 33b of the limiting sleeve 33, and abutted against an upper surface
31a of the rotary motor 31, to prevent the rotary motor 31 from falling out of the
hard inner housing 10.
[0037] In an embodiment of the present disclosure, referring to FIG. 3, the swinging rod
34 includes a rotating pin 341 rotatably connected with the limiting sleeve 33, and
a nozzle structure 342 located at an end of the swinging rod 34 near the rotating
pin 341, and an opposite end of the swinging rod 34 away from the rotating pin 341
sleeved with the massaging portion 21; and
[0038] the nozzle structure 342 including a first portion 343 and a second portion 344 opposite
to the first portion 343, and a receiving chamber 345 formed between the first and
second portions 343, 344; and wherein the eccentric wheel 32 extends into the receiving
cavity 345 and contacts with the first and second portions 343, 344 back and forth
during rotating the eccentric wheel 32, and the nozzle structure 342 moves linearly
back and forth, so that the swinging rod 34 swings around the rotating pin 341.
[0039] A part of the eccentric wheel 32 extending into the receiving cavity 345 is movable
rather than being fixed in the receiving cavity 345. The part contacts the first portion
343 and the second portion 344 back and forth during rotation, so as to drive the
linear left and right reciprocating movement of the nozzle structure 342, and then,
due to the action of the rotating pin 341, the linear movement of the nozzle structure
342 drives the swinging rod 34 to swing.
[0040] Furthermore, the eccentric wheel 32 includes a first shaft 321 and a second shaft
322 eccentrically arranged on the first shaft 321. The first shaft 321 is connected
with the rotary motor 31, and the second shaft 322 extends into the receiving cavity
345 of the nozzle structure 342.
[0041] The rotary motor 31 rotates to drive the first shaft 321 to rotate, and then the
first shaft 321 drives the second shaft 322 to rotate. Because the part of the second
shaft 322 extending into the receiving cavity 345 is movable, when the second shaft
322 rotates, the part of the second shaft 322 extending into the receiving cavity
345 will repeatedly contact the first portion 343 and the second portion 344. For
example, when the second shaft 322 rotates in an upper half circle, the part of the
second shaft 322 extending into the receiving cavity 345 contacts the first portion
343 to push the first portion 343 from a middle position to the leftmost position,
so as to complete a left swing of the swinging rod 34; when the second shaft 322 rotates
in a lower half circle, the part of the second shaft 322 extending into the receiving
cavity 345 contacts the second portion 344 to push the second portion 344 from the
middle position to the rightmost position, so as to complete a right swing of the
swinging rod 34. In this way, such a cycle completes the reciprocating swing of the
swinging rod 34, so that the massaging portion 21 on the swinging rod 34 follows the
reciprocating swing.
[0042] In some embodiments of the present disclosure, the massage device 100 further includes
a vibrating motor 35 received in the swinging rod 34. The vibration motor 35 vibrates
to drive the massaging portion 21 to follow vibrating. The massaging portion 21 can
swing or vibrate, either alone or at the same time, so as to achieve double stimulation
effect and further improve use experience of users.
[0043] The specific embodiments of the present disclosure are described in detail above
in combination with the accompanying drawings, but not limited to the above embodiments.
Various changes can also be made within the knowledge of an ordinary skilled person
in the art without departing from the purpose of the present disclosure, each feature
or element can be used alone or in other various combinations within the principles
of the present disclosure to the full extent indicated by the broad general meaning
of the terms in which the appended claims are expressed.
1. A finger swinging massage device (100) comprising a hard inner housing (10), a soft
outer housing (20) surrounding the hard inner housing (10), and at least one swinging
member (30) installed between the hard inner housing (10) and the soft outer housing
(20); the at least one swinging member (30) comprising a rotary motor (31), an eccentric
wheel (32) connected with the rotary motor (31) in transmission, a limiting sleeve
(33) fixed on the hard inner housing (10), and a swinging rod (34), with two opposite
sides (34a) of the swinging rod (34) rotatably connecting with the limiting sleeve,
and a lower end (34b) of the swinging rod (34) connecting with the eccentric wheel
(32) in transmission; and wherein the eccentric wheel (32) cooperates with the limiting
sleeve (33) to convert rotation of the rotary motor (31) into to-and-fro movement
of the swinging rod (34), the swinging rod (34) exposed on a top portion (10a) of
the hard inner housing (10), and the soft outer housing (20) comprising a massage
portion (21) corresponding to connect with the swinging rod (34).
2. The finger swinging massage device as claimed in claim 1, wherein the hard inner housing
(10) comprises an opening (11) for the swinging rod (34) to pass therethrough, the
limiting sleeve (33) with a hollow structure embedded at the opening (11) and sleeved
outside the rotary motor (31), a pair of posts (331) formed on an upper end (33a)
of the limiting sleeve (33) and opposite to each other, and the two opposite sides
(34a) of the swinging rod (34) rotatably connected with the pair of posts (331), respectively.
3. The finger swinging massage device as claimed in claim 2, wherein a pair of flanges
(332) is arranged on the periphery of the limiting sleeve (33) and arranged at intervals
from top to bottom to form a clamping slot (333) therebetween, and the clamping slot
(333) clamped on an edge of the opening (11).
4. The finger swinging massage device as claimed in claim 2, wherein the hard inner housing
(10) further comprises a clamping block (12) surrounding the opening (11), and abutted
against the periphery of the limiting sleeve (33).
5. The finger swinging massage device as claimed in claim 1, wherein a pair of opposite
notches (334) is formed on the upper end (33a) of the limiting sleeve (33) and connected
to each other to form a sliding channel (335) therebetween so that a lower end (34b)
of the swinging rod (34) slides in the sliding channel (335).
6. The finger swinging massage device as claimed in claim 1, wherein a limiting block
(336) is formed on an inner wall (33b) of the limiting sleeve (33), and abutted against
an upper surface (31a) of the rotary motor (31).
7. The finger swinging massage device as claimed in claim 1, wherein the massage device
(100) further comprises a vibrating motor (35) received in the swinging rod (34).
8. The finger swinging massage device as claimed in claim 1, wherein the massaging portion
(21) is a finger-shape configuration.
9. The finger swinging massage device as claimed in claim 1, wherein the swinging rod
(34) comprises a rotating pin (341) rotatably connected with the limiting sleeve (33),
and a nozzle structure (342) located at an end of the swinging rod (34) near the rotating
pin (341), and an opposite end of the swinging rod (34) away from the rotating pin
(341) sleeved with the massaging portion (21); and the nozzle structure (342) comprising
a first portion (343) and a second portion (344) opposite to the first portion (343),
and a receiving chamber (345) formed between the first and second portions (343, 344);
and wherein the eccentric wheel (32) extends into the receiving cavity (345) and contacts
with the first and second portions (343, 344) back and forth during rotating the eccentric
wheel (32), and the nozzle structure (342) moves linearly back and forth, so that
the swinging rod (34) swings around the rotating pin (341).
10. The finger swinging massage device as claimed in claim 1, wherein the hard inner housing
(10) is made of plastic material, and the soft outer housing (20) is made of silica
gel material.
11. The finger swinging massage device as claimed in claim 9, wherein the eccentric wheel
(32) includes a first shaft (321) connected with the rotary motor (31), and a second
shaft (322) eccentrically arranged on the first shaft (321) and extending into the
receiving cavity (345) of the nozzle structure (342).
12. The finger swinging massage device as claimed in claim 11, wherein both a control
circuit board (13) and a battery (14) are received in the hard inner housing (10),
both the rotary motor (31) and the battery (14) electrically connected with the control
circuit board (13), respectively; the control circuit board (13) configured to control
an action of the rotary motor (31), and the battery (14) equipped with a magnetic-suction
charging terminal (15) to supply power in time and maintain an endurance capacity.